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Home My WebLink About2008.10.08 - Sims Way Howard Street Wetland Report - Landau Associates950 Pacific Avenue, Suite 515 Tacoma, WA 98402 (253) 926-2493 October 8, 2008 Prepared for WHPacific Sims Way Howard Road Wetland Report Port Townsend, Washington 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES ii TABLE OF CONTENTS Page 1.0 INTRODUCTION 1-1 1.1 SITE DESCRIPTION 1-2 1.2 WETLAND FINDINGS 1-2 1.3 REGULATORY BACKGROUND 1-4 2.0 METHODS 2-1 2.1 BACKGROUND INFORMATION 2-1 2.2 FIELD INVESTIGATION 2-1 2.2.1 Wetland and Stream Classification, Rating/Typing, Functional Assessment, and Buffer Width 2-2 3.0 RESULTS 3-1 3.1 BACKGROUND INFORMATION REVIEW 3-1 3.2 WETLAND DELINEATION/FIELD INVESTIGATION 3-1 3.2.1 Wetland A 3-1 3.2.1.1 Vegetation 3-2 3.2.1.2 Soils 3-2 3.2.1.3 Hydrology 3-2 3.2.1.4 Wetland Determination 3-2 3.2.1.5 Upland Characterization 3-3 3.2.2 Wetland C 3-4 3.2.2.1 Vegetation 3-4 3.2.2.2 Soils 3-4 3.2.2.3 Hydrology 3-5 3.2.2.4 Wetland Determination 3-5 3.2.2.5 Upland Characterization 3-5 3.2.3 Wetland E 3-6 3.2.3.1 Vegetation 3-6 3.2.3.2 Soils 3-6 3.2.3.3 Hydrology 3-7 3.2.3.4 Wetland Determination 3-7 3.2.3.5 Upland Characterization 3-7 3.2.4 Wetland I 3-8 3.2.4.1 Vegetation 3-8 3.2.4.2 Soils 3-8 3.2.4.3 Hydrology 3-8 3.2.4.4 Wetland Determination 3-8 3.2.4.5 Upland Characterization 3-9 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES iii 3.2.5 Wetland J 3-9 3.2.5.1 Vegetation 3-9 3.2.5.2 Soils 3-10 3.2.5.3 Hydrology 3-10 3.2.5.4 Wetland Determination 3-10 3.2.5.5 Upland Characterization 3-10 3.2.6 Wetland N 3-11 3.2.6.1 Vegetation 3-11 3.2.6.2 Soils 3-12 3.2.6.3 Hydrology 3-12 3.2.6.4 Wetland Determination 3-12 3.2.6.5 Upland Characterization 3-12 3.2.7 Wetland O 3-13 3.2.7.1 Vegetation 3-13 3.2.7.2 Soils 3-13 3.2.7.3 Hydrology 3-13 3.2.7.4 Wetland Determination 3-14 3.2.7.5 Upland Characterization 3-14 3.2.8 Wetland T 3-14 3.2.8.1 Vegetation 3-15 3.2.8.2 Soils 3-15 3.2.8.3 Hydrology 3-15 3.2.8.4 Wetland Determination 3-15 3.2.8.5 Upland Characterization 3-16 3.2.9 Area B 3-16 3.2.10 Area D 3-17 3.2.11 Area F 3-18 3.2.12 Area G 3-18 3.2.13 Area H 3-19 4.0 CONCLUSIONS 4-1 5.0 USE OF THIS REPORT 5-1 6.0 REFERENCES 6-1 LIST OF FIGURES Figure Title 1 Vicinity Map 2 Study Area Map 3a Wetland Delineation Map 3b Wetland Delineation Map North 3c Wetland Delineation Map Central 3d Wetland Delineation Map South 4 Proposed Improvements 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES iv LIST OF TABLES Table Title 1 Methods for Wetland Determination 2 Wetland Delineation Summary 3 Summary of Characteristics of Wetlands and Upland Areas LIST OF APPENDICES Appendix Title A Background Information Review Figures B Soil Profile Reports C Wetland Data Sheets D Selected Site Photographs E Wetland Rating Forms F Maps with Wetland Flags and Data Plots 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 1-1 1.0 INTRODUCTION The City of Port Townsend (City) is a tourist destination and also provides tourist access to the surrounding Olympic Peninsula through roadway and ferry connections. In order to increase accessibility within the City, the City is proposing two roadway improvement projects, the Sims Way project and the Howard Street project (Figure 1). The Sims Way project will improve operations and enhance the entrance into the City of Port Townsend from Howard Street to Thomas Street and includes the following improvements: • Providing access control for Sims Way (SR20) from Howard Street to Logan Street by construction of a center median • Constructing roundabouts at the Sims Way intersections at Howard Street and Thomas Street • Constructing stormwater detention and treatment facilities including ecology embankments and a storm pond at Logan Street and 3rd Street • Constructing sidewalks and pedestrian crossings. The Howard Street project will provide a connection between Sims Way and Discovery Road. The Howard Street project involves realigning and extending Howard Street to Discovery Road, and includes the following improvements: • Constructing an intersection with 6th Street and Howard Street approximately 500 ft north of the Sims Way – Howard Street roundabout • Constructing a roundabout at the intersection of Howard Street, Rainier Street and Discovery Road • Realigning and extending Howard Street to Discovery road as a two-lane road with on-street parking and bike lanes • Constructing rain gardens and a gravel trail parallel to Howard Street. These projects are adjacent to each other, but have logical termini and independent utility. Furthermore, it is anticipated the Sims Way project will have federal funding, and the Howard Street project is anticipated to have Local Improvement District funding. Landau Associates, under contract to WHPacific, provided environmental investigations within the Sims Way project area and the Howard Street project areas to assist the City with determining potential wetland impacts, including impacts to “waters of the U.S.” and their associated buffers as a result of the improvements. As part of the scope of this project, this wetland report has been prepared to assist the U.S. Army Corps of Engineers (USACE) with making a jurisdictional determination of the delineated wetlands. After 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 1-2 the jurisdictional determination, regardless the wetlands will be regulated by the Port Townsend Code and a wetland mitigation plan will be provided to compensate for unavoidable wetland and buffer impacts subject to federal, state and/or local regulations. 1.1 SITE DESCRIPTION The wetland review area was limited to the Howard Street area beginning approximately 300 ft south of the intersection of Sims Way (SR 20) with Howard Street, extending north, and ending approximately 500 ft north of the intersection of Discovery Drive/Rainier Street. There are no wetlands along the Sims Way corridor, east of Howard Street. The projects are in the City of Port Townsend, Jefferson County (Figure 2) within Township 30 North, Range 1 West, Sections 09 and 10, and Water Resource Inventory Area (WRIA) 17 – Quilcene- Snow. Land uses and the zoning along both Sims Way and Howard Street are mainly commercial with mixed use areas and some residential uses. The Howard Street project includes a pasture/meadow area along the west side of Howard Street, however that area is zoned for commercial use according to the City of Port Townsend Zoning Map. 1.2 WETLAND FINDINGS The wetland review area is located in Drainage Basin 11 and 16 according to the Port Townsend Drainage Basin map (see Drainage Basin Map, Appendix A). According to the Port Townsend Environmentally Sensitive Areas (ESA) Map the area from wetland A north to wetland E is within a potential Critical Drainage Corridor (See Howard Street Project Area Map, Appendix A). However, the City’s ESA map is not definitive; it is an indicator of potential critical areas. Further research and field investigation is underway to determine the presence or absence of a critical drainage corridor. The proposed stormwater treatment for this project includes adding features such as rain gardens, storm ponds, and ecology embankments. The roadway design will comply with the Port Townsend Engineering Design Standards (EDS) Manual requirements for construction in Critical Drainage Corridors. The location of these wetlands in the Critical Drainage Corridor does not imply a wetland mosaic system. According to the Department of Ecology’s Wetland Rating System for Western Washington: “…the entire mosaic should be considered one unit when: • Each patch of wetland is less than one acre (0.4 hectacres) • Each patch is less than 100 ft (30 meters) apart, on the average 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 1-3 • The areas delineated as vegetated wetlands are more than 50% of the total area of the wetlands and the uplands together, or wetlands, open water, and river bars. If these criteria are not met, each area should be considered a single unit.” Although wetlands A through E are located in a potential Critical Drainage Corridor, the upland area is well over 50% of the total area. Therefore the wetlands within the potential Critical Drainage Corridor do not meet the criteria for mosaic wetlands. The following is a synopsis of the wetlands delineated by Landau Associates in the project area, their size, and wetlands impacts from the roadway project. Wetland Size square feet (sf) Class Cowardin/HGM Categ ory - score Buffer PTMC Wetland Impacts (sf) Buffer Impacts (sf) Highest Function by score and Regulated PTMC? A 12,697 PFO/Depressional III-36 80 12,697 64,998 Water Quality -18 Yes C 1,130 PEM/Depressional IV-28 50 1,130 14,878 Water Quality -16 Yes E 240 PEM/Depressional IV-29 50 240 11,019 Water Quality -16 No I 11,159 PSS/Depressional IV- 27 50 462 5,753 Water Quality -14 Yes J 3,846 PFO/PSS/ Depressional III- 30 80 266 3,795 Water Quality -14 Yes N 1,736 PFO/Depressional IV- 29 50 740 19,366 Water Quality – 14 Yes O 755 PEM/Depressional IV- 29 50 269 9,147 Water Quality -10 No T 12,936 PEM/PFO/ Depressional III- 37 60 0 0 Water Quality – 16 Habitat -15 - Yes PFO – Palustrine Forested PEM – Palustrine Emergent PSS – Palustrine Scrub-Shrub *Wetland O buffer overlaps with Wetland J buffer and, therefore buffer impacts are listed as 0. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 1-4 Wetlands K and L were previously delineated and the delineation work only verified the existing boundaries of those two wetlands. Additionally, Wetlands K and L and their associated buffers are not impacted by the project. Wetlands E and O are Category IV and less than 1,000 square feet. According to the PTMC 19.05.110 area 5 Wetlands (C) 2 Category III and IV wetlands less than 1,000 square feet are not regulated by the PTMC. These are included since there is the potential that the USACE may find these wetlands as non isolated and jurisdictional. The total estimated wetland impacts from the proposed project will be a maximum of 0.37 acres with an estimated buffer impact of 3.1 acres. All mitigation for impacts to wetlands and buffers will be in compliance with the PTMC, 19.05.110 – Critical Area 5 – Wetlands (F). The City is investigating a couple of different mitigation options and sites, therefore a separate mitigation report will be prepared for the proposed project. Detailed wetland information for each of the delineated wetlands and reviewed areas is provided in Section 3.0, information includes soils, plants, hydrology, functional scores and upland characteristics. The complete data sheets are in Appendix C and complete rating forms are available in Appendix E attached to this report. 1.3 REGULATORY BACKGROUND Wetlands and streams are regulated by federal, state, and local governmental agencies, and compliance with one agency does not fulfill permitting requirements of any other agencies. The Clean Water Act (CWA) requires authorization for the discharge of dredged or fill material into “waters of the U.S.” under Section 404 and Section 401. The Section 404 permit process is administered by the U.S. Army Corps of Engineers (USACE). The Washington State Department of Ecology (Ecology) has administrative oversight under Section 401 of the CWA for water quality certification in the case of impacts under the jurisdiction of the USACE. If the wetlands are not regulated by the USACE, then Ecology will require compliance with the State Water Pollution Control Act (RCW 90.48). In addition, if the wetlands qualify as waters of the State, the Washington State Department of Fish and Wildlife has jurisdiction and could regulate under the State Hydraulic Code (RCW 77.55). The City of Port Townsend Municipal Code Section 19.05.110 – Critical area 5 - Wetlands contains requirements for establishing wetland buffer widths, and building setbacks and for fill or alteration of wetlands and their buffers. The USACE determines the jurisdiction of a wetland based on the connection, more commonly referred to as adjacency, to other “waters of the U.S.” The delineated wetlands in the Howard Street 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 1-5 project may be considered isolated by the USACE. The USACE is the only agency that can make the determination of adjacent or isolated position. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 2-1 2.0 METHODS The wetland investigation was conducted in accordance with the USACE Wetland Delineation Manual (USACE 1987); the USACE Regional Guidance letter on the 1987 Manual (USACE 1994); and the Washington State Department of Ecology’s (Ecology’s) Washington State Wetlands Identification and Delineation Manual (Ecology 1997). The USACE and Ecology recommend preliminary data gathering and synthesis of available background information, followed by a field investigation. All delineation work was conducted prior to the adoption (in June) of the USACE Interim Regional Supplement to the Corps of Engineers Wetland Delineation Manual: Western Mountains, Valleys, and Coast Region (USACE 2008). 2.1 BACKGROUND INFORMATION Public domain resources were reviewed prior to the field investigation to determine existing conditions and potential wetland and stream resources in the study area and vicinity. The following public domain resources were reviewed: • Natural Resource Conservation Service (NRCS) Soil Survey and Hydric Soils List (NRCS website 2008b) • U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory (USFWS 1987 to current) • Washington Department of Natural Resources (WDNR) Washington National Heritage Program (WDNR website 2008) • Environmental Sensitive Wetland Area Study, prepared for City of Port Townsend, Public Works Department, by Loggy Soil and Wetland Consulting, May 2005 • Wetland Delineation and Analysis Report, Howard Street Wetland Delineation, prepared for City of Port Townsend, Public Works Department, by Alkai Consultants LLC, July 2007. 2.2 FIELD INVESTIGATION Both USACE and Ecology outline a three-parameter approach to determine the presence or absence of wetlands that requires evaluating vegetation, soil, and hydrology (Table 1). Landau Associates’ biologists completed the field delineation using the routine onsite method, where data are collected at locations representative of typical wetlands and/or uplands of the study area. Following this method, an area is determined to be wetland if all of the following three criteria are met (see Table 1): • The dominant vegetation is hydrophytic • Soils are hydric • Wetland hydrology is present. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 2-2 2.2.1 WETLAND AND STREAM CLASSIFICATION, RATING/TYPING, FUNCTIONAL ASSESSMENT, AND BUFFER WIDTH Wetlands identified in the project area were classified according to the USFWS classification system (Cowardin) (Cowardin et al. 1979) and the hydrogeomorphic classification (HGM) system (Brinson 1993). Wetlands were rated according to the Washington State Wetland Rating System for Western Washington, Revised Edition (Hruby 2004). This system categorizes wetlands based on their existing functions, including water quality, hydrology, and habitat, and if the wetland is rare, vulnerable, or unreplaceable. Complete wetland rating forms are provided in Appendix E. Wetland buffer widths were determined based on the City’s Critical Areas Code, Port Townsend Municipal Code (PTMC) 19.05.110 Critical area 5 - Wetlands. There are no streams in the project area. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-1 3.0 RESULTS This section presents the results of the background information review, wetland delineation, classification, and rating effort. 3.1 BACKGROUND INFORMATION REVIEW The Soil Survey Geographic Database for Jefferson County, Washington (NCRS 2008a) identifies one soil series within the study area (see Appendix A); complete soil profile reports are included in Appendix B: • Clallam gravelly sandy loam (CMC). The Clallam series consists of deep to densic materials, moderately well drained soils formed in glacial till over very compact glacial till. The Clallam soil series is not classified as hydric in the National Hydric Soils List (NRCS 2008b). 3.2 WETLAND DELINEATION/FIELD INVESTIGATION Landau Associates’ biologists Sacha Maxwell and Jessica Stone conducted wetland delineations on May 21 and May 22, 2008. Additional delineations were conducted by biologists Steven Quarterman and Jessica Stone on June 2, 2008; and then by Jessica Stone and Theresa Turpin on June 12, 2008. This delineation effort was conducted within the official growing season as specified by the Seattle District USACE (in Western Washington the growing season is typically considered to be from March 1 to October 31). During the field visits, weather conditions were calm, partly cloudy and near 65 degrees F. Eight wetlands were delineated as part of this critical area investigation. The locations of critical areas within the study area are shown on Figure 3. Landau Associates delineated the entire boundary of Wetlands A, C, E, I, J, N, O and T within the study area, verified the existing delineation of wetlands K and L and evaluated potential wetland sites in areas B, D, F, G, and H. Data plots collected at locations that are representative of typical wetland or upland conditions for the wetlands and potential areas are provided in Appendix C. Selected site photographs of the wetland and site areas are presented in Appendix D. Descriptions of the wetlands and potential wetland areas are provided below. 3.2.1 WETLAND A The entire area of Wetland A is approximately 12,697 square feet, and is next to the existing Howard Street and near the proposed intersection with the 6th Street right of way (ROW) (see Figure 3a)(see photo 1 in Appendix D). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-2 Wetland A is not shown on the National Wetlands Inventory (NWI) map. Data Plot DP2 was recorded to characterize the vegetation, hydrology, and soils of Wetland A and is located near the edge of the wetland. Data Plots DP1, DP3, and DP5 were recorded to describe the adjacent upland area (see Appendix C). 3.2.1.1 Vegetation Vegetation in Wetland A is dominated by hydrophytic vegetation. The dominant plant species in Wetland A include: • Nootka rose (Rosa nutkana, FAC). Additional nondominant species found in Wetland A include Scouler willow (Salix scouleriana, FAC), snowberry (Symphoricarpos albus, FACU), Douglas spirea (Spiraea douglasii, FACW), and short- scale sedge (Carex deweyana, FACU). 3.2.1.2 Soils The soil within Wetland A is characterized as low chroma, and was generally black (10YR 2/1) sandy loam from 0 to 5.5 inches. Below was light brownish gray (2.5Y 6/2) sandy loam from 5.5 inches to 13 inches with few brown and black (7.5YR 4/4 and 10YR 2/1) redox features. 3.2.1.3 Hydrology The soil was moist, but not saturated, at the time of the field investigation. The primary indicators of wetland hydrology observed were water marks, drainage patterns and sediment deposits in the depressional areas. Recorded data from a previous report conducted by Alkai Consultants, LLC on February 28, 2007, indicate that the soil was saturated and depressions were inundated at that time (Alkai 2007). Hydrology for Wetland A is primarily from runoff from adjacent fields and the nearby road. 3.2.1.4 Wetland Determination All three mandatory wetland criteria were satisfied for Wetland A. Landau Associates classified Wetland A as palustrine forested (PFO) depressional wetland (Cowardin 1979). At the time of the field investigation, most of Wetland A was dry; however, drainage patterns, watermarks, and changes from hydrophytic vegetation to upland vegetation were observed. Using the Ecology wetland rating form, Wetland A is rated as a Category III wetland, scoring highest for water quality and habitat functions, with a score of 18 and 13 respectively. Hydrologic functions were rated with a score of 5. A summary of Wetland A is provided in Table 3. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-3 3.2.1.5 Upland Characterization The upland area adjacent to Wetland A is characterized by Data Plot DP1, DP3, and DP5, which only satisfy one of the three mandatory wetland criteria respectively. Data Plot DP1 is located along side Howard Street, east of Wetland A, Data Plot DP3 is near the western edge of Wetland A, and Data Plot DP5 is located to the north of Wetland A in a grassy field (see photos 2 through 3 in Appendix D). Upland areas upslope from Wetland A likely contribute surface flow, but no primary hydrology indicators were observed in any of the data plots; however, Data Plot PD5 did show a secondary indicator of oxidized root channels within 12 inches. Furthermore, the percentage of dominant hydrophytic vegetative species in the upland areas surrounding Wetland A do not exceed 50 percent. The uplands adjacent to Wetland A consist mostly of shrubs and forests then opens to grass and other herbaceous vegetation to the north. Vegetation in forested uplands adjacent to Wetland A at Data Plot DP1 is dominated by: • Douglas-fir (Pseudotsuga menziesii, FACU) • Nootka rose (Rosa nutkana, FAC) • Scouler willow (Salix scouleriana, FAC). Additional nondominant species at Data Plot DP1 include snowberry (Symphoricarpus albus, FACU), orchard grass (Dactylis glomerata, FACU), Kentucky fescue (Festuca arundinacea, FAC-), and white clover (Trifolium repens, FAC). Vegetation in forested uplands adjacent to the western edge of Wetland A at Data Plot DP3 includes: • Scouler willow (Salix scouleriana, FAC) • Himalayan blackberry (Rubus discolor, FACU). Additional nondominant species at Data Plot DP3 include oceanspray (Holodiscus discolor, NI), snowberry (Symphoricarpus albus, FACU), salal (Gaultheria shallon, FACU), nootka rose (Rosa nutkana, FAC), western thimbleberry (Rubus parviflorus, FAC-), bracken fern (Pteridium aquilinum, FACU), and short-scale sedge (Carex deweyana, FACU). Vegetation in the grass and herbaceous area to the north adjacent to Wetland A at Data Plot DP5 is dominated by: • Sweet vernal grass (Anthoxanthum odoratum, FACU). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-4 Additional nondominant species in the adjacent grass and herbaceous areas includes common velvet grass (Holcus lanatus, FAC), meadow buttercup (Ranunculus acris, FACW-), common vetch (Vicia sativa, UPL), and Kentucky fescue (Festuca arundinacea, FAC-). The soil of the uplands adjacent to Wetland A is similar to the wetland, which is hydric characterized as low chroma. During the field investigation, soil was moist, but not saturated, and lacked primary indictors of wetland hydrology. Data Plot DP5 did meet one secondary hydrology indicator with oxidized root channels within 12 inches. A summary of the typical upland area adjacent to Wetland A is provided in Table 3. 3.2.2 WETLAND C Wetland C has a total area approximately 1,130 square feet, and located near the proposed Howard Street alignment in a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a) (see photo 4 in Appendix D). At the time of the investigation, the meadow had not been mowed or disturbed. Wetland C is not shown on the National Wetlands Inventory (NWI) map. Data plot DP7 was recorded to characterize the vegetation, hydrology, and soils of Wetland C and was located in its center. An adjacent depressional area, Area D, was investigated for wetland status but was determined to be upland. Data plot DP8 was recorded to describe this area and serve as upland descriptions for nearby Wetland C. 3.2.2.1 Vegetation Vegetation in Wetland C is dominated by hydrophytic vegetation. The dominant plant species in Wetland E include: • Reed canary grass (Phalaris arundinaceae, FACW) • Tall fescue (Festuca arundinacea, FAC-). Additional nondominant species found in Wetland C include Douglas hawthorn (Crataegus douglasii, FAC), field forget-me-not (Myosotis arvensis, FAC), thick-head sedge (Carex pachystachya, FAC), and tiny vetch (Vicia hirsuta, NI) and English plantain (Plantago lanceloata, FAC). 3.2.2.2 Soils The soils within Wetland C are characterized as low chroma. Soils in Wetland C are very dark brown (10YR 2/2) sandy loam from 0 to 7 inches with few dark yellowish brown (10YR 4/4) oxidized 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-5 rhizopheres. Below from 7 to 12+ inches were dark grayish brown (2.5Y 4/2) silty sand with strong brown (7.5YR 4/6) redox features. 3.2.2.3 Hydrology Soils in Wetland C were moist, but not saturated, at the time of the field investigation; and there were no primary hydrology indicators at the time of the delineation. As secondary indicators, there were oxidized root channels in the upper 12 inches and the hydrophytic vegetation passed the FAC-neutral test. Hydrology for Wetland C is primarily from surface runoff from adjacent fields and rainfall. 3.2.2.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetlands C. Landau Associates classified the Wetlands as a palustrine emergent (PEM) depressional wetland (Cowardin 1979). At the time of the field investigation, soils within Wetlands C were moist but not saturated, and no primary indicators of wetland hydrology were observed. Using the Ecology wetland rating form, Wetlands C was rated as Category IV wetlands, scoring highest for water quality functions with a score of 16, hydrologic functions and habitat were rated 7 and 5 respectively. A summary of Wetland C is provided in Table 3. 3.2.2.5 Upland Characterization Area D, adjacent to Wetland C, was investigated as a potential wetland and is described by Data Plot DP8. This upland area satisfies only two of the three mandatory wetland criteria. Upland areas upslope from Wetland C likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland C consist of grassland areas within a seasonally hayed field. Vegetation in uplands adjacent to Wetland C are dominated by: • Black bentgrass (Agrostis gigantean, FAC) • Sweet vernal grass (Anthoxanthum odoratum, FACU). Additional nondominant species in adjacent uplands includes Kentucky fescue (Festuca arundinacea, FAC-), creeping buttercup (Ranunculus acris, FACW-), common vetch (Vicia sativa, UPL), tiny vetch (Vicia hirsute, NI), and nootka rose (Rosa nutkana, FAC). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-6 The soil of the uplands adjacent to Wetland C are hydric with low chroma colors. They are very dark brown (10YR 2/2) fine sandy loam with few dark yellowish brown (10YR 4/4) oxidized rhizopheres in the upper 8 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of the typical upland area adjacent to Wetland C is provided in Table 3. 3.2.3 WETLAND E Wetland E has a total area of approximately 237 square feet, and is located near the proposed Howard Street alignment in a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a) (see photo 5 in Appendix D). At the time of the investigation, the meadow had not been mowed or disturbed. Wetland E is not shown on the National Wetlands Inventory (NWI) map. Data plot DP17 was recorded to characterize the vegetation, hydrology, and soils of Wetland E and was located in the center of the wetland. A nearby depressional area, Area D, was investigated for wetland status. Data plot DP8 was recorded to describe this plot and serve as upland descriptions for nearby Wetland E. 3.2.3.1 Vegetation Vegetation in Wetland E is dominated by hydrophytic vegetation. The dominant plant species in Wetland E include: • Sweet vernal grass (Anthoxanthum odoratum, FACU) • Common velvet grass (Holcus lanatus, FAC) • Meadow buttercup (Ranunculus acris, FACW) • Meadow foxtail (Alopecurus pratensis, FACW). Additional nondominant species found in Wetland E include tall fescue (Festuca arundinaceae, FAC-), English plaintain (Plantago lanceolata, FACU+). 3.2.3.2 Soils The soil within Wetland E is characterized as low chroma. Wetland E was generally very dark grayish brown (10YR 3/2) sandy loam from 0 to 7 inches with few dark yellowish brown (10YR 4/4) rhizopheres. Below, from 7 to 12 inches was brown (10YR 4/3) sandy loam with brown (7.5YR 4/4) redox features. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-7 3.2.3.3 Hydrology Soils in Wetland E were moist, but not saturated, at the time of the field investigation; and there were no primary hydrology indicators at the time of the delineation. As secondary indicators, the wetland had oxidized root channels in the upper 12 inches and passed the FAC-neutral test. Recorded data from previous reports conducted by Alkai on March 1, 2007 indicate that there was inundation to 4 inches (Alkai 2007). Hydrology for Wetland E is primarily from surface runoff from adjacent fields and rainfall. 3.2.3.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetlands E. Landau Associates classified the wetland as a palustrine emergent (PEM) depressional wetland (Cowardin 1979). At the time of the field investigation, soils within Wetland E were moist, but not saturated, and no other indicators of primary wetland hydrology were observed. Using the Ecology wetland rating form, Wetland E is rated as Category IV wetlands, scoring highest for water quality functions with a score of 16, hydrologic functions and habitat were rated 7 and 6 respectively. A summary of Wetland E is provided in Table 3. 3.2.3.5 Upland Characterization Area D, just south of Wetland E, was investigated as a potential wetland and is described by Data Plot DP8. This upland area satisfies only two of the three mandatory wetland criteria. Upland areas upslope from Wetland E likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland E consist of grassland areas within a seasonally hayed field. Vegetation in uplands adjacent to Wetland E is dominated by: • Black bentgrass (Agrostis gigantean, FAC) • Sweet vernal grass (Anthoxanthum odoratum, FACU). Additional nondominant species in adjacent uplands includes Kentucky fescue (Festuca arundinacea, FAC-), creeping buttercup (Ranunculus acris, FACW-), common vetch (Vicia sativa, UPL), tiny vetch (Vicia hirsute, NI), and nootka rose (Rosa nutkana, FAC). The soil of the uplands adjacent to Wetland E are hydric with low chorma colors. They are very dark brown (10YR 2/2) fine sandy loam with few dark yellowish brown (10YR 4/4) oxidized rhizopheres in the upper 8 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of the typical upland area adjacent to Wetland E is provided in Table 3. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-8 3.2.4 WETLAND I Wetland I has a total area of 11,159 square feet near the northern end of the study area boarding Discovery Road (see Figure 3a) (see photos 8 and 9 in Appendix D). Wetland I is not shown on the National Wetlands Inventory (NWI) map. Data Plot DP11 was recorded to characterize the vegetation, hydrology, and soils of Wetland I and is located near its edge by Discovery Road. Data Plot DP10 was recorded to describe the adjacent upland area (see Appendix C). 3.2.4.1 Vegetation Vegetation in Wetland I is dominated by hydrophytic vegetation. The dominant plant species in Wetland I include: • Nootka rose (Rosa nutkana, FAC) • Douglas spirea (Spiraea douglassii, FACW). Additional nondominant species found in Wetland I include thimbleberry (Rubus parviflorus, FAC-). 3.2.4.2 Soils The soil within Wetland I is characterized as low chroma, and was generally very dark brown (10YR 2/2) sandy loam from 1 to 6 inches. Below from 6 to 12 inches is grayish brown (2.5Y 5/2) soils with brown (7.5YR 4/4) redox features. 3.2.4.3 Hydrology The soil was moist at the time of the field investigation with no saturation or free water below ground surface. Low watermarks were the primary hydrology indicator. A report by Loggy Soil and Wetland Consulting recorded watermarks, free water and saturation in this parcel on March 21, 2005 (Loggy Soil and Wetland Consulting 2005). Hydrology for Wetland I is primarily from surface runoff from the adjacent roads and upland areas. 3.2.4.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetland I. Landau Associates classified Wetland I as a palustrine scrub-shrub (PSS) depressional wetland (Cowardin 1979). At the time of the field investigation, Wetland I was moist with no standing or saturated soils. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-9 Using the Ecology wetland rating form, Wetland I was rated as a Category IV wetland, scoring highest for water quality functions with a score of 14, hydrologic functions and habitat were rated 5 and 8 respectively. A summary of Wetland I is provided in Table 3. 3.2.4.5 Upland Characterization The upland area adjacent to Wetland I is characterized by data plot Data Plot DP10 which satisfies two of the three mandatory wetland criteria. Data Plot DP 10 is located north west of the Wetland. Upland areas upslope from Wetland I likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland I consist mostly of shrubs and herbaceous vegetation. Vegetation in upland areas adjacent to Wetland I is dominated by: • Nootka rose (Rosa nutkana, FAC) • Salal (Galthiera shallon, FACU) • Thick-head sedge (Carex pachystachya, FAC). Additional nondominant species in adjacent uplands includes sword fern (Pteridium aquilinum, FACU), dandelion (Taraxacum officinale, FACU), creeping buttercup (Ranunculus repens, FACW). The soil of the upland is similar to Wetland I. During the field investigation, soil was moist with no saturated or standing water. A summary of the typical upland area adjacent to Wetland I is provided in Table 3. 3.2.5 WETLAND J Wetland J has a total area of 3,846 square feet and is located on Discovery Road near Wetland I at the northern end of the study area (see figure 3a) (see photo 10 in Appendix D). Wetland J is not shown on the National Wetlands Inventory (NWI) map. Data plot DP12 was recorded to characterize the vegetation, hydrology, and soils of Wetland J and was located near the edge of the wetland near Discovery Road. Data plot DP13 was recorded to describe the adjacent upland area (see Appendix C). 3.2.5.1 Vegetation Vegetation in Wetland J is dominated by hydrophytic vegetation. The dominant plant species in Wetland J include: • Sitka willow (Salix sitchensis, FACW) 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-10 • Nootka rose (Rosa nutkana, FAC) • Douglas spirea (Spiraea douglassii, FACW) • Quacking aspen (Populus tremuloides, FAC+) • Slough Sedge (Carex obnupta, OBL). 3.2.5.2 Soils The soil within Wetland J is characterized as low chroma, with several inches of leaf litter and root matter followed by very dark gray (10YR 3/1) sandy loam from 2 to 8 inches and then grayish brown (2.5Y 5/2) with brown (7.5YR 4/4) mottles from 8 to 16+ inches. 3.2.5.3 Hydrology The soil was moist at the time of the field investigation. Primary hydrology indicators include water marks and drainage patterns. A previous wetland reports from Loggy Soil and Wetland Consulting reported watermarks, free water, and saturation within this parcel area on March 21, 2005 (Loggy Soil and Wetland Consulting 2005). Hydrology for Wetland J is primarily from surface runoff from the adjacent roads and upland areas. 3.2.5.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetland J. Landau Associates classified Wetland J as a combination of palustrine forested and palustrine scrub-shrub (PFO/PSS) depressional wetland (Cowardin 1979). At the time of the field investigation, Wetland J was moist with no standing or saturated soils. Using the Ecology wetland rating form, Wetland J was rated as a Category III wetland, scoring highest for water quality functions and habitat, with a score of 14 and 11 respectively, hydrologic functions were rated 5. A summary of Wetland J is provided in Table 3. 3.2.5.5 Upland Characterization The upland area adjacent to Wetland J is characterized by data plot DP13 which satisfies none of the three mandatory wetland criteria. Data Plot DP13 is located near a forested area north of Wetland J. Upland areas upslope from Wetland J likely contribute surface flow, but no primary hydrology indicators were observed. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-11 The uplands adjacent to Wetland J consist mostly of shrubs and forested areas. Vegetation in forested uplands adjacent to Wetland J is dominated by: • Scouler willow (Salix scouleriana, FAC) • Salal (Gaulthiera shallon, FACU) • Oceanspray (Holodiscus discolor, NI). Additional nondominant species in adjacent uplands includes nootka rose (Rosa nutkana, FAC), thimbleberry (Rubus parviflorus, FAC-), and sword fern (Pteridium aquilinum, FACU). The soil of the uplands adjacent to Wetland J are not hydric being very dark brown (10YR 2/2) with no redox features or concentrations. During the field investigation, soil was moist with no saturated or standing water. A summary of the typical upland area adjacent to Wetland J is provided in Table 3. 3.2.6 WETLAND N Wetland N has a total area of 1,736 square feet and is just south of the Discovery Road and the proposed Howard Street alignment (see Figure 3a) (see photo 13 in appendix D). Wetland N is not shown on the National Wetlands Inventory (NWI) map. Data Plot DP15 was recorded to characterize the vegetation, hydrology, and soils of Wetland N and is located near the edge of the wetland by Discovery Road. Data Plot DP16 was recorded to describe the adjacent upland area (see Appendix C). 3.2.6.1 Vegetation Vegetation in Wetland N is dominated by hydrophytic vegetation. The dominant plant species in Wetland J include: • Scouler willow (Salix scouleriana, FAC) • Douglas spirea (Spiraea douglassi, FACW). Additional nondominant species in Wetland N includes snowberry (Symphoricarpos albus, FACU), and slough sedge (Carex obnupta, OBL). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-12 3.2.6.2 Soils The soil within Wetland N is characterized as low chroma, and was generally very dark gray (10YR 3/1) silty sand from 0 to 8 inches. Below from 8 to 12 inches was dark grayish brown (2.5Y 4/2) silty sand with brown (7.5YR 4/4) redox features. 3.2.6.3 Hydrology The soil was moist at the time of the field investigation; with no saturation or standing water. Additional primary hydrology indicators include water marks and drainage patterns. Hydrology for Wetland N is primarily from surface runoff from the adjacent roads and upland areas. 3.2.6.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetland N. Landau Associates classified Wetland N as a palustrine forested (PFO) depressional wetland (Cowardin 1979). At the time of the field investigation, Wetland N was moist with no standing water or saturated soils. Using the Ecology wetland rating form, Wetland N was rated as a Category IV wetland, scoring highest for water quality functions and habitat, with a score of 14 and 10 respectively, hydrologic functions were rated 5. A summary of Wetland N is provided in Table 3. 3.2.6.5 Upland Characterization The upland area adjacent to Wetland N is characterized by Data Plot DP16 which satisfies two of the three mandatory wetland criteria. Data Plot DP16 is located near the boundary of Wetland N. Upland areas upslope from Wetland N likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland N consist mostly of forested areas. Vegetation in forested uplands adjacent to Wetland N is dominated by: • Douglas-fir (Pseudotsuga menziesii, FACU) • Sitka willow (Salix sitchensis, FAC) • Salal (Gaulthiera shallon, FACU) • Douglas spirea (Spiraea douglassi, FACW). Additional nondominant species in adjacent uplands includes nootka rose (Rosa nutkana, FAC), and service berry (Amelanchier alnifolia, FACU). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-13 The soil of the uplands adjacent to Wetland N is hydric due to low chroma colors. They are very dark grayish brown (10YR 3/2) sandy loam followed by brown (10YR 4/3) silty sand with brown (7.5YR 4/4) redox features. During the field investigation, soil was moist with no saturation or standing water. A summary of the typical upland area adjacent to Wetland N is provided in Table 3. 3.2.7 WETLAND O Wetland O is approximately 755 square feet, is located on Rainier Street near Wetlands N and J. This wetland appears to be created as a large ditch/pool near the side of the street. Despite its origins, it has hydric vegetation, hydrology, and was found to contain amphibian wildlife (see photo 14 in Appendix D). Wetland O is not shown on the National Wetlands Inventory (NWI) map. Data plot DP14 was recorded to characterize the vegetation, hydrology, and soils of Wetland O and was located in the wetland’s center. There was no specific data recorded to describe the adjacent upland area; however, due to its location, the upland Data Plot DP16 from Wetland N was used for comparison (see Appendix C). 3.2.7.1 Vegetation Vegetation in Wetland O is dominated by hydrophytic vegetation. The dominant plant species in Wetland O include: • Soft rush (Juncus effusus, FACW) • Bentgrass (Agrostis stolonifera, FACW). Additional nondominant species in Wetland O includes common velvet grass (Holcus lanatus, FAC), and scouler willow (Salix scouleriana, FAC). 3.2.7.2 Soils The soil within Wetland O is characterized as low chroma, and was generally dark grayish brown (10YR 4/2) silty sand with few grayish brown (2.5Y 5/2) redox features from 0 to 8 inches. Below from 8 to 12 inches was dark grayish brown (10YR 4/2) silty sand with brown (7.5YR 4/4) redox features. 3.2.7.3 Hydrology The soil was moist at the time of the field investigation with several inches of ponding adjacent to the data plot. Additional primary hydrology indicators include water marks and drainage patterns. Hydrology for Wetland O is primarily from surface runoff from the adjacent roads and upland areas. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-14 3.2.7.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetland O. Landau Associates classified Wetland O as a palustrine emergent (PEM) depressional wetland (Cowardin 1979). At the time of the field investigation, Wetland O had standing water in the lowest section of its depressional area. Using the Ecology wetland rating form, Wetland O was rated as a Category IV wetland, scoring highest for water quality and hydrologic functions, both with a score of 10, habitat functions were rated 9. A summary of Wetland O is provided in Table 3. 3.2.7.5 Upland Characterization The upland area adjacent to Wetland O is characterized by Data Plot DP16 which satisfies two of the three mandatory wetland criteria. Data Plot DP16 is located south of Wetland O near Wetland N. Upland areas upslope from Wetland O likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland N consist mostly of forested areas. Vegetation in forested uplands adjacent to Wetland N is dominated by: • Douglas-fir (Pseudotsuga menziesii, FACU) • Sitka willow (Salix sitchensis, FAC) • Salal (Gaulthiera shallon, FACU) • Douglas spirea (Spiraea douglassi, FACW). Additional nondominant species in adjacent uplands includes nootka rose (Rosa nutkana, FAC), and service berry (Amelanchier alnifolia, FACU). The soil of the uplands adjacent to Wetland O is hydric due to low chroma colors. They are very dark grayish brown (10YR 3/2) sandy loam followed by brown (10YR 4/3) silty sand with brown (7.5YR 4/4) redox features. During the field investigation, soil was moist with no saturation or standing water. A summary of the typical upland area adjacent to Wetland O is provided in Table 3. 3.2.8 WETLAND T The area of Wetland T within the project area is approximately 12,936 square feet, near the end of Howard Street at the southern end of the study area (see Figure 3a) (see photo 15 in Appendix D). Wetland T was only delineated to the utility access road that bisects the southeast area of the wetland; due to restricted access the inundated area on the east side of the road was not delineated. A culvert and 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-15 potential seasonal flooding across the road connects the two areas (see photo 16 in Appendix D). Wetland T is a depressional wetland that directly receives runoff from nearby roads and parking lots. Wetland T is not shown on the National Wetlands Inventory (NWI) map. Data Plot DP20 was recorded to characterize the vegetation, hydrology, and soils of Wetland T and is located near the edge of the wetland. Data Plot DP21 was recorded to describe the adjacent upland area (see Appendix C). 3.2.8.1 Vegetation Vegetation in Wetland T is dominated by hydrophytic vegetation. Due to restoration in this wetland, some of the hydrophytic vegetation planted is not typically found in other local wetlands. The dominant plant species in Wetland T include: • Pacific willow (Salix lasiandra, FACW) • Common cattails (Typha latifolia, OBL) • Bluegrass (Poa pratensis, FAC) • Tall fescue (Festuca arundinacea, FACU-) • Soft rush (Juncus effusus, FACW). Additional nondominant species found in Wetland T include black cottonwood (Populus balsamifera, FAC), blackberry (Rubus ursinus, FACU), and velvet grass (Holcus lanatus, FAC). 3.2.8.2 Soils The soil within Wetland T is characterized as low chroma, and was generally black (10YR 2/1) sandy loam from 0 to 6 inches with very dark gray (10YR 3/1) sandy loam below from 6 to 16+ inches. 3.2.8.3 Hydrology The soil was moist at the time of the field investigation with saturation at four inches below ground surface and free water at nine inches below ground surface. There is ponding in the center of the wetland with emergent vegetation. Hydrology for Wetland A is primarily from surface runoff from the adjacent roads and parking lots. 3.2.8.4 Wetland Determination All three mandatory wetland criteria are satisfied for Wetland T. Landau Associates classified Wetland T as a palustrine emergent/palustrine forested (PEM/PFO) depressional wetland (Cowardin 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-16 1979). At the time of the field investigation, there was ponded water and free water nine inches below ground surface. Using the Ecology wetland rating form, Wetland T is rated as a Category III wetland, scoring highest for water quality functions and habitat, with a score of 16 and 15 respectively. Hydrologic functions were rated with a score of 6. A summary of Wetland A is provided in Table 3. 3.2.8.5 Upland Characterization The upland area adjacent to Wetland T is characterized by Data Plot DP21 which satisfies one of the three mandatory wetland criteria. Data Plot DP21 is located near an upslope trail west of Wetland T. Upland areas upslope from Wetland T likely contribute surface flow, but no primary hydrology indicators were observed. The uplands adjacent to Wetland T consist of a mix of forested, shrub, and grassy areas. Due to restoration some of the upland vegetation at this site is not typically found in other nearby upland areas. Vegetation in forested uplands adjacent to Wetland T is dominated by: • Native blackberry (Rubus ursinus, FACU) • Common vetch (Vicia satvia, UPL) • Tall fescue (Festuca arundinacea, FACU-). The soil of the uplands adjacent to Wetland T is hydric with low-chroma colors. They are dark grayish brown (10YR 4/2) sandy loam followed by are light brownish gray (10YR 6/2) sandy loam with dark yellowish brown (10YR 4/6) redox features. During the field investigation, soil was moist with no saturated or standing water. A summary of the typical upland area adjacent to Wetland T is provided in Table 3. 3.2.9 AREA B Area B was investigated as a potential wetland and located next in the center of a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a). At the time of the investigation, the meadow had not been mowed or disturbed. Area B is described by Data Plot DP6. This area has been determined to be upland since it satisfies only one of the three mandatory wetland criteria. Area B had no primary hydrology indicators and only had oxidized root channels in the upper 12 inches of soil as a secondary indicator. A wetland report by Alkai reported soil saturation at 2 inches in this area on February 28, 2007 (Alkai 2007). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-17 The vegetation in Area B consists of primarily upland vegetation within a seasonally hayed field. Vegetation in Area B is dominated by: • Sweet vernal grass (Anthoxanthum odoratum, FACU) • Kentucky fescue (Festuca arundinacea, FAC-) • Tall buttercup (Ranunculus acris, FACW-). Additional nondominant species includes common velvet grass (Holcus lanatus, FAC), black bentgrass (Agrostis gigantea, FAC), creeping thistle (Cirsium arvense, FACU+), and tiny vetch (Vicia hirsute, NI). The soils in Area B are hydric due to low chroma colors. They are very dark grayish brown (10YR 3/2) sandy loam with dark yellowish brown (10YR 4/4) oxidized rhizopheres from 0 to 8.5 inches followed by gray (2.5Y 6/1) silty sand with brown (7.5YR 4/4) redox features from 8.5 to 12 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of the Area B is provided in Table 3. 3.2.10 AREA D Area D was investigated as a potential wetland and located next to Wetland C in a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a). At the time of the investigation, the meadow had not been mowed or disturbed. Area D is described by Data Plot DP8. This area has been determined to be upland since it satisfies only two of the three mandatory wetland criteria. Area D had no primary hydrology indicators and only had oxidized root channels in the upper 12 inches of soil as a secondary indicator. The vegetation in Area D consists of marginally hydrophytic vegetation within a seasonally hayed field near a shrub boarder. Vegetation in Area D is dominated by: • Black bentgrass (Agrostis gigantea, FAC) • Sweet vernal grass (Anthoxanthum odoratum, FACU). Additional nondominant species includes Kentucky fescue (Festuca arundinacea, FAC-), tall buttercup (Ranunculus acris, FACW-), common vetch (Vicia sativa, UPL), tiny vetch (Vicia hirsute, NI). The soils in Area D are hydric due to low chroma colors. They are very dark brown (10YR 2/2) sandy loam with dark yellowish brown (10YR 4/4) oxidized rhizopheres from 0 to 8 inches followed by dark grayish brown (2.5Y 4/2) silty sand with strong brown (7.5YR 4/6) redox features from 8 to 12 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of the Area D is provided in Table 3. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-18 3.2.11 AREA F Areas F was investigated as a potential wetland and located near the eastern edge of the proposed Howard Street alignment by a trailside ditch in a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a). At the time of the investigation, the meadow had not been mowed or disturbed. Area F is described by Data Plot DP18. This area has been determined to be upland since it satisfies only one of the three mandatory wetland criteria. Area F had no primary or secondary hydrology indicators. It was reported by Alkai Consultants that Area F had seasonal saturation and free water 3 inches below ground surface on March 1, 2007 but was gone by May (Alkai 2007). The vegetation in Area F consists of grassland areas within a seasonally hayed field near a shrub boarder. Vegetation in Area F is dominated by: • Sweet vernal grass (Anthoxanthum odoratum, FACU). Additional nondominant species in adjacent areas includes common vetch (Vicia satvia, UPL), tall fescue (Festuca arundinacea, FAC-), and English plantain (Plantago lanceolata, FAC) and field forget-me-not (Myosotis arvensis, FAC). The soils in Area F are hydric due to low chroma colors. They are very dark grayish brown (10YR 3/2) from 0 to 8 inches followed by brown (10YR 4/3) sandy loam with brown (7.5YR 4/4) redox features from 8 to 12 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of Area F is provided in Table 3. 3.2.12 AREA G Area G was investigated for potential wetland status and is characterized by data plot DP19, which only satisfies two of the three mandatory wetland criteria. Data Plot19 is located in the center of Area G, near the proposed Howard Street alignment (see Figure 3a). There were no observed primary or secondary hydrology indicators. A wetland report by Alkai indicates that on March 1, 2007 there was saturation and free water present at 7 inches below soil surface within this area. The concluded this area to be upland due to a lack of hydrophytic vegetation (Alkai 2007). The vegetation in Area G consists mostly of shrubs with herbaceous vegetation in the openings and borders. Although it is dominated by hydrophytic vegetation with a FAC rating, the majority of non- dominant species are upland. Vegetation in Area G is dominated by: 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-19 • Nootka rose (Rosa nutkana, FAC) • Bluegrass (Poa pretensis, FAC). Additional nondominant species in adjacent forested uplands includes salal (Gaulthiera shallon, FACU), snowberry (Symphoricarpos alba, FACU), trailing blackberry (Rubus ursinus, FACU), common velvet grass (Holcus lanatus, FAC), cleavers bedstraw (Galium aparine, FACU), and dandelion (Taraxacum officinale, FACU). The soils of Area G are hydric due to their low chroma colors. From 1 to 6 inches they are very dark brown (10YR 2/2) sandy loam, then grayish brown (2.5Y 5/2) silty sand with brown (7.5YR 4/4) redox features from 6 to 12 inches. During the field investigation, soil was moist with no saturated or standing water. A summary of Area G is provided in Table 3. 3.2.13 AREA H Area H was investigated as a potential wetland and located near the eastern edge of the proposed Howard Street alignment by a trailside ditch in a rectangular grassy meadow used agriculturally for grass and hay production (see Figure 3a). At the time of the investigation, the meadow had not been mowed or disturbed. Area H is described by Data Plot DP9. This area has been determined to be upland since it satisfies only one of the three mandatory wetland criteria. Area H had no primary hydrology indicators and only oxidized root channels in the upper 12 inches of soil as a secondary indicator. Alkai Consultants were unable to collect information from Area H, but reported seeing ponding on March 1, 2007 which was gone by May (Alkai 2007). The vegetation in Area H consists of grassland areas within a seasonally hayed field near a shrub boarder. Vegetation in Area H is dominated by: • Sweet vernal grass (Anthoxanthum odoratum, FACU) • Spotted cats-ear (Hypochaeris radicata, FACU). Additional nondominant species in adjacent areas includes nootka rose (Rosa nutkana, FAC), colonial bentgrass (Agrostis tenuis, FAC), tall fescue (Festuca arundinacea, FAC-), English plantain (Plantago lanceolata, FAC), and creeping buttercup (Ranunculus acris, FACW-). 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 3-20 The soils in Area H are hydric due to their low chroma colors. They are very dark brown (10YR 2/2) sandy loam with dark yellowish brown (10YR 4/4) oxidized rhizopheres from 0 to 6 inches and then from 6 to 12 inches are dark grayish brown (2.5Y 4/2) silty sand with strong brown (7.5YR 4/6) redox features. During the field investigation, soil was moist with no saturated or standing water. A summary of the Area H are provided in Table 3. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc LANDAU ASSOCIATES 4-1 4.0 CONCLUSIONS The Sims Way project has no impacts to any wetlands in the project area. The Howard Street project impacts Wetland A, where the construction of the intersection with 6th Street and Howard Street is planned. Impacts to Wetland A are estimated to be 12,697 square feet and buffer impacts to Wetland A are estimated to be 64,998 square feet. All impacts shall be mitigated based upon the requirement of the Port Townsend Code. In addition to the impacts to wetland A, impacts will occur to other wetlands along the Howard Street project (See Figure 4). The Howard Street realignment impacts approximately of 0.37 acres of wetlands, which is less than ½ acre of wetland impacts. If the USACE does have jurisdiction of the wetlands in the project area, the total wetland impacts are less than ½ an acre and would qualify under the Nationwide Permit Program, NWP – 14 for linear transportation crossings. Wetland and buffer impacts will be mitigated in compliance with the City of Port Townsend Municipal Code Section 19.05.110 – Critical area 5 – Wetlands. The City is considering two areas for mitigation one of the areas is under private ownership. Once the jurisdictional determination is made by the USACE, a separate mitigation plan and report will be completed for the Howard Street project, all wetland and buffer impacts will be mitigated through either replacement, buffer enhancement, preservation or a combination of those methods as allowed by the PTMC. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc 6-1 LANDAU ASSOCIATES 6.0 REFERENCES Alkai Consultants, LLC. 2007. Howard Street Wetland Delineation and Analysis Report. Prepared for City of Port Townsend, Department of Public Works. July 31. Brinson, M. M. 1993. A Hydrogemorphic Classification for Wetlands. Technical Report WRP-DE-4, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS. Cowardin, L.M., V. Carter, F.C. Golet, and E.T. LaRoe. 1979. Classification of Wetlands and Deepwater Habitats of the United States. U.S. Department of the Interior, Fish and Wildlife Service, Washington, D.C. Ecology. 1997. Washington State Wetlands Identification and Delineation Manual. Publication No. 96-94. Washington State Department of Ecology. Olympia, Washington. March. Greytag Macbeth. 1994. Munsell Soil Color Charts. New Windsor, New York. Hruby, T. 2004. Washington State Wetland Rating System for Western Washington–Revised. Publication No. 04-06-025. Washington State Department of Ecology. Olympia, Washington. August. Loggy Soil and Wetland Consulting. 2005. Environmental Sensitive Wetland Area Study, Wetland Delineation-Howard Street LID. Prepared for Port Townsend Public Works Department. May. NRCS website. 2008a. Web Soil Survey. http://websoilsurvey.nrcs.usda.gov/app/WebSoilSurvey.aspx. Natural Resource Conservation Services. U.S. Department of Agriculture. Accessed May 21, 2008. NRCS website. 2008b. Hydric Soils List. http://soils.usda.gov/use/hydric/. Natural Resources Conservation Services. U.S. Department of Agriculture. Accessed May 21, 2008. NRCS website. 2003. Field Indicators of Hydric Soils in the United States – Guide for Identifying and Delineating Hydric Soils, Version 5.01. ftp://ftp-fc.sc.egov.usda.gov/NSSC/Hydric_Soils/ FieldIndicators_v5_01.pdf. Natural Resources Conservation Service, U.S. Department of Agriculture. Accessed March 13, 2007. Port Townsend Zoning Map. http://www.cityofpt.us/Publicworks/PDFs/Zone.pdf accessed August 11, 2008. Reed, P.B., Jr. 1988, revised 1993. National List of Plant Species That Occur in Wetlands: Northwest (Region 9). U.S. Fish & Wildlife Service Biological Report 88 (26.9). Washington, D.C. USACE. 2008. Interim Regional Supplement to the Corps of Engineers Wetland Delineation Manual: Western Mountains, Valleys, and Coast Region. April. USACE. 1994. Washington Regional Guidance on the 1987 Wetland Delineation Manual. U.S. Army Corps of Engineers, Seattle District Regulatory Branch. May 23. USACE. 1987. Corps of Engineers Wetlands Delineation Manual. Technical Report Y-87-1. U.S. Army Corps of Engineers, Waterways Experiment Station. Vicksburg, Mississippi. March. 10/8/08 Y:\550\049.020\R\Port Townsend_rpt.doc 6-2 LANDAU ASSOCIATES USFWS. 1987. National Wetland Inventory. U.S. Fish and Wildlife Service. http://www.fws.gov/nwi/. Accessed May 21, 2008. WDNR website. 2008. Sections that Contain Natural Heritage Features Associated with Wetlands, Data Current as of October 31, 2007. http://www1.dnr.wa.gov/nhp/refdesk/datasearch/wnhpwetlands.pdf. Washington National Heritage Program. Washington State Department of Natural Resources. Accessed May 21, 2008. Page 1 of 1 TABLE 1 METHODS FOR WETLAND DETERMINATION 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb1.doc LANDAU ASSOCIATES Parameter Definition Field Indicators Field Assessment Wetland Vegetation (a) Wetland vegetation is adapted to saturated soil conditions. The U.S. Fish and Wildlife Service has assigned a wetland indicator to each plant species that denotes its frequency of occurrence within wetlands. These are: • Obligate (OBL) wetland plants occur almost always in wetlands under natural conditions (more than 99 percent of the time). • Facultative wetland (FACW) plants usually occur in wetlands (67 to 99 percent of the time) but are occasionally found in nonwetlands. • Facultative (FAC) plants are equally likely to occur in wetlands or nonwetlands (34 to 66 percent of the time). • Facultative upland (FACU) plants usually occur in nonwetlands, but are occasionally found in wetlands (1 to 33 percent of the time). • Obligate upland (UPL) plans almost always occur in uplands (more than 99 percent of the time). More than 50 percent of the dominant plants totaled from all vegetation strata are hyrdrophytic, i.e. those species with indicators of OBL, FACW, or FAC (excluding FAC–), or A plant community has a visually estimated cover percentage of OBL and FACW species that exceeds the coverage of FACU and UPL species. Modifiers: + Indicates a frequency toward the higher end of the category (more frequently found in wetlands). – Indicates a frequency toward the lower end of the category (less frequently found in wetlands). * A tentative assignment based on limited information from which to determine the indicator status. The dominant plants and their wetland indicator status are evaluated quantitatively within data plots and visually throughout the study area. Wetland Soils (b) Soils are classified as hydric, or they possess characteristics that are associated with reducing soil conditions. A hydric soil is formed under conditions of saturation, flooding, or ponding long enough during the growing season to develop anaerobic conditions in the upper part of the soil profile [within 10 inches below ground surface (BGS) or just below the A horizon, whichever is greater]. Hydric soils have an identifiable color pattern, which occurs if the soil is saturated, flooded, or ponded for a long period of time. Faint or washed-out colors typically form in the soil, and mottles of bright color, such as rust (known as redoxymorphic features), form. Accumulations of organic matter at the surface, a sulfur odor, and organic matter stains may also be present. A shovel is used to dig holes at least 16 inches BGS at multiple locations in the study area. Direct observation of the soil is made at multiple locations in both wetlands and uplands, as applicable. Soil organic content is determined visually and texturally, and soil color is determined using the Munsell soil color chart (Greytag Macbeth 1994). Depth to water saturation and/or inundation was also observed (see Wetland Hydrology). Wetland Hydrology (c) The area is inundated either permanently or periodically at mean water depths less than or equal to 6.6 ft, or The soil is inundated or saturated to the surface for at least 14 consecutive days during the growing season (d). Primary indicators of wetland hydrology include surface inundation (standing water), saturated soils, water marks, drift lines, sediment deposits, and drainage patterns. Secondary indicators of hydrology include water-stained leaves, oxidized root channels, or local soil survey data for identified soils. In the absence of any primary indicators, at least two secondary indicators are required to meet the wetland hydrology criterion. During investigation of soils, soil pits are allowed to stand up to 20 minutes in order to allow percolation of any groundwater into the pit to determine groundwater level in the soil profile. In addition, the extent of soil saturation and presence/absence of oxidized root channels are determined in the soils removed as part of the soils investigation (see Wetland Soils). The other indicators of wetland hydrology are observed at ground surface. Notes: (a) Categories were originally developed and defined by the USFWS National Wetlands Inventory and subsequently modified by the National Plant List Panel. (Reed 1988 revised 1993.) (b) USACE 1987; NRCS 2003. (c) USACE 1987. (d) The growing season in Western Washington is defined by the Seattle District of the USACE as occurring from March 1 to October 31. Page 1 of 1 TABLE 2 WETLAND DELINEATION SUMMARY 10/13/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb2.doc LANDAU ASSOCIATES Appendix F provides maps for each wetland showing Wetland Flags and Data Plots System Classification (Cowardin/HGM) Ecology Rating (Score 1-100) Ecology Category Buffer Width (in feet per PTMC – Use = High) Wetland Impacts Square Feet (SF) Buffer Impacts Square Feet (SF) Wetland A PFO/Depression 36 III 80 12,697 64,998 Wetland C PEM/Depression 28 IV 50 1,130 14,878 Wetland E PEM/Depression 29 IV Wetland is smaller than 1,000 SF, therefore not regulated by PTMC Not regulated by PTMC Not regulated by PTMC Wetland I PSS/Depression 27 IV 50 462 5,753 Wetland J PFO/PSS/Depression 30 III 80 222 3,795 Wetland N PFO/Depression 29 IV 50 740 19,366 Wetland O PEM/Depression 29 IV Wetland is smaller than 1,000 SF, therefore not regulated by PTMC Not regulated by PTMC Not regulated by PTMC Wetland T PEM/PFO/Depression 37 III 60 0 0 Key PFO = Palustrine Forested PEM = Palustrine Emergent PSS = Palustrine Scrub-Shrub Page 1 of 5 TABLE 3 SUMMARY OF CHARACTERISTICS OF WETLANDS AND UPLANDS 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb3.doc LANDAU ASSOCIATES SUMMARY OF WETLAND A Wetland Classification PFO (Cowardin) Depression (HGM) Approximate Size of Wetland 12,697 square feet (entire wetland) Hydrology Indicator(s) Water marks, sediment deposits, drainage patterns in wetlands Hydric Soils? Yes (see data plot DP2 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP2 in Appendix D) Rating and Buffer Width Score = 36 (Ecology Category III), requiring a 80-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality, moderately provides important habitat for many species, to a lesser extent reduces flooding and erosion (see wetland rating form Wetland A in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND A Hydrology Indicator No primary indicators, one secondary indicator of oxidized root channels in upper 12 inches (see data plot DP1, DP3 and DP5 in Appendix D) Hydric Soils? Yes (see data plot DP1, DP3 and DP5 in Appendix D) % Hydrophytic Vegetation 0 - 66% (see data plot DP1, DP3 and DP5 in Appendix D) SUMMARY OF WETLAND C Wetland Classification PEM (Cowardin) Depression (HGM) Approximate Size of Wetland 1,130 square feet (entire wetland) Hydrology Indicator(s) Oxidized root channels in upper 12 inches, FAC-Neutral test Hydric Soils? Yes (see data plot DP7 in Appendix D) % Hydrophytic Vegetation 50% (see data plot DP7 in Appendix D) Rating and Buffer Width Score = 28 (Ecology Category IV), requiring a 50-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality and to a much lesser extent reduces flooding and erosion and provides habitat for many species (see wetland rating form Wetland C in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND C Hydrology Indicator No primary indicators, one secondary indicator of oxidized root channels in upper 12 inches (see data plot DP8 in Appendix D) Hydric Soils? Yes (see data plot DP8 in Appendix D) % Hydrophytic Vegetation 50% (see data plot DP8 in Appendix D) Page 2 of 5 TABLE 3 SUMMARY OF CHARACTERISTICS OF WETLANDS AND UPLANDS 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb3.doc LANDAU ASSOCIATES SUMMARY OF WETLAND E Wetland Classification PEM (Cowardin) Depression (HGM) Approximate Size of Wetland 237 square feet (entire wetland) Hydrology Indicator(s) Oxidized root channels in upper 12 inches, FAC-Neutral test Hydric Soils? Yes (see data plot DP17 in Appendix D) % Hydrophytic Vegetation 75% (see data plot DP17 in Appendix D) Rating and Buffer Width Score = 29 (Ecology Category IV), requiring a 50-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality and to a much lesser extent reduces flooding and erosion and provides habitat for many species (see wetland rating form Wetland E in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND E Hydrology Indicator No primary indicators, one secondary indicator of oxidized root channels in upper 12 inches (see data plot DP8 in Appendix D) Hydric Soils? Yes (see data plot DP8) % Hydrophytic Vegetation 50% (see data plot DP8) SUMMARY OF WETLAND I Wetland Classification PSS (Cowardin) Depression (HGM) Approximate Size of Wetland 11,159 square feet (entire wetland) Hydrology Indicator(s) Water marks Hydric Soils? Yes (see data plot DP11 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP11 in Appendix D) Rating and Buffer Width Score = 27 (Ecology Category IV), requiring a 50-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality and to a much lesser extent reduces flooding and erosion and provides habitat for many species (see wetland rating form Wetland I in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND I Hydrology Indicator No indicators (see data plot DP10 in Appendix D) Hydric Soils? Yes (see data plot DP10 in Appendix D) % Hydrophytic Vegetation 75% (see data plot DP10 in Appendix D) Page 3 of 5 TABLE 3 SUMMARY OF CHARACTERISTICS OF WETLANDS AND UPLANDS 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb3.doc LANDAU ASSOCIATES SUMMARY OF WETLAND J Wetland Classification PFO/PSS (Cowardin) Depression (HGM) Approximate Size of Wetland 3,846 square feet (entire wetland) Hydrology Indicator(s) Water marks, drainage patterns in wetlands Hydric Soils? Yes (see data plot DP12 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP12 in Appendix D) Rating and Buffer Width Score = 30 (Ecology Category III), requiring a 80-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality, moderately provides important habitat for many species, to a lesser extent reduces flooding and erosion (see wetland rating form Wetland J in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND J Hydrology Indicator No indicators (see data plot DP13 in Appendix D) Hydric Soils? None (see data plot DP13 in Appendix D) % Hydrophytic Vegetation 33% (see data plot DP13 in Appendix D) SUMMARY OF WETLAND N Wetland Classification PFO (Cowardin) Depression (HGM) Approximate Size of Wetland 1,736 square feet (entire wetland) Hydrology Indicator(s) Water marks, drainage patterns in wetlands Hydric Soils? Yes (see data plot DP15 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP15 in Appendix D) Rating and Buffer Width Score = 29 (Ecology Category IV), requiring a 50-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality, moderately provides important habitat for many species, to a lesser extent reduces flooding and erosion (see wetland rating form Wetland N in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND N Hydrology Indicator No indicators (see data plot DP16 in Appendix D) Hydric Soils? Yes (see data plot DP16 in Appendix D) % Hydrophytic Vegetation 50% (see data plot DP16 in Appendix D) Page 4 of 5 TABLE 3 SUMMARY OF CHARACTERISTICS OF WETLANDS AND UPLANDS 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb3.doc LANDAU ASSOCIATES SUMMARY OF WETLAND O Wetland Classification PEM (Cowardin) Depression (HGM) Approximate Size of Wetland 755 square feet (entire wetland) Hydrology Indicator(s) Water marks, sediment deposits, drainage patterns in wetlands Hydric Soils? Yes (see data plot DP14 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP14 in Appendix D) Rating and Buffer Width Score = 29 (Ecology Category IV), requiring a 50-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality and reduces flooding and erosion, to a lesser extent provides important habitat for many species (see wetland rating form Wetland O in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND O Hydrology Indicator No indicators (see data plot DP16 in Appendix D) Hydric Soils? Yes (see data plot DP16 in Appendix D) % Hydrophytic Vegetation 50% (see data plot DP16 in Appendix D) SUMMARY OF WETLAND T Wetland Classification PEM/PFO (Cowardin) Depression (HGM) Approximate Size of Wetland 12,936 square feet (within project area) Hydrology Indicator(s) Saturation in upper 12 inches Hydric Soils? Yes (see data plot DP20 in Appendix D) % Hydrophytic Vegetation 80% (see data plot DP20 in Appendix D) Rating and Buffer Width Score = 37 (Ecology Category III), requiring a 80-foot buffer in accordance with Port Townsend Municipal Code. Principal Functions Primary function is improving water quality, moderately provides important habitat for many species, to a lesser extent reduces flooding and erosion (see wetland rating form Wetland T in Appendix E). SUMMARY OF UPLAND ADJACENT TO WETLAND T Hydrology Indicator No indicators (see data plot DP21 in Appendix D) Hydric Soils? Yes (see data plot DP21 in Appendix D) % Hydrophytic Vegetation 0% (see data plot DP21 in Appendix D) Page 5 of 5 TABLE 3 SUMMARY OF CHARACTERISTICS OF WETLANDS AND UPLANDS 10/8/08 Y:\550\049.020\R\Tables\Wetland Delineation_tb3.doc LANDAU ASSOCIATES SUMMARY OF UPLAND AREA B Hydrology Indicator Oxidized root channels in upper 12 inches (see data plot DP6 in Appendix D) Hydric Soils? Yes (see data plot DP6 in Appendix D) % Hydrophytic Vegetation 33% (see data plot DP6 in Appendix D) SUMMARY OF UPLAND AREA D Hydrology Indicator Oxidized root channels in upper 12 inches (see data plot DP8 in Appendix D) Hydric Soils? Yes (see data plot DP8 in Appendix D) % Hydrophytic Vegetation 50% (see data plot DP8 in Appendix D) SUMMARY OF UPLAND AREA F Hydrology Indicator None (see data plot DP18 in Appendix D) Hydric Soils? Yes (see data plot DP18 in Appendix D) % Hydrophytic Vegetation 0% (see data plot DP18 in Appendix D) SUMMARY OF UPLAND AREA G Hydrology Indicator None (see data plot DP19 in Appendix D) Hydric Soils? Yes (see data plot DP19 in Appendix D) % Hydrophytic Vegetation 100% (see data plot DP19 in Appendix D) SUMMARY OF UPLAND AREA H Hydrology Indicator Oxidized root channels in upper 12 inches (see data plot DP9 in Appendix D) Hydric Soils? Yes (see data plot DP9 in Appendix D) % Hydrophytic Vegetation 0% (see data plot DP9 in Appendix D) APPENDIX A Background Information Review Figures TAX 3510TH STREET 12TH SPRINGSTREETHOOD12TH BAKERRAINIERSHASTASTREET HOWARDSTREET CLIFFMc PHERSONSTREETSTREET GLEN COVE RD .IVYSTREETDISCOVERYROADSR 20SPRING ST.5TH STREET IVYSTREETSTREET STREET SPRINGSTREET7 TH 6 THSPRINGSTREETHOODDISCOVERYBAKERST.ROADVAC8-7-799 THSTREET 3RD STREET HOWARDSTREET1ST STREET 2ND STREET CLIFFSR 20 (SIMS WAY ) VAC. 5-16-89VAC. 1-19-88 STREETST.CLIFF(PVTRD)Mc PHERSON1ST ST. 2ND ST. 4TH(PVTRD)ST. VAC STREET HOWARDSTREETVAC 8-6-74STREETSHASTA ST.STREETSTREET6TH ST. 7TH VAC. 9TH ST. 10TH VAC. 9/18/95 VAC. 6/17/97 VAC 2-8312/80 VAC 9-82VAC 8-6-74THOMASSTREETLOGANSTREETROSECRANS12 TH SUNRISE PL.THOMASSTREETLOGANSTREET1 ST 2 ND 4 TH STREET 3 RD ROSECRANSSTREET STREET8 TH 7 TH 6 TH 9 15 109 15 10 15 1099 15 .15 a.660.70'412.50179.97 7 1 . 4 2182.81810.14 807.59 412.50192.18 245.95 528.00 135.00 135.00330.00330.00135.00 330.00135.00 CITYCOMMONAREA600.00(TAX 57) 168.82 149.47223.42147.00204.00129.16130.61 270.66 238.94 91.901-19-71 VACATED VACATED 1-19-71 THEWILL IAM F.BISHOPPARKVAC. 2-83 VACATED 1-19-71 VAC. 9-7-82 VACATED 6-5-62 VACATED 6-1-82 VACATED 2-7-78 VACATED11-18-6995+57.50 96+00 97+00 98+00 99+00 100+00 101+00 102+00 103+00 104+00 105+00 106+00 107+00 108+00 109+00 110+00 111+00 112+00 113+00 114+00 115+00 116+00 117+00 118+00 118+51.46 0+001+002+003+004+00198+00.22199+00200+00201+00202+00203+00204+00205+00206+00207+00208+00209+00210+00211+00212+00213+00214+00215+00216+00217+00218+00219+00220+00221+00222+001 P P P P P P P2 ( FEET ) SCALE 0100 50 200100 Sims Way / Howard Street Improvements City of Port Townsend April 6, 2008 PROJECT KEY MAP Legend Identified Wetlands Project Area Stormwater Features 1 INCH =FT100 20 7TH ST 9TH ST HOWARD STW S IM S W AYDISCOVERY BAY RDHOOD STS PARK AVECmC 514200 514200 514260 514260 514320 514320 514380 514380 514440 514440 514500 5145005327700 5327700532776053277605327820532782053278805327880532794053279405328000532800053280605328060532812053281200 300 600 900150Feet07014021035Meters Soil Map–Jefferson County Area, Washington Natural ResourcesNatural ResourcesNatural ResourcesNatural ResourcesConservation ServiceConservation ServiceConservation ServiceConservation Service Web Soil Survey 2.0National Cooperative Soil Survey 6/27/2008Page 1 of 3 MAP LEGEND MAP INFORMATION Area of Interest (AOI) Area of Interest (AOI) Soils Soil Map Units Special Point Features Blowout Borrow Pit Clay Spot Closed Depression Gravel Pit Gravelly Spot Landfill Lava Flow Marsh Mine or Quarry Miscellaneous Water Perennial Water Rock Outcrop Saline Spot Sandy Spot Severely Eroded Spot Sinkhole Slide or Slip Sodic Spot Spoil Area Stony Spot Very Stony Spot Wet Spot Other Special Line Features Gully Short Steep Slope Other Political Features Municipalities Cities Urban Areas Water Features Oceans Streams and Canals Transportation Rails Roads Interstate Highways US Routes State Highways Local Roads Other Roads Original soil survey map sheets were prepared at publication scale. Viewing scale and printing scale, however, may vary from the original. Please rely on the bar scale on each map sheet for proper map measurements. Source of Map: Natural Resources Conservation Service Web Soil Survey URL: http://websoilsurvey.nrcs.usda.gov Coordinate System: UTM Zone 10N This product is generated from the USDA-NRCS certified data as of the version date(s) listed below. Soil Survey Area: Jefferson County Area, Washington Survey Area Data: Version 5, Sep 5, 2007 Date(s) aerial images were photographed: 6/21/1990 The orthophoto or other base map on which the soil lines were compiled and digitized probably differs from the background imagery displayed on these maps. As a result, some minor shifting of map unit boundaries may be evident. Soil Map–Jefferson County Area, Washington Natural Resources Conservation Service Web Soil Survey 2.0 National Cooperative Soil Survey 6/27/2008 Page 2 of 3 Map Unit Legend Jefferson County Area, Washington (WA631) Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI CmC Clallam gravelly sandy loam, 0 to 15 percent slopes 22.0 100.0% Totals for Area of Interest (AOI)22.0 100.0% Soil Map–Jefferson County Area, Washington Natural Resources Conservation Service Web Soil Survey 2.0 National Cooperative Soil Survey 6/27/2008 Page 3 of 3 Howard Street Project Area Port Townsend Environmentally Sensitive Areas Map City of Port Townsend Drainage Basin Map APPENDIX B Soil Profile Reports LOCATION CLALLAM WA Established Series Rev. LJH/RJE/MPR/SBC 02/2004 CLALLAM SERIES The Clallam series consists of moderately deep to densic materials, moderately well drained soils formed in glacial till over very compact glacial till. These soils are on glaciated hills and have slopes of 0 to 30 percent. The average annual precipitation is about 23 inches and the mean annual temperature is about 48 degrees F. TAXONOMIC CLASS: Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts TYPICAL PEDON: Clallam gravelly ashy sandy loam - forested. (Colors are for moist soil unless otherwise noted. All textures are apparent field textures.) Oi--0 to 1 inch; slightly decomposed needles, leaves, and twigs. Oe--1 to 2 inches; moderately decomposed needles, leaves, and twigs. A--2 to 3 inches; brown (10YR 4/3) gravelly ashy sandy loam, light brownish gray (10YR 6/2) dry; weak fine and very fine granular structure parting to weak very fine subangular blocky; slightly hard, friable, slightly sticky and nonplastic; many fine and very fine roots; many fine and very fine irregular and tubular pores; 15 percent gravel; strongly acid (pH 5.2); abrupt smooth boundary. (1 to 4 inches thick) Bw1--3 to 12 inches; brown (10YR 5/3) gravelly ashy sandy loam, light gray (2.5Y 7/2) dry; common medium distinct dark yellowish brown (10YR 4/4) redox concentrations, very pale brown (10YR 7/4) dry; weak fine and very fine subangular blocky structure; hard, friable, nonsticky and nonplastic; many fine and very fine and common medium roots; many fine and very fine irregular and tubular pores; 20 percent gravel and 5 percent cobbles; strongly acid (pH 5.4); clear smooth boundary. (3 to 14 inches thick) Bw2--12 to 30 inches; brown (10YR 5/3) very gravelly ashy sandy loam, light gray (2.5Y 7/2); common medium distinct dark yellowish brown (10YR 4/4) redox concentrations, very pale brown (10YR 7/4) dry; weak fine and very fine subangular blocky structure; hard, firm, nonsticky and nonplastic; common fine and very fine, and few medium roots; many very fine irregular and common very fine tubular pores; 35 percent gravel and 10 percent cobbles; strongly acid (pH 5.4); clear wavy boundary. (7 to 18 inches thick) Cd1--30 to 39 inches; light brownish gray (2.5Y 6/2) dense glacial till that crushed to very gravelly sandy loam, light gray (2.5Y 7/2) dry; common medium distinct strong brown (7.5YR 5/6) redox concentrations, reddish yellow (7.5YR 6/6) dry; massive; very hard, very firm, slightly sticky and nonplastic; few very fine irregular and common very fine tubular pores; 30 percent gravel and 5 percent cobbles; strongly acid (pH 5.4); clear wavy boundary. (7 to 19 inches thick) Cd2--39 to 62 inches; grayish brown (2.5Y 5/2) dense glacial till that crushes to very gravelly loam, light gray (2.5Y 7/2) dry; massive; very hard, very firm, slightly sticky and slightly plastic; few very fine irregular pores; 30 percent gravel and 10 percent cobbles; moderately acid (pH 6.0). TYPE LOCATION: Clallam County, Washington; 4,000 feet south and 600 feet east of the northwest corner of sec. 24, T. 30 N., R. 5 W. Willamette Meridian. RANGE IN CHARACTERISTICS: Depth to densic contact - 20 to 40 inches Moisture control section - dry 60 to 90 days following the summer solstice Average annual soil temperature - 49 to 51 degrees F. Reaction - strongly acid to slightly acid A horizon - Value - 3 or 4 moist, 4 to 6 dry Chroma - 2 to 3 moist and dry Texture - ashy-SL, ashy-L Clay content - 3 to 18 percent Rock fragments - 15 to 35 percent gravel, 0 to 20 percent cobbles, 15 to 35 percent total Some pedons have an E horizon Bw horizons - Hue - 7.5YR to 2.5 Y Value - 3 to 5 moist, 4 to 7 dry Chroma - 3 or 4 moist, 2 to 4 dry Texture - ashy-SL, ashy-L Clay content - 3 to 18 percent Rock fragments - 15 to 50 percent gravel, 5 to 20 percent cobbles, 35 to 60 percent total Some pedons have a C horizon Cd horizons - Hue - 7.5YR to 2.5Y Value - 5 or 6 moist, 4 to 7 dry Chroma - 2 or 3 moist and dry Texture - SL, L, FSL Clay content - 5 to 25 percent Rock fragments - 15 to 50 percent gravel, 0 to 10 percent cobbles, 15 to 60 percent total COMPETING SERIES: These are the Dehart, Macreeing, Mcguire, Olete, Stutler, and Tukey series. Dehart, Mcguire, and Stutler soils are more than 40 inches deep. Macreeing and Olete soils have a lithic contact at 20 to 60 inches. Tukey soils average 20 to 30 percent clay in the particle size control section. GEOGRAPHIC SETTING: Clallam soils are on glaciated hills at elevations of 25 to 1,800 feet. Slopes are 0 to 30 percent. Clallam soils formed in glacial till over very compact dense glacial till. The soils are in a mild marine climate and have cool, dry summers and cool, moist winters. Average annual precipitation is 16 to 30 inches. Average January temperature is about 37 degrees F, average July temperature is about 59 degrees F, and the mean annual temperature is about 48 degrees F. Frost-free season is 160 to 220 days. GEOGRAPHICALLY ASSOCIATED SOILS: These are the Agnew, Bellingham, Catla, Elwha, Hoypus, McKenna, Yeary, and Louella soils. Agnew soils have an argillic horizon and are somewhat poorly drained. Bellingham soils have an aquic moisture regime and a fine particle-size class. Catla soils are loamy and have a densic contact at 10 to 20 inches. Elwha soils are coarse-loamy. Hoypus soils are sandy-skeletal. Louella soils are coarse-loamy and have a mollic epipedon. McKenna soils have an aquic moisture regime. Yeary soils are fine-loamy. DRAINAGE AND PERMEABILITY: Moderately well drained; moderately rapid permeability above the very compact glacial till (A and Bw horizons) and very slow permeability in the very compact glacial till (Cd horizons). USE AND VEGETATION: Timber production and wildlife are the principal uses. Some areas are used for cropland and pasture. Native vegetation is predominantly Douglas-fir with some western hemlock, grand fir, western redcedar, red alder, and Pacific madrone. Understory species include salal, evergreen huckleberry, red huckleberry, Oregongrape, creambush oceanspray, longtube twinflower, rose, blackberry, western swordfern, and western brackenfern. Principal crops are alfalfa and grass hay, barley, oats, strawberries, raspberries, and pasture. DISTRIBUTION AND EXTENT: Northeastern Olympic Peninsula and Puget Sound Valleys, Washington; MLRA 2. This series is moderately extensive. MLRA OFFICE RESPONSIBLE: Portland, Oregon SERIES ESTABLISHED: Western part of Puget Sound Basin, Washington, Reconnaissance Soil Survey, 1910 REMARKS: Diagnostic horizons and other features Ochric epipedon - from 2 to 3 inches Cambic horizon - from 3 to 30 inches Densic material - from 30 to 62 inches Particle size control section - 10 to 30 inches (Bw horizons) Additional data needed for base saturation and volcanic ash influence to distinguish Clallam series and Whidbey series. ADDITIONAL DATA: National Soil Survey Laboratory, Sample numbers--S77WA 9- 2-2, S77WA 9-2-3, S77WA 9-2-4, S77WA 9-2-5. National Cooperative Soil Survey U.S.A. Jefferson County Area, Washington Version date: 9/5/2007 9:02:29 AM CmC—Clallam gravelly sandy loam, 0 to 15 percent slopes Map Unit Setting • Mean annual precipitation: 23 inches • Mean annual air temperature: 48 degrees F • Frost-free period: 160 to 200 days Map Unit Composition • Clallam and similar soils: 100 percent Description of Clallam Setting • Parent material: Basal till Properties and qualities • Slope: 0 to 15 percent • Depth to restrictive feature: 20 to 40 inches to dense material • Drainage class: Well drained • Capacity of the most limiting layer to transmit water (Ksat): Very low to moderately low (0.00 to 0.06 in/hr) • Depth to water table: About 18 to 36 inches • Frequency of flooding: None • Frequency of ponding: None • Available water capacity: Very low (about 1.9 inches) Interpretive groups • Land capability classification (irrigated): 6s • Land capability (nonirrigated): 4s Typical profile • 0 to 3 inches: Gravelly sandy loam • 3 to 23 inches: Very gravelly sandy loam • 23 to 60 inches: Gravelly sandy loam APPENDIX C Wetland Data Sheets DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 1 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Potential seasonal wetland VEGETATION Indica tor Statum %Cover Dominant? 1 FACU Tree 20 Yes 2 FAC Shrub 50 Yes 3 FAC Shrub 20 Yes 4 Symphoricarpus albus FACU Shrub 10 No 5 FACU Herb 15 No 6 Festuca arundinacea FAC- Herb 10 No 7 Trifolium repens FAC Herb T No 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 66 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup):Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A fine sand with silt, mod.dense, granular A few fine faint fine sand with silt, mod.dense, granular B few fine distinct fine sand with silt, mod.dense, granular B sandy loam, blocky B sandy loam, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? No Hydric Soils Present? Yes Is this Sampling Point Within a Wetland? No Remarks: 2.5 YR 4/4 none none 10 YR 3/3 10 YR 3/3 Near edge of Wetland A, alongside Howard Street 5/21/2008 none 7.5 YR 4/4; 10 YR 5/1 Wetland vegetation very marginal due to non-dominant vegetation classified as non-wet. Data plot satisfies hydrophytic vegetation criterion. Notes Pseudotsuga menziesii Scientific Name 10 YR 2/2 10 YR 2/2 0-3 3-6 6-7 7-13 Matrix Color (Moist) Rosa nutkana Dactylis glomerata RMF ColorDepth (inches) Soil moist but not saturated in upper 16+ inches. Data plot does not satisfy hydrology criterion. percent Data satisfies hydric soils criteria. Data plot satisfies two of the three mandatory wetland criterion. The data plot is classified as upland. Salix scouleriana 10 YR 3/313-16+ DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland A, PFO Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 2 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Seasonal wetland VEGETATION Indicator Statum %Cover Dominant? 1 Rosa nutkana FAC Shrub 30 Yes 2 Salix scouleriana FAC Shrub 15 No 3 Symphoricarpos albus FACU Shrub 10 No 4 Spiraea douglasii FACW Shrub T No 5 Carex deweyana FACU Herb 5 No 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Other Alkai report, July 2007 X Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test X Sediment Deposits Other (explain in remarks) Field Observations: X Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A sandy loam, granular A few fine Prominentsandy loam, dense, granular B few fine Prominentsandy loam, dense, granular Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is this Sampling Point Within a Wetland? Yes Remarks: Data plot satisifies hydric soil criterion. Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category III depressional wetland. 13+ 2.5 Y 6/2 7.5 YR 4/4 0-5.5 10 YR 2/1 none 5.5-13 2.5 Y 6/2 7.5 YR 4/4 , 10 YR 2/1 percent Depth (inches)Matrix Color (Moist)RMF Color Moist in upper 24+ inches. Previous report by Alkai indicate area inundated on 2/28/2007. Data plot satisfies hydrology criterion. saplings 5/21/2008 Near edge of Wetland A, alongside Howard Street Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 3 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Potential seasonal wetland VEGETATION Indicato r Statum %Cover Dominant? 1 FAC Tree 25 Yes 2 FACU Shrub 25 Yes 3 NI Shrub 15 No 4 FACU Shrub 10 No 5 Gaultheria shallon FACU Shrub 10 No 6 Rosa nutkana FAC Shrub 10 No 7 Rubus parviflorus FAC- Shrub 5 No 8 FACU herb 5 No 9 Carex deweyana FACU herb 5 No 10 % Dominant Species that are OBL, FACW or FAC (excluding FAC-): 50 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is this Sampling Point Within a Wetland? No Remarks: similar to DP 2 - not characterized in detail. Soil description similar to Data Plot 2. Data plot satisfies hydric soils criterion. Data plot satisfies one of the three mandatory wetland criteria. The data plot is classified as upland. percent Depth (inches)Matrix Color (Moist)RMF Color Due to the lack of hydorlogy and number of non-dominant plant species classified as non-wet, the data plot does not satisfy hydrophytic vegetation criterion. Soil is moist, not saturated, in the upper 12 inches. Data plot does not satisfy hydrology criterion. Pteridium aquilinum Salix Scouleriana Rubus discolor Symphoricarpos albus Holodiscus discolor 5/21/2008 Near western edge of Wetland A Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 4 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 Vicia sativa UPL Herb 50 Yes 2 Anthoxanthum odoratum FACU Herb 40 Yes 3 Festuca arundinacea FAC- Herb 15 No 4 Myosotis arvensis FAC Herb T No 5 FAC Herb T No 6 NI Herb T No 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 0 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A common very fin Distinct sandy loam, granular B few fine to mDistinct silty sand, blocky, dense, concretions Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks: Depression in field Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. 0-20 10 YR 3/2 to 3/1 Ox.Rhizos 10YR 4/4 20+ 2.5 Y 6/1 to 6/2 7.5YR 4/4 to 10YR 4/3 Soil moist but not saturated. Data plot does not satisfy hydrology criterion. Depth (inches)Matrix Color (Moist)RMF Color percent Scientific Name Notes Data plot satisfies hydric soils criterion. 5/21/2008 Holcus lanatus Vicia hirsuta DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 5 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 Anthoxanthum odoratum FACU Herb 60 Yes 2 Holcus lanatus FAC Herb 15 No 3 FACW- Herb 15 No 4 UPL Herb 15 No 5 Festuca arundinacea FAC- Herb 10 No 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 0 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A few very fineDistinct sandy loam, granular B 7.5YR 4/4 to 10 YR 4/3 few fine-medDistinct silty sand, blocky, dense, concretions Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks: Adjancent to Wetland A, in low, sloping area Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. Ranunculus acris 0-9 10 YR 3/2 to 3/1 Ox.Rhizos 10YR 4/4 9-12+ 2.5 Y 6/1 to 6/2 percent Soil moist but not saturated. Data plot does not satisfy hydrology criterion. Depth (inches)Matrix Color (Moist)RMF Color Scientific Name Notes Data plot satisfies hydric soils criterion. 5/21/2008 Vicia sativa DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 6 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 FACU Herb 25 Yes 2 Festuca arundinacea FAC- Herb 20 Yes 3 FACW- Herb 20 Yes 4 FAC Herb 10 No 5 NI Herb 10 No 6 FACU+ Herb 3 No 7 NI Herb T No 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 33 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves x Other Alkai report, July 2007 Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A common very fin Distinct sandy loam, granular B 7.5YR 4/4 to 10 YR 4/3 few fine Distinct silty sand, blocky, dense Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks: Middle of depression in field in Area B with "wettest" vegetation community Anthoxanthum odoratum Ranunculus acris Cirsium arvense Holcus lanatus Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. 0-8.5 10 YR 3/2 to 3/1 Ox.Rhizos 10YR 4/4 8.5-12+ 2.5 Y 6/1 to 6/2 Data plot satisfies hydric soils criterion. Soil moist but not saturated. Previous report by Alkai indicate area saturation at 2 inches on 2/28/2007 Depth (inches)Matrix Color (Moist)RMF Color percent Vicia hirsuta 5/21/2008 Agrostis gigantea Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland C, PEM Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 7 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 Crataegus douglasii FAC Shrub T No small 2 Phalaris arundinacea FACW Herb 40 Yes 3 Festuca arundinacea FAC- Herb 30 Yes 4 Myosotis arvensis FAC Herb 15 No 5 Carex pachystachya FAC Herb 10 No 6 Vicia hirsuta NI Herb 10 No 7 Plantago lanceolata FAC Herb T No 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 50 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines X FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A few very fin distinct fine sandy loam, granular B 40% mediumprominent silty sand, blocky, dense Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks:Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category IV depressional wetland. Data plot satisfies hydric soils criterion. 0-7 10 YR 2/2 Ox.Rhizos 10YR 4/4 7-12+ 2.5 Y 4/2 7.5YR 4/6 (mid range) percent Soils moist but not saturated. Data plot satisfies hydrology criterion. Depth (inches)Matrix Color (Moist)RMF Color Change in vegetation from upland apparent. Due to hydrology and number of non-dominant wetland plant species the data plot satisfies hydrophytic vegetation criterion. 5/21/2008 Scientific Name Notes Middle of depression in field in Wetland C with "wettest" vegetation community DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 8 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 FAC Shrub T No 2 FAC Herb 40 Yes 3 FACU Herb 20 Yes 4 FAC- Herb 10 No 5 FACW- Herb 5 No 6 Vicia sativa UPL Herb 5 No 7 NI Herb T No 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 50 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: Hor.Abundance Size Contrast Soil Description, Texture, Structure A few very fin distinct fine sandy loam, granular B 40% mediumprominent silty sand, blocky, dense Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks:Data plot satisfies two of the three mandatory wetland criterion. The data plot is classified as upland. Data plot satisfies hydric soils criterion. 0-8 10 YR 2/2 Ox.Rhizos 10YR 4/4 8-12+ 2.5 Y 4/2 7.5YR 4/6 (mid range) percent Data plot does not satisfy hydrology criterion. Depth (inches)Matrix Color (Moist)RMF Color Wetland vegetation is marginal. Data plot satisfies hydrophytic vegetation criterion. Anthoxanthum odoratum Vicia hirsuta Ranunculus acris Festuca arundinacea Agrostis gigantea Rosa nutkana 5/21/2008 Scientific Name Notes Middle of depression in field in Area D with "wettest" vegetation community DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 9 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Seasonally hayed, vegetation currently undisturbed. Is Site a Potential Problem Area? No VEGETATION Indicato r Statum %Cover Dominant? 1 Rosa nutkana FAC Shrub 15 No 2 Anthoxanthum odoratum FACU Herb 60 Yes 3 Hypochaeris radicata FACU Herb 20 Yes 4 Agrostis tenuis FAC Herb 10 No 5 Festuca arundinacea FAC- Herb 10 No 6 Plantago lanceolata FAC Herb 10 No 7 Ranunculus acris FACW- Herb 1 No 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 0 Remarks:Rosa nutkana colonizing from edge. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Other Alkai report, July 2007 Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A few very fin distinct sandy loam, granular B 40% mediumprominent Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks:Area was considered a wetland in Alkai report due to ponding viewed from distance but no data plots were conducted. Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. silty sand, blocky, very dense, few rounded gravels 0-6 10 YR 2/2 Ox.Rhizos 10YR 4/4 6-12+ Data plot satisfies hydric soils criterion. 2.5 Y 4/2 7.5YR 4/6 (mid range) percent Data plot does not satisfy hydrophytic vegetation criterion. Depth (inches)Matrix Color (Moist)RMF Color Remarks: Soil moist but not saturated. Alkia report had no recorded data, but stated ponding on 7/28/07 from distance, gone by 5/16/07. Data plot does not satisfy hydrology criterion. 5/21/2008 Scientific Name Notes Middle of depression in field in Area H with "wettest" vegetation community DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 10 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Potential seasonal wetland area VEGETATION Indicat or Statum %Cover Dominant? 1 FAC Shrub 100 Yes 2 FACU Shrub 20 Yes 3 Carex pachystachya FAC Herb 50 Yes 4 Agrostis spp (?)FAC Herb 25 Yes 5 Pteridium aquilinum FACU Herb 5 No 6 Taraxacum officinale FACU Herb T No 7 Ranunculus repens FACW Herb T No 8 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 75 HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam, granular, wood, worms B common med. prominent sity sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks:Data plot satisfies two of the three mandatory wetland criterion. The data plot is classified as upland. Data plot satisfies hydric soils criterion. 1-6 10 YR 2/2 none 6-12+ 2.5 YR 5/2 7.5 YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Remarks: Symphoricarpos albus outside of plot. Agrostis sp. Was not identifiable to species due to lack of inflorescence or other indistinguishable features. Genus of this species are generally FAC or wetter. Data plot satisfies hydrophytic vegetation criterion. Other: Loggy Soil and Wetland Consulting 5/05 Remarks: Loggy Soil report indicates hydrology in parcel, identified outside this plot in Data Plot 11. Data plot does not satisfy hydrology criterion. Gaulthiera shallon Rosa nutkana growing under and around Rosa nutkana 5/22/2008 Middle of depression area near Wetland I Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland I, PSS Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 11 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Seasonal wetland area VEGETATION Indicat or Statum %Cover Dominant? 1 Spiraea douglassii FACW Shrub 80 Yes 2 Rosa nutkana FAC Shrub 20 Yes 3 Rubus parviflorus FAC- Shrub 5 No 4 5 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam, granular B common med. prominent sity sand, blocky, few gravels Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks: Remarks: Loggy Soils Report indicates watermarks, free water and saturation in this parcel on 3/21/05. Data plot satisfies hydrology criterion. Other: Loggy Soil and Wetland Consulting 5/05 X Data plot satisfies hydric soils criterion. Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category IV depressional wetland. 6-12+ 2.5 YR 5/2 7.5 YR 4/4 Depth (inches)Matrix Color (Moist)RMF Color 1-6 10 YR 2/2 none percent Symphoricarpos albus outside of plot. Data plot satisfies hydrophytic vegetation criterion. 5/22/2008 Edge of Weland I, alongside Discovery Rd. Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland J, PFO/PSS Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 12 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Seasonal Wetland VEGETATION Indicat or Statum %Cover Dominant? 1 Populus tremuloides FAC+ Tree 50 Yes 2 FACW Tree 35 Yes 3 Rosa nutkana FAC Shrub 40 Yes 4 Spiraea douglassii FACW Shrub 40 Yes 5 Carex obnupta OBL Herb 70 Yes 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: X Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure O root mat and leaf litter A sandy loam, granular B 40% fine prominent silty sand with gravel Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks:Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category III depressional wetland. Other: Loggy Soil and Wetland Consulting 5/05 X Remarks: Loggy Soils Report indicates watermarks, free water and saturation in this parcel on 3/21/05. Data plot satisfies hydrology criterion. 5/22/2008 Near edge of Wetland J alonside Discovery Rd Scientific Name Notes Salix sitchensis percent Depth (inches)Matrix Color (Moist)RMF Color 0-2 2-8 10 YR 3/1 none 8-16+ 2.5 YR 5/2 7.5 YR 4/4 Data plot satisfies hydric soils criterion. DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 13 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Potential seasonal wetland area VEGETATION Indicat or Statum %Cover Dominant? 1 Salix scouleriana FAC Forest 80 Yes 2 Gaulthiera shallon FACU Shrub 80 Yes 3 Holodiscus discolor NI Shrub 20 Yes 4 FAC Shrub 10 No 5 Rubus parviflorus FAC- Shrub 5 No 6 Pteridium aquilinum FACU Herb 5 No 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 33 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure O duff, leaf litter and twigs A sandy loam, granular, ashy Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? No Is Sampling Point Within a Wetland? No Remarks: Data plot does not satisfy hydric soils criterion. Data plot satisfies none of the three mandatory wetland criterion. The data plot is classified as upland. 0-1 1-12+ 10 YR 2/2 none percent Depth (inches)Matrix Color (Moist)RMF Color Other: Remarks: Data plot does not satisfies hydrology criterion. Rosa nutkana 5/22/2008 Near edge of Wetland J alongside Discovery Rd Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland O, PEM Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 14 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 FAC Shrub 5 No 2 FACW Herb 20 Yes 3 Agrostis stolonifera FACW Herb 20 Yes 4 Holcus lanatus FAC Herb 10 No 5 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other X Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test X Sediment Deposits Other (explain in remarks) Field Observations: X Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerept Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A/B few very fin faint dense silty sand with gravel B 50% mediumdistinct dense silty sand with gravel Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks: Area disturbed, A horizon may have been removed. Data plot satisfies hydric soils criterion. Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category IV wetland. 0-8 10 YR 4/2 2.5 YR 5/2 8-12+ 10 YR 4/2 7.5 YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Moist in upper 12+ inches, ponded water adjacent and downslope. Data plot satisfies hydrology criterion. Salix scouleriana sapling Juncus effusus 5/22/2008 Scientific Name Notes Near center of Wetland O (man-made depression) Man made, but may have been weltand prior to road creation, etc. A layer may have been partially removed. DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland N, PFO Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 15 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Road prism adjacent Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 FAC Tree 50 Yes 2 FACW Shrub 70 Yes 3 FACU Shrub 10 No 4 OBL Herb 10 No 5 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches X Water-Stained Leaves Other X Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: X Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A silty sand, granular B 60% course prominent sity sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks: Data plot satisfies hydric soils criterion. Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category IV depressional wetland. 0-8 10 YR 3/1 none 8-12+ 2.5 Y 4/2 7.5YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Soil moist but not saturated. Data plot satisfies hydrology criterion. Symphoricarpos albus Carex obnupta Salix scouleriana Spiraea douglassii 5/22/2008 Near edge of Wetland N, alongside Discovery Rd. (area not previously investigated) Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 16 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Road prism adjacent Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 Pseudotsuga menziesii FACU Tree 20 Yes 2 Salix sitchensis FACW Tree 30 Yes 3 FACU Shrub 60 Yes 4 Spiraea douglassii FACW Shrub 40 Yes 5 Rosa nutkana FAC Shrub 10 No 6 Amelanchier alnifolia FACU Shrub 10 No 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 50 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam, granular, ashy B 70% course faint sity sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks:Data plot satisfies two of the three mandatory wetland criterion. The data plot is classified as upland. 0-9 10 YR 3/2 none 9-12 10 YR 4/3 7.5YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Soil moist but not saturated. Data plot does not satisfy hydrology criterion. Gaulthiera shallon 5/22/2008 Near edge of Wetland N, alongside Discovery Rd. Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland E, PEM Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 17 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Explanation: Area seasonally hayed, vegetation currently undisturbed Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 FACU Herb 20 Yes 2 FAC Herb 15 Yes 3 FACW- Herb 15 Yes 4 Alopecurus pratensis FACW Herb 15 Yes 5 Festuca arundinaceae FAC- Herb 10 No 6 Plantago lanceolata FAC Herb 5 No 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 75 HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated X Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Other Alkai report, July 2007 Water Marks Local Soil Survey Data No recorded data available Drift Lines X FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A few very fin distinct sandy loam, granular, ashy B 60% large faint sity sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks:Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category IV depressional wetland. 0-7 10 YR 3/2 Ox.Rhizos 10YR 4/4 7-12 10 YR 4/3 7.5YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Remarks: Although only one plant species is dominant at ≥20% cover, other species ≥ 15% were considered as dominants to better represent the vegetation at this site. Data plot satisfies hydrophytic vegetation criterion. Remarks: Soil moist but not saturated. Previous report by Alkai indicate inundation to 4 inches on 3/1/07. Data plot satisfies hydrophytic vegetation criterion. Ranunculus acris Anthoxanthum odoratum Holcus lanatus 5/22/2008 Scientific Name Notes Middle of depression in field in Wetland E with "wettest" vegetation community DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 18 Investigator: SM and JCS State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? Yes Explanation: Adjacent to road prism and area seasonally hayed, vegetation currently undisturbed Is Site a Potential Problem Area? No Explanation: VEGETATION Indicat or Statum %Cover Dominant? 1 FACU Herb 40 Yes 2 Vicia sativa UPL Herb 15 No 3 Festuca arundinacea FAC- Herb 10 No 4 Plantago lanceolata FAC Herb 5 No 5 Myosotis arvensis FAC Herb T No 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 0 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Other Alkai report, July 2007 Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A fine sandy loam, granular B 30% mediumfaint silty sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) X None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks: Data plot satisfies hydric soils criterion. Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. 0-8 10 YR 3/2 none 8-12+ 10 YR 4/3 7.5YR 4/4 percent Depth (inches)Matrix Color (Moist)RMF Color Remarks: Alkai report indicated seasonal saturation and free water at 3 inches BGS on 3/1/2007. Data plot does not satisfy hydrology criterion. Anthoxanthum odoratum 5/22/2008 Scientific Name Notes Middle of depression in field in Area F with "wettest" vegetation community DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 19 Investigator: JCS and SJQ State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? Yes Explanation: Potential seasonal wetland area VEGETATION Indicat or Statum %Cover Dominant? 1 FAC Shrub 80 Yes 2 FACU Shrub 5 No 3 Symphoricarpos albus FACU Shrub 5 No 4 Rubus ursinus FACU Shrub T No 5 Poa pratensis FAC Herb 60 Yes 6 Holcus lanatus FAC Herb T No 7 Galium aparine FACU Herb T No 8 Taraxacum officinale FACU Herb T No 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 100 Remarks: HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves X Other Alkai report, July 2007 Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam, granular, wood, worms B common med. promenant sity sand, blocky Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Matrix Color (Moist)RMF Color 1-6 10 YR 2/2 none 6/2/2008 Middle of depression in Area G Scientific Name Notes Gaulthiera shallon Rosa nutkana percent Symphoricarpos albus outside of plot. Hydrophytic vegetation very marginal. Data plot satisfies hydrophytic vegetation criterion. Alkai report indicated saturation and free water at 7 inches 3/01/07. Data plot does not satisfies hydrology criterion. Depth (inches) 6-12+ 2.5 Y 5/2 7.5 YR 4/4 Remarks: Hydrology not likely sufficient. Although dominated by FAC other vegetation is FACU and Alkai report (2007) classified area as upland based on lack of hydric vegetation on 3/01/07. Data plot satisfies two of the three mandatory wetland criterion. The data plot is classified as upland. Data plot satisfies hydric soils criterion. DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Wetland T, PEM/PFO Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 20 Investigator: JCS and TMT State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 FACW Tree 30 Yes 2 Populus balsamifera FAC Sapling 5 No 3 Rubus ursinus FACU Shrub 10 No 4 OBL Herb 30 Yes 5 Poa pratensis FAC Herb 30 Yes 6 Festuca arundinacea FACU- Herb 30 Yes 7 Juncus effusus FACW Herb 20 Yes 8 Holcus lanatus FAC Herb 5 No 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 80 Remarks: Data plot satisfies hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs X Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data X No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None None Present Depth to Free Water in Pit (inches BGS): 9 Depth to Saturated Soil (inches BGS): 4 Remarks: Data plot satisfies hydrology criterion. SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam B sandy loam Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? Yes Wetland Hydrology Present? Yes Hydric Soils Present? Yes Is Sampling Point Within a Wetland? Yes Remarks: Next to a ponded area with emergent vegetation. Data plot satisfies all three mandatory wetland criterion. The data plot is classified as a category III depressional wetland. Data plot satisfies hydric soils criterion. 6-16+ 10 YR 3/1 none Depth (inches)Matrix Color (Moist)RMF Color 0-6 10 YR 2/1 none percent Typha latifolia Salix lasiandra 6/12/2008 Near the edge of ponding area in Wetland T Scientific Name Notes DATA FORM ROUTINE WETLAND DETERMINATION (Adapted from 1987 COE Wetlands Delineation Manual Form Content Approved by HQUSACE 3/92) GENERAL INFORMATION Project Site: Howard Street LID Date: Community ID: Upland Applicant/Owner: City Port Townsend City: Port Townsend Data Plot #: DP 21 Investigator: JCS and TMT State: WA Plot Location: Do Normal Circumstances Exist? Yes Is site significantly disturbed (Atypical)? No Is Site a Potential Problem Area? No VEGETATION Indicat or Statum %Cover Dominant? 1 Rubus ursinus FACU Shrub 20 Yes 2 Festuca arundinacea FACU- Herb 60 Yes 3 UPL Herb 30 Yes 4 5 6 7 8 9 10 % of Dominant Species that are OBL, FACW or FAC (excluding FAC-): 0 Remarks: Data plot does not satisfy hydrophytic vegetation criterion. HYDROLOGY Recorded Data (describe in Remarks)Primary Indicators:Secondary Indicators (2 or more required): Stream, Lake, or Tide Gauge Inundated Oxidized Root Channels in Upper 12” Aerial Photographs Saturated in Upper 12 inches Water-Stained Leaves Other Water Marks Local Soil Survey Data No recorded data available Drift Lines FAC-Neutral Test Sediment Deposits Other (explain in remarks) Field Observations: Drainage Patterns in Wetlands Depth of Surface Water (inches BGS): None X None Present Depth to Free Water in Pit (inches BGS): None Depth to Saturated Soil (inches BGS): None Remarks: Data plot does not satisfy hydrology criterion. SOILS Map Unit Name (Series and Phase): Clallam Series Drainage Class: Moderately well drained Taxonomy (Subgroup): Loamy-skeletal, isotic, mesic Oxyaquic Vitrandic Haploxerepts Field Observations Confirm Mapped Type? Profile Description: orizo Abundance Size Contrast Soil Description, Texture, Structure A sandy loam B 40% prominent sandy loam B Presence of Hydric Soil Indicators: Histosol (not tested) Reducing Conditions High Organic Content in Surface Layer in Sandy Soils Histic Epipedon X Gleyed or Low-Chroma Colors Listed on National Hydric Soils List Sulfidic Odor Concretions Listed on Local Hydric Soils List Aquic Moisture Regime Organic Streaking in Sandy Soils Other (explain in remarks) None Present Remarks: WETLAND DETERMINATION Hydrophytic Vegetation Present? No Wetland Hydrology Present? No Hydric Soils Present? Yes Is Sampling Point Within a Wetland? No Remarks: 6/12/2008 Upslope from DP 20 and Wetland T near trail Scientific Name Notes Vicia satvia percent Depth (inches)Matrix Color (Moist)RMF Color 0-4 10 YR 4/2 none 2-6 10 YR 6/2 10 YR 4/6 6-16+ 2.5 YR 4/2 Data plot satisfies hydric soils criterion. Data plot satisfies one of the three mandatory wetland criterion. The data plot is classified as upland. APPENDIX D Selected Site Photographs 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-1 LANDAU ASSOCIATES Photo 1: Wetland A, looking north on Howard Street. Photo 2: Looking south towards Wetland A from field 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-2 LANDAU ASSOCIATES Photo 3: Upland area east of Wetland A Photo 4: Large field looking south 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-3 LANDAU ASSOCIATES Photo 5: Wetland E depression in middle of field Photo 6: Large field looking north after being hayed in late June 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-4 LANDAU ASSOCIATES Photo 7: Looking into Area G from Discovery Road. Photo 8: Looking down Wetland I from Discovery Road. 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-5 LANDAU ASSOCIATES Photo 9: Southern end of Wetland I. Photo 10: Looking into Wetland J 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-6 LANDAU ASSOCIATES Photo 11: Wetland L Photo 12: Wetland soils 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-7 LANDAU ASSOCIATES Photo 13: Wetland N 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-8 LANDAU ASSOCIATES Photo 14: Wetland O 8/13/08 Y:\550\049.020\R\Appendix D_site photos.doc D-9 LANDAU ASSOCIATES Photo 15: Center of Wetland T Photo 16: Utility road dividing Wetland T, small culvert under road APPENDIX E Wetland Rating Forms Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland A Date of site visit: May 21, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 12,697 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III X IV Category I = Score > 70 Score for Water Quality Functions 18 Category II = Score 51 - 69 Score for Hydrologic Functions 5 Category III = Score 30 – 50 Score for Habitat Functions 13 Category IV = Score < 30 TOTAL Score for Functions 36 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) III Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 2 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 2 Total for D 1 Add the points in the boxes above 9 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland x Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 18 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 2 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 5 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 5 Comments Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) – Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed Emergent plants x Scrub/shrub (areas where shrubs have > 30% cover) x Forested (areas where trees have > 30% cover) If the unit has a forested class check if: x The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more....... points = 4 3 structures...................points = 22 structures.................... points = 1 1 structure ....................points = 0 2 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 x Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland................. = 2 points Freshwater tidal wetland......... = 2 points Map of hydroperiods 1 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ...................... points = 2 5 – 19 species.................... points = 1 List species below if you want to: < 5 species........................ points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 1 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. x Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) x Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 2 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 7 Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 x No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 2 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 6 TOTAL for H 1 from page 8 7 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 13 Comments: Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland A Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = X not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland C Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 1,130 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III IV X Category I = Score > 70 Score for Water Quality Functions 16 Category II = Score 51 - 69 Score for Hydrologic Functions 7 Category III = Score 30 – 50 Score for Habitat Functions 5 Category IV = Score < 30 TOTAL Score for Functions 28 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) IV Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 3 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 0 Total for D 1 Add the points in the boxes above 8 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 16 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 4 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 7 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 7 Comments Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed x Emergent plants ____ Scrub/shrub (areas where shrubs have > 30% cover) Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 0 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 0 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 0 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 0 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 1 Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 x Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 0 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 4 TOTAL for H 1 from page 8 1 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 5 Comments: Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland C Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland E Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 237 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III IV X Category I = Score > 70 Score for Water Quality Functions 16 Category II = Score 51 - 69 Score for Hydrologic Functions 7 Category III = Score 30 – 50 Score for Habitat Functions 6 Category IV = Score < 30 TOTAL Score for Functions 29 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) IV Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 3 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 0 Total for D 1 Add the points in the boxes above 8 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 16 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 4 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 7 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 7 Comments Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed x Emergent plants ____ Scrub/shrub (areas where shrubs have > 30% cover) Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 0 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 Seasonally flooded or inundated 3 or more types present......points = 2 x Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 1 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 0 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 0 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 2 Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 x Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 0 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 4 TOTAL for H 1 from page 8 2 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 6 Comments: Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland E Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland I Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 11,159 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III IV X Category I = Score > 70 Score for Water Quality Functions 14 Category II = Score 51 - 69 Score for Hydrologic Functions 5 Category III = Score 30 – 50 Score for Habitat Functions 8 Category IV = Score < 30 TOTAL Score for Functions 27 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) IV Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 2 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 0 Total for D 1 Add the points in the boxes above 7 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 14 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 2 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 5 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 5 Comments Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed Emergent plants x Scrub/shrub (areas where shrubs have > 30% cover) Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 0 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 0 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 1 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) x Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 1 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 3 Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 x Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 1 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 5 TOTAL for H 1 from page 8 3 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 8 Comments: Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland I Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland J Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 3,846 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III X IV Category I = Score > 70 Score for Water Quality Functions 14 Category II = Score 51 - 69 Score for Hydrologic Functions 5 Category III = Score 30 – 50 Score for Habitat Functions 11 Category IV = Score < 30 TOTAL Score for Functions 30 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) III Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 2 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 0 Total for D 1 Add the points in the boxes above 7 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 14 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 2 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 5 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 5 Comments Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed Emergent plants x Scrub/shrub (areas where shrubs have > 30% cover) x Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 1 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 x Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 1 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 1 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) x Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 1 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 5 Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 x No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 2 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 6 TOTAL for H 1 from page 8 5 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 11 Comments: Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland J Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = X not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland N Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 1,496 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III IV X Category I = Score > 70 Score for Water Quality Functions 14 Category II = Score 51 - 69 Score for Hydrologic Functions 5 Category III = Score 30 – 50 Score for Habitat Functions 10 Category IV = Score < 30 TOTAL Score for Functions 29 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) IV Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 2 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 0 Total for D 1 Add the points in the boxes above 7 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 14 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 2 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 0 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 5 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 5 Comments Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed Emergent plants Scrub/shrub (areas where shrubs have > 30% cover) x Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 0 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 x Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 1 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 1 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) x Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) x Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 2 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 5 Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 x Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 1 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 5 TOTAL for H 1 from page 8 5 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 10 Comments: Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland N Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland O (man-made depression near road) Date of site visit: May 22, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 240 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III IV X Category I = Score > 70 Score for Water Quality Functions 10 Category II = Score 51 - 69 Score for Hydrologic Functions 10 Category III = Score 30 – 50 Score for Habitat Functions 9 Category IV = Score < 30 TOTAL Score for Functions 29 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) IV Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 2 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 1 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 2 Total for D 1 Add the points in the boxes above 5 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 10 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 2 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 5 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 10 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 10 Comments Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed x Emergent plants Scrub/shrub (areas where shrubs have > 30% cover) Forested (areas where trees have > 30% cover) If the unit has a forested class check if: The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 0 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). Permanently flooded or inundated 4 or more types present points = 3 x Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 1 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 1 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 1 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 0 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 3 Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 x No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 2 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 0 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 3 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 6 TOTAL for H 1 from page 8 1 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 7 Comments: Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland O Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 1 of 9 WETLAND RATING FORM – WESTERN WASHINGTON Version 2 – Updated July 2006 to increase accuracy and reproducibility among users Name of wetland (if known): Wetland T Date of site visit: June 12, 2008 Rated by: SM and JCS Trained by Ecology? Yes X No Date of training: SEC:09 TWNSHP: 30 RNGE: 01W Is S/T/R in Appendix D? Yes No_____ Map of wetland unit: Figure 3 Estimated size: 12,936 SF SUMMARY OF RATING Category based on FUNCTIONS provided by wetland: I II III X IV Category I = Score > 70 Score for Water Quality Functions 16 Category II = Score 51 - 69 Score for Hydrologic Functions 6 Category III = Score 30 – 50 Score for Habitat Functions 15 Category IV = Score < 30 TOTAL Score for Functions 37 Category based on SPECIAL CHARACTERISTCS of Wetland I II Does not apply X Final Category (choose the “highest” category from above”) III Summary of basic information about the wetland unit. Wetland Unit has Special Characteristics Wetland HGM Class used for Rating Estuarine Depressional x Natural Heritage Wetland Riverine Bog Lake-fringe Mature Forest Slope Old Growth Forest Flats Coastal Lagoon Freshwater Tidal Interdunal None of the above x Check if unit has multiple HGM classes present Does the wetland being rated meet any of the criteria below? If you answer YES to any of the questions below you will need to protect the wetland according to the regulations regarding the special characteristics found in the wetland. Check List for Wetlands that Need Additional Protection (in addition to the protection recommended for its category) YES NO SP1. Has the wetland unit been documented as a habitat for any Federally listed Threatened or Endangered animal or plant species (T/E species)? For the purposes of this rating system, “documented” means the wetland is on the appropriate state or federal database. X SP2. Has the wetland unit been documented as habitat for any State listed Threatened or Endangered animal species? For the purposes of this rating system, “documented” means the wetland is on the appropriate state database. Note: Wetlands with State listed plant species are categorized as Category 1 Natural Heritage Wetlands (see p. 19 of data form). X SP3. Does the wetland unit contain individuals of Priority species listed by the WDFW for the state? X SP4. Does the wetland unit have a local significance in addition to its functions? For example, the wetland has been identified in the Shoreline Master Program, the Critical Areas Ordinance, or in a local management plan as having special significance. X Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 2 of 9 Classification of Vegetated Wetlands for Western Washington If the hydrologic criteria listed in each question do not apply to the entire unit being rated, you probably have a unit with multiple HGM classes. In this case, identify which hydrologic criteria in questions 1-7 apply, and go to Question 8. 1. Are the water levels in the entire unit usually controlled by tides (i.e. except during floods)? NO – go to 2 YES – the wetland class is Tidal Fringe If yes, is the salinity of the water during periods of annual low flow below 0.5 ppt (parts per thousand)? YES – Freshwater Tidal Fringe NO – Saltwater Tidal Fringe (Estuarine) If your wetland can be classified as a Freshwater Tidal Fringe use the forms for Riverine wetlands. If it is a Saltwater Tidal Fringe it is rated as an Estuarine wetland. Wetlands that were call estuarine in the first and second editions of the rating system are called Salt Water Tidal Fringe in the Hydrogeomorphic Classification. Estuarine wetlands were categorized separately in the earlier editions, and this separation is being kept in this revision. To maintain consistency between editions, the term “Estuarine” wetland is kept. Please note, however, that the characteristics that define Category I and II estuarine wetlands have changed (see p. _____ ). 2. The entire wetland unit is flat and precipitation is only source (>90%) of water to it. Groundwater and surface water runoff are NOT sources of water to the unit. NO – go to 3 YES – The wetland class is Flats If your wetland can be classified as a “Flats” wetland, use the form for Depressional wetlands. 3. Does the entire wetland meet both of the following criteria? ______The vegetated part of the wetland is on the shores of a body of permanent open water (without any vegetation on the surface) where at least 20 acres (8ha) in size; ______At least 30% of the open water area is deeper than 6.6 (2 m)? NO – go to 4 YES – The wetland class is Lake-fringe (Lacustrine Fringe) 4. Does the entire wetland meet all of the following criteria? x _____The wetland is on a slope (slope can be very gradual). ______The water flows through the wetland in one direction (unidirectional) and usually comes from seeps. It may flow subsurface, as sheetflow, or in a swale without distinct banks. ______The water leaves the wetland without being impounded? NOTE: Surface water does not pond in these types of wetlands except occasionally in very small and shallow depressions or behind hummocks (depressions are usually <3 ft diameter and less than 1 foot deep). NO – go to 5 YES – The wetland class is Slope 5. Does the entire wetland meet all of the following criteria? ______The unit is in a valley or stream channel where it gets inundated by overbank flooding from that stream or river. ______The overbank flooding occurs at least once every two years. NOTE: The riverine unit can contain depressions that are filled with water when the river is not flooding.. NO – go to 6 YES – The wetland class is Riverine 6. Is the entire wetland unit in a topographic depression in which water ponds, or is saturated to the surface, at some time of the year. This means that any outlet, if present is higher than the interior of the wetland. NO – go to 7 YES – The wetland class is Depressional 7. Is the entire wetland located in a very flat area with no obvious depression and no overbank flooding. The unit does not pond surface water more than a few inches. The unit seems to be maintained by high groundwater in the area. The wetland may be ditched, but has no obvious natural outlet. No – go to 8 YES – The wetland class is Depressional 8. Your wetland unit seems to be difficult to classify and probably contains several different HGM classes. For example, seeps at the base of a slope may grade into a riverine floodplain, or a small stream within a depressional wetland has a zone of flooding along its sides. GO BACK AND IDENTIFY WHICH OF THE HYDROLOGIC REGIMES DESCRIBED IN QUESTIONS 1-7 APPLY TO DIFFERENT AREAS IN THE UNIT (make a rough sketch to help you decide). Use the following table to identify the appropriate class to use for the rating system if you have several HGM classes present within your wetland. NOTE: Use this table only if the class that is recommended in the second column represents 10% or more of the total area of the wetland unit being rated. If the area of the class listed in column 2 is less than 10% of the unit, classify the wetland using the class that represents more than 90% of the total area. HGM Classes within the wetland unit being rated HGM Class to Use in Rating Slope + Riverine Riverine Slope + Depressional Depressional Slope + Lake-fringe Lake-fringe Depressional + Riverine along stream within boundary Depressional Depressional + Lake-fringe Depressional Salt Water Tidal Fringe and any other class of freshwater wetland Treat as ESTUARINE under wetlands with special characteristics If you are unable still to determine which of the above criteria apply to your wetland, or you have more than 2 HGM classes within a wetland boundary, classify the wetland as Depressional for the rating. Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 3 of 9 D Depressional and Flat Wetlands Points WATER QUALITY FUNCTIONS – Indicators that wetland functions to improve water quality. (only 1 score per box) D 1 Does the wetland have the potential to improve water quality? (see p.38) D 1.1 Characteristics of surface water flows out of the wetland: • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 3• Unit has an intermittently flowing, OR highly constricted, permanently flowing outlet ........points = 2 • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing) .......points = 1• Unit is a “flat” depression (Q.7 on key), or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) Provide photo or drawing 1 D 1.2 The soil 2 inches below the surface (or duff layer) is clay or organic (use NRCS definitions) YES points = 4 NO points = 0 0 D 1.3 Characteristics of persistent vegetation (emergent, shrub, and/or forest Cowardin class): • Wetland has persistent, ungrazed vegetation > = 95% of area...............................................points = 5• Wetland has persistent, ungrazed vegetation > = 1/2 of area.................................................points = 3 • Wetland has persistent, ungrazed vegetation > = 1/10 of area...............................................points = 1• Wetland has persistent, ungrazed vegetation < 1/10 of area..................................................points = 0 Map of Cowardin vegetation classes 5 D 1.4 Characteristics of seasonal ponding or inundation: This is the area of the wetland that is ponded for at least 2 months, but dries out sometime during the year. Do not count the area that is permanently ponded. Estimate area as the average condition 5 out of 10 years. • Area seasonally ponded is > 1/2 total area of wetland ..........................................................points = 4• Area seasonally ponded is > 1/4 total area of wetland ..........................................................points = 2 • Area seasonally ponded is < 1/4 total area of wetland ..........................................................points = 0 Map of Hydroperiods 2 Total for D 1 Add the points in the boxes above 8 D 2 Does the wetland have the opportunity to improve water quality? (see p. 44) Answer YES if you know or believe there are pollutants in groundwater or surface water coming into the wetland that would otherwise reduce water quality in streams, lakes or groundwater downgradient from the wetland? Note which of the following conditions provide the sources of pollutants. A unit may have pollutants coming from several sources, but any single source would qualify as opportunity. Grazing in the wetland or within 150 ft Untreated stormwater discharges to wetland Tilled fields or orchards within 150 ft. of wetland A stream or culvert discharges into wetland that drains developed areas, residential areas, farmed fields, roads, or clear-cut logging x Residential, urban areas, golf courses are within 150 ft. of wetland Wetland is fed by groundwater high in phosphorus or nitrogen Other YES multiplier is 2 NO multiplier is 1 Multiplier 2 TOTAL – Water Quality Functions Multiply the score from D1 by D2; then add score to table on p. 1 16 HYDROLOGIC FUNCTIONS – Indicators that wetland unit functions to reduce flooding and stream degradation. D 3 Does the wetland have the potential to reduce flooding and erosion? (see p.46) D 3.1 Characteristics of surface water flows out of the wetland unit • Unit is a depression with no surface water leaving it (no outlet)...........................................points = 4• Unit has an intermittently flowing, OR highly constricted permanently flowing outlet .........points = 2 • Unit is a “flat” depression (Q.7 on key) or in the Flats class, with permanent surface outflow and no obvious natural outlet and/or outlet is a man-made ditch...........................points = 1(If ditch is not permanently flowing treat unit as “intermittently flowing”) • Unit has an unconstricted, or slightly constricted, surface outlet (permanently flowing).......points = 0 0 D 3.2 Depth of storage during wet periods. Estimate the height of ponding above the bottom of the outlet. For units with no outlet measure from the surface of permanent water or deepest part (if dry). • Marks of ponding are 3 ft. or more above the surface or bottom of the outlet .......................points = 7 • The wetland is a “headwater” wetland..................................................................................points = 5• Marks of ponding between 2 ft. to < 3 ft. from surface or bottom of outlet...........................points = 5 • Marks are at least 0.5 ft. to < 2 ft. from surface or bottom of outlet......................................points = 3• Wetland is flat (yes to Q.2 or Q.7 on key)but has small depressions on the surface that trap water points = 1 • Marks of ponding less than 0.5 ft.........................................................................................points = 0 3 D 3.3 Contribution of wetland unit to storage in the watershed: Estimate the ratio of the area of upstream basin contributing surface water to the wetland to the area of the wetland unit itself. • The area of the basin is less than 10 times the area of unit ...................................................points = 5• The area of the basin is 10 to 100 times the area of the unit .................................................points = 3 • The area of the basin is more than 100 times the area of the unit..........................................points = 0• Entire unit is in the FLATS class .........................................................................................points = 5 3 Total for D 3 Add the points in the boxes above 6 D 4 Does the wetland have the opportunity to reduce flooding and erosion? (see p. 49) Answer YES if the unit is in a location in the watershed where the flood storage, or reduction in water velocity, it provides helps protect downstream property and aquatic resources from flooding or excessive and/or erosive flows. Answer NO if the water coming into the wetland is controlled by a structure such as flood gate, tide gate, flap valve, reservoir etc. OR you estimate that more than 90% of the water in the wetland is from Multiplier 1 Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 4 of 9 groundwater in areas where damaging groundwater flooding does not occur. Note which of the following indicators of opportunity apply. Wetland is in a headwater of a river or stream that has flooding problems. ____ Wetland drains to a river or stream that has flooding problems Wetland has no outlet and impounds surface runoff water that might otherwise flow into a river or stream that has flooding problems Other YES multiplier is 2 NO multiplier is 1 no TOTAL – Hydrologic Functions Multiply the score from D3 by D4; then add score to table on p. 1 6 Comments Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 5 of 9 These questions apply to wetlands of all HGM classes. Points HABITAT FUNCTIONS – Indicators that wetland functions to provide important habitat. (only 1 score per box) H 1 Does the wetland have the potential to provide habitat for many species? H 1.1 Vegetation structure (see P. 72): Check the types of vegetation classes present (as defined by Cowardin) –Size threshold for each class is 1/4 acre or more than 10% of the area if unit is smaller than 2.5 acres. Aquatic Bed x Emergent plants Scrub/shrub (areas where shrubs have > 30% cover) x Forested (areas where trees have > 30% cover) If the unit has a forested class check if: x The forested class has 3 out of 5 strata (canopy, sub-canopy, shrubs, herbaceous, moss/ground-cover) that each cover 20% within the forested polygon. Add the number of vegetation types that qualify. If you have: Map of Cowardin vegetation classes4 structures or more.......points = 4 3 structures...................points = 22 structures....................points = 1 1 structure ....................points = 0 2 H 1.2 Hydroperiods (see p.73): Check the types of water regimes (hydroperiods) present within the wetland. The water regime has to cover more than 10% of the wetland or 1/4 acre to count (see text for descriptions of hydroperiods). x Permanently flooded or inundated 4 or more types present points = 3 x Seasonally flooded or inundated 3 or more types present......points = 2 Occasionally flooded or inundated 2 types present...................points = 1 x Saturated only 1 type present ....................points = 0 Permanently flowing stream or river in, or adjacent to, the wetland Seasonally flowing stream in, or adjacent to, the wetland Lake-fringe wetland.................= 2 points Freshwater tidal wetland.........= 2 points Map of hydroperiods 2 H 1.3 Richness of Plant Species (see p. 75): Count the number of plant species in the wetland that cover at least 10 ft2 (different patches of the same species can be combined to meet the size threshold) You do not have to name the species. Do not include Eurasian Milfoil, reed canarygrass, purple loosestrife, Canadian Thistle. If you counted: > 19 species ......................points = 2 5 – 19 species....................points = 1 List species below if you want to: < 5 species ........................points = 0 2 H 1.4 Interspersion of Habitats (see p. 76): Decided from the diagrams below whether interspersion between Cowardin vegetation (described in H1.1), or the classes and unvegetated areas (can include open water or mudflats) is high, medium, low, or none. Note: If you have 4 or more classes or 3 vegetation classes and open water, the rating is always “high”. Use map of Cowardin classes. 3 H 1.5 Special Habitat Features (see p. 77): Check the habitat features that are present in the wetland. The number of checks is the number of points you put into the next column. Large, downed, woody debris within the wetland (> 4 in. diameter and 6 ft. long) Standing snags (diameter at the bottom > 4 inches) in the wetland Undercut banks are present for at least 6.6 ft. (2m) and/or overhanging vegetation extends at least 3.3 ft. (1m) over a stream (or ditch) in, or contiguous with the unit, for at least 33 ft. (10m) Stable steep banks of fine material that might be used by beaver or muskrat for denning (> 30 degree slope) OR signs of recent beaver activity are present (cut shrubs or trees that have not yet turned grey/brown) At least 1/4 acre of thin-stemmed persistent vegetation or woody branches are present in areas that are permanently or seasonally inundated (structures for egg-laying by amphibians) Invasive plants cover less than 25% of the wetland area in each stratum of plants NOTE: The 20% stated in early printings of the manual on page 78 is an error. 2 H 1 TOTAL Score – potential for providing habitat Add the points in the column above 11 Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 6 of 9 H 2 Does the wetland have the opportunity to provide habitat for many species? (only 1 score per box) H 2.1 Buffers (see P. 80): Choose the description that best represents condition of buffer of wetland unit. The highest scoring criterion that applies to the wetland is to be used in the rating. See text for definition of “undisturbed”. 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% of circumference. No structures are within the undisturbed part of buffer (relatively undisturbed also means no grazing, no landscaping, no daily human use)..............points = 5 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 50% circumference.....................................................................................................points = 4 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 95% circumference.....................................................................................................points = 4 100m (330 ft) of relatively undisturbed vegetated areas, rocky areas, or open water > 25% circumference.....................................................................................................points = 3 50m (170 ft) of relatively undisturbed vegetated areas, rocky areas, or open water for > 50% circumference ...............................................................................................points = 3 If buffer does not meet any of the criteria above: No paved areas (except paved trails) or buildings within 25m (80 ft) of wetland > 95% circumference. Light to moderate grazing or lawns are OK...................................points = 2 No paved areas of buildings within 50m of wetland for > 50% circumference. Light to moderate grazing or lawns are OK....................................................................points = 2 Heavy grazing in buffer.................................................................................................points = 1 x Vegetated buffers are < 2m wide (6.6 ft) for more than 95% circumference (e.g. tilled fields, paving, basalt bedrock extend to edge of wetland)..............................points = 0 Buffer does not meet any of the criteria above ...............................................................points = 1 Arial photo showing buffers 0 H 2.2 Corridors and Connections (see p. 81) H 2.2.1 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 150 ft. wide, has at least a 30% cover of shrubs, forest or native undisturbed prairie, that connects to estuaries, other wetlands or undisturbed uplands that are at least 250 acres in size? (Dams in riparian corridors, heavily used gravel roads, paved roads, are considered breaks in the corridor). YES = 4 points (go to H 2.3) NO = go to H 2.2.2 H. 2.2.2 Is the wetland part of a relatively undisturbed and unbroken vegetated corridor (either riparian or upland) that is at least 50 ft. wide, has at least 30% cover of shrubs or forest, and connects to estuaries, other wetlands or undisturbed uplands that are at least 25 acres in size? OR a Lake- fringe wetland, if it does not have an undisturbed corridor as in the question above? YES = 2 points (go to H 2.3) NO = go to H 2.2.3 H. 2.2.3 Is the wetland: • Within 5 mi (8km) of a brackish or salt water estuary OR • Within 3 miles of a large field or pasture (> 40 acres) OR YES = 1 point • Within 1 mile of a lake greater than 20 acres? NO = 0 points 1 Comments: Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 7 of 9 H 2.3 Near or adjacent to other priority habitats listed by WDFW (see p. 82): Which of the following priority habitats are within 330 ft. (100m) of the wetland? NOTE: the connections do not have to be relatively undisturbed. These are DFW definitions. Check with your local DFW biologist if there are any questions. Riparian: The area adjacent to aquatic systems with flowing water that contains elements of both aquatic and terrestrial ecosystems which mutually influence each other. Aspen Stands: Pure or mixed stands of aspen greater than 0.8 ha (2 acres) Cliffs: Greater than 7.6m (25 ft) high and occurring below 5000 ft. Old-growth forests: (Old growth west of Cascade Crest) Stands of at least 2 tree species, forming a multi-layered canopy with occasional small openings, with at least 20 trees/ha (8 trees/acre) > 81cm (32 in) dbh or > 200 years of age. x Mature forests: Stands with average diameters exceeding 53cm (21 in) dbh; crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth; 80 – 200 years old west of the Cascade Crest. Prairies: Relatively undisturbed areas (as indicated by dominance of native plants) where greases and/or forbs form the natural climax plant community. Talus: Homogenous areas of rock rubble ranging in average size 0.15 – 2.0m (0.5 – 6.5 ft), composed of basalt, andesite, and/or sedimentary rock, including riprap slides and mine tailings. May be associated with cliffs. Caves: A naturally occurring cavity, recess, void, or system of interconnected passages. Oregon white Oak: Woodlands stands of pure oak or oak/conifer associations where canopy coverage of the oak component of the stand is 25%. Urban Natural Open Space: A priority species resides within or is adjacent to the open space and uses it for breeding and/or regular feeding; and/or the open space functions as a corridor connecting other priority habitats, especially those that would otherwise be isolated; and/or the open space is an isolated remnant of natural habitat larger than 4 ha (10 acres) and is surrounded by urban development. Estuary/Estuary-like: Deepwater tidal habitats and adjacent tidal wetlands, usually semi-enclosed by land but with open, partly obstructed or sporadic access to the open ocean, and in which ocean water is at least occasionally diluted by freshwater runoff from the land. The salinity may be periodically increased above that of the open ocean by evaporation. Along some low-energy coastlines there is appreciable dilution of sea water. Estuarine habitat extends upstream and landward to where ocean-derived salts measure less than 0.5 ppt. during the period of average annual low flow. Includes both estuaries and lagoons. Marine/Estuarine Shorelines: Shorelines include the intertidal and subtidal zones of beaches, and may also include the backshore and adjacent components of the terrestrial landscape (e.g., cliffs, snags, mature trees, dunes, meadows) that are important to shoreline associated fish and wildlife and that contribute to shoreline function (e.g., sand/rock/log recruitment, nutrient contribution, erosion control). If wetland has 3 or more priority habitats..= 4 points If wetland has 1 priority habit .. = 1 point If wetland has 2 priority habitats...............= 3 points No habitats............................... = 0 points Note: All vegetated wetlands are by definition a priority habitat but are not included in this list. (Nearby wetlands are addressed in question H 2.4). 1 H 2.4 Wetland Landscape: Choose the one description of the landscape around the wetland that best fits (see p. 84) • There are at least 3 other wetlands within 1/2 mile, and the connections between them are relatively undisturbed (light grazing between wetlands OK, as is lake shore with some boating, but connections should NOT be bisected by paved roads, fill, fields, or other development..........points = 5 • The wetland is Lake-fringe on a lake with little disturbance and there are 3 other lake-fringe wetlands within 1/2 mile .....................................................................................................points = 5 • There are at least 3 other wetlands within 1/2 mile, BUT the connections between them are disturbed.............................................................................................................................points = 3 • The wetland fringe on a lake with disturbance and there are 3 other lake-fringe wetlands within 1/2 mile....................................................................................................................points = 3 • There is at least 1 wetland within 1/2 mile...........................................................................points = 2 • There are no wetlands within 1/2 mile..................................................................................points = 0 2 H 2 TOTAL Score – opportunity for providing habitat Add the scores from H2.1, H2.2, H2.3, H2.4 4 TOTAL for H 1 from page 8 11 Total Score for Habitat Functions Add the points for H 1 and H 2; then record the result on p. 1 15 Comments: Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 8 of 9 CATEGORIZATION BASED ON SPECIAL CHARACTERISTICS Please determine if the wetland meets the attributes described below and circle the appropriate answers and Category. Wetland Type – Check off any criteria that apply to the wetland. Circle the Category when the appropriate criteria are met. SC1 Estuarine wetlands? (see p.86) Does the wetland unit meet the following criteria for Estuarine wetlands? The dominant water regime is tidal, Vegetated, and With a salinity greater than 0.5 ppt. YES = Go to SC 1.1 NO x SC 1.1 Is the wetland unit within a National Wildlife Refuge, National Park, National Estuary Reserve, Natural Area Preserve, State Park or Educational, Environmental, or Scientific Reserve designated under WAC 332-30-151? YES = Category I NO = go to SC 1.2 Cat. 1 SC 1.2 Is the wetland at least 1 acre in size and meets at least two of the following conditions? YES = Category I NO = Category II ___ The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing, and has less than 10% cover of non-native plant species. If the non-native Spartina spp,. are only species that cover more than 10% of the wetland, then the wetland should be given a dual rating (I/II). The area of Spartina would be rated a Category II while the relatively undisturbed upper marsh with native species would be a Category 1. Do not, however, exclude the area of Spartina in determining the size threshold of 1 acre. ___ At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland ___ The wetland has at least 2 of the following features: tidal channels, depressions with open water, or contiguous freshwater wetlands. Cat. I Cat. II Dual Rating I/II SC2 Natural Heritage Wetlands (see p. 87) Natural Heritage wetlands have been identified by the Washington Natural Heritage Program/DNR as either high quality undisturbed wetlands or wetlands that support state Threatened, Endangered, or Sensitive plant species. SC 2.1 Is the wetland being rated in a Section/Township/Range that contains a natural heritage wetland? (This question is used to screen out most sites before you need to contact WNHP/DNR.) S/T/R information from Appendix D or accessed from WNHP/DNR web site YES Contact WNHP/DNR (see p. 79) and go to SC 2.2 NO x SC 2.2 Has DNR identified the wetland as a high quality undisturbed wetland or as a site with state threatened or endangered plant species? YES = Category 1 NO x not a Heritage Wetland Cat I SC3 Bogs (see p. 87) Does the wetland (or any part of the unit) meet both the criteria for soils and vegetation in bogs? Use the key below to identify if the wetland is a bog. If you answer yes you will still need to rate the wetland based on its function. 1. Does the unit have organic soil horizons (i.e. layers of organic soil), either peats or mucks, that compose 16 inches or more of the first 32 inches of soil profile? (See Appendix B for a field key to identify organic soils)? YES = go to question 3 NO = go to question 2 2. Does the wetland have organic soils, either peats or mucks that are less than 16 inches deep over bedrock, or an impermeable hardpan such as clay or volcanic ash, or that are floating on a lake or pond? YES = go to question 3 NO = is not a bog for purpose of rating 3. Does the unit have more than 70% cover of mosses at ground level, AND other plants, if present, consist of the “bog” species listed in Table 3 as a significant component of the vegetation (more than 30% of the total shrub and herbaceous cover consists of species in Table 3)? YES = Is a bog for purpose of rating NO = go to question 4 NOTE: If you are uncertain about the extent of mosses in the understory you may substitute that criterion by measuring the pH of the water that seeps into a hole dug at least 16” deep. If the pH is less than 5.0 and the “bog” plant species in Table 3 are present, the wetland is a bog. 4. Is the unit forested (> 30% cover) with sitka spruce, subalpine fir, western red cedar, western hemlock, lodgepole pine, quaking aspen, Englemann’s spruce, or western white pine. WITH any of the species (or combination of species) on the bog species plant list in Table 3 as a significant component of the ground cover (> 30% coverage of the total shrub/herbaceous cover)? YES = Category I NO = Is not a bog for purpose of rating Cat. I Wetland name or number Wetland T Wetland Rating Form – western Washington, version 2 (7/06) Page 9 of 9 SC4 Forested Wetlands (see p. 90) Does the wetland have at least 1 acre of forest that meet one of these criteria for the Department of Fish and Wildlife’s forests as priority habitats? If you answer yes you will still need to rate the wetland based on its function. Old-growth forests: (west of Cascade Crest) Stands of at least two three species forming a multi-layered canopy with occasional small openings; with at least 8 trees/acre (20 trees/hectare) that are at least 200 years of age OR have a diameter at breast height (dbh) of 32 inches (81 cm or more). NOTE: The criterion for dbh is based on measurements for upland forests. Two-hundred year old trees in wetlands will often have a smaller dbh because their growth rates are often slower. The DFW criterion is and “OR” so old-growth forests do not necessarily have to have trees of this diameter. Mature forests: (west of the Cascade Crest) Stands where the largest trees are 80 – 200 years old OR have an average diameters (dbh) exceeding 21 inches (53 cm); crown cover may be less than 100%; decay, decadence, numbers of snags, and quantity of large downed material is generally less than that found in old-growth. YES = Category I NO = not a forested wetland with special characteristics Cat. I SC5 Wetlands in Coastal Lagoons (see p. 91) Does the wetland meet all of the following criteria of a wetland in a coastal lagoon? The wetland lies in a depression adjacent to marine waters that is wholly or partially separated from marine waters by sandbanks, gravel banks, shingle, or, less frequently, rocks. The lagoon in which the wetland is located contains surface water that is saline or brackish (> 0.5 ppt) during most of the year in at least a portion of the lagoon (needs to be measured near the bottom.) YES = Go to SC 5.1 NO not a wetland in a coastal lagoon SC 5.1 Does the wetland meet all of the following three conditions? The wetland is relatively undisturbed (has no diking, ditching, filling, cultivation, grazing) and has less than 20% cover of invasive plant species (see list of invasive species on p. 74). At least 3/4 of the landward edge of the wetland has a 100 ft. buffer of shrub, forest, or un-grazed or un-mowed grassland. The wetland is larger than 1/10 acre (4350 square ft.) YES = Category I NO = Category II Cat. I Cat. II SC6 Interdunal Wetlands (see p. 93) Is the wetland west of the 1889 line (also called the Western Boundary of Upland Ownership or WBUO)? YES = Go to SC 6.1 NO not an interdunal wetland for rating If you answer yes you will still need to rate the wetland based on its functions. In practical terms that means the following geographic areas: • Long Beach Peninsula -- lands west of SR 103 • Grayland-Westport -- lands west of SR 105 • Ocean Shores-Copalis – lands west of SR 115 and SR 109 SC 6.1 Is the wetland one acre or larger, or is it in a mosaic of wetlands that is one acre or larger? YES = Category II NO = go to SC 6.2 SC 6.2 Is the wetland between 0.1 and 1 acre, or is it in a mosaic of wetlands that is between 0.1 and 1 acre? YES = Category III Cat. II Cat. III Category of wetland based on Special Characteristics Choose the “highest” rating if wetland falls into several categories, and record on p. 1. If you answered NO for all types enter “Not Applicable” on p. 1 no Comments: APPENDIX F Maps with Wetland Flags and Data Plots