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Home My WebLink About2018.03.20 - David Cohn Wetland Delineation Rating and Habitat Impact Report for 3057 7th Street David Cohn Wetland Delineation, Rating And Habitat Impact Report: New Farmhouse and Septic System March 20, 2018 Prepared for: David Cohn 3057 7th Street Port Townsend, WA. 98368 Site Address: 3057 7th Street Port Townsend, WA. 98368 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 2 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 3 | M S A Contents I. Introduction ................................................................................................................................. 4 II. General Site Conditions ............................................................................................................. 5 III. Site Information ........................................................................................................................ 5 Soil Survey .................................................................................................................................. 5 National Wetlands Inventory ...................................................................................................... 6 IV. Wetland Assessment Methods .................................................................................................. 7 V. Wetland Delineation ................................................................................................................. 8 Wetland 1 (Figure 7) ................................................................................................................... 9 Wetland 2 (Figure 8) ................................................................................................................. 12 VI. Wetland Rating ....................................................................................................................... 14 Wetland 1 – Rated Category IV – Buffer of 40 Feet (Figure 7) ............................................... 16 Wetland 2 – Rated Category IV – Buffer of 40 Feet (Figure 8) ............................................... 16 Wetland 3 – Rated Category 1V – Buffer of 60 Feet (Figure 9) .............................................. 16 Wetland 4 – Unrated at Property Owners Request – Buffer of 350 Feet (Figure 10) .............. 17 VII. Proposed Site Restoration/Developmental Changes ............................................................. 17 Existing Farm House Removal ................................................................................................. 18 Construction of replacement farmhouse ................................................................................... 20 Decommission of Existing Septic System ................................................................................ 23 Installation of New Septic System ............................................................................................ 24 IIX Summary ................................................................................................................................ 27 IX. References.............................................................................................................................. 29 X. Figures ...................................................................................................................................... 30 Figure 1. Site and Vicinity Map ................................................................................................ 30 Figure 2. National Wetland Inventory (NWI) Map .................................................................. 31 Figure 3. NRCS Soil Survey ..................................................................................................... 32 Figure 4. Vegetation Line Between Upland and Wetland ........................................................ 33 Figure 5. Layout of Proposed Plan for New Farmhouse .......................................................... 34 Figure 6. Proposed Farmhouse Design for City of Port Townsend .......................................... 35 Figure 7. Wetland 1................................................................................................................... 36 Figure 8. Wetland 2................................................................................................................... 37 Figure 9. Wetland 3................................................................................................................... 38 Figure 10. Wetland 4................................................................................................................. 39 XI. Appendix: Rating Images, Data Forms .................................................................................. 40 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 4 | M S A I. Introduction Marine Surveys & Assessments (MSA) was authorized by the applicant and property owner, David Cohn, to assess four wetland areas over ten parcels, located within the municipal jurisdictions of Jefferson County, Washington and the City of Port Townsend, Washington. These ten parcels equal approximately 77.0 acres. Parcel numbers 001093002, 001093001, 997000101, 997000201, and 997000701 fall within Port Townsend city limits; parcels 001093004, 997000301, 997000601, 997000401, and 997000501 fall outside Port Townsend city limits. All parcels are located in the SW 1/4 SEC 9, T30N, R1W (Figure 1). For ease of identification, the wetland areas within these parcels are designated 1-4 (Figure1) and will be referred to by these identifying numbers thoughout this report; wetlands 1-3 lie within the limits of the City of Port Townsend, and wetland 4 lies just outside city limits and is governed by Jefferson County statutes. Wetland 1 and 2 were both delineated, rated, and assigned buffers; Wetland 3 was rated and assigned a buffer; Wetland 4 was mapped and assigned a buffer. Wetlands 1-3 were assigned buffers based on City of Port Townsend code; wetland 4 was assigned a buffer based on Jefferson County code. As part of an effort to restore environmental value and function to these parcels after a long history of agricultural use, several developmental changes have been proposed. These changes, which are listed below, are addressed in regards to the impacts to the four wetlands found on the property, both short- and long-term, as well as mitigation recommendations to minimize those impacts. 1. Removing the current farmhouse, which is located within the buffer of wetland 2; 2. Construction a replacement for the current farmhouse outside the buffer of any onsite wetland, in the footprint of the original, historic farmhouse 3. Replacing the septic field of the current farmhouse, which is located within the buffer of wetland 2; 4. Installing a replacement for the current septic field outside the buffer of any onsite wetland 5. Restoring the hydrologic continuity between wetlands 2 and 3 by restoring flow under the access road in the topographical low corridor, as opposed to the artificial current routing; 6. Removing invasive, nonnative vegetation species from wetland 1 and 2, and restoring native aquatic wetland species; 7. Improving habitat continuity for native grazers and predators by removing relic barbed- wire across the total acreage. Each aspect of the above restoration has been assessed for impact on current habitat value and function. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 5 | M S A II. General Site Conditions This property is mostly open farmland located within a relatively residential and developed section of east Jefferson County [zoned R-II(SF) - Medium Density Single-Family] on Quimper Peninsula. It is west-southwest of Port Townsend, WA by approximately 2.4 miles, and west- northwest of Port Hadlock, WA by approximately 5.0 miles. The property is 77.0 acres and is divided into ten parcels, the vast majority of which is open, having been logged and farmed years ago. There is a small farmhouse in the central-western section of the property, along with a small outbuilding and large barn, accessed from the east via 7th Street, off Discovery Road (Figure 1). To the north, the property is bordered by forested land, while the west and southwest is bordered by residential neighborhoods, accessed in large part from South Jacob Miller Road. To the east is Discovery Road, a major town artery. Generally, the elevation along the northern section of the property is greater than the southern; drainage on the property flows from north-to-south. The western quarter, approximately, consists of a wetland corridor running from the northwest corner of the property southeast to the man-made pond on the southern border. Four wetland areas were identified on the property. The smallest (Wetland 1) is approximately 0.10 miles northwest from the farmhouse; the next largest in size (Wetland 2) is almost immediately adjacent to the farmhouse to the northeast; to the southeast by approximately 0.07 miles lies the next largest wetland (Wetland 3), while the largest, being the aforementioned northwest-southeast corridor in the western quarter of the property (Wetland 4), is approximately 0.33 miles west of the farmhouse (Figure 1). The property was, during its time as a working farm, sectioned into seven pastures by wooden fence-posts and barbed-wire fence, all of which are accessed by the driveway, which extended into a rough jeep-track traveling east-west almost the width of the property. As a result of widespread cattle grazing, the vegetation over most of the property’s open area is greatly homogenous, dominated by common agricultural/disturbed area grasses: Agrostis capillaris, Dactylis glomerata, and Phalaris arundinacea. The western section of the property, close to Wetland 4, is distinguished by a gradual shift to scrub-shrub forest from fallow agricultural fields. III. Site Information Soil Survey Soil Symbol Soil Name Acres CfC Cassolary sandy loam, 0 to 15 percent slopes .2 CmC Clallam gravelly sandy loam, 0 to 15 percent slopes 59.7 DaC Dabob very gravelly sandy loam, 0 to 15 percent slopes 2.3 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 6 | M S A DcC Dick loamy sand, 0 to 15 percent slopes .1 HuC Hoypus gravelly loamy sand, 0 to 15 percent slopes 14.5 StB Swantown gravelly sandy loam, 0 to 8 percent slopes 3.6 *Figure 3 National Wetlands Inventory The USFWS NWI map (on the National Wetlands Inventory website) shows 4 mapped wetlands and 1 mapped pond within the 77 acres of property (Figure 2). Three of the wetlands are classified by the NWI according to the Cowardin classification system as Palustrine Emergent Shallow Marsh Semi-Permanently Flooded (PEMF) and the remaining wetland as Palustrine Emergent Shallow Persistent Scrub-Shrub Seasonally Flooded (PEM1/SSC). National Wetland Inventory code interpretations are as follows: • P: System Palustrine: includes all non-tidal wetlands dominated by trees, shrubs, emergents, mosses or lichens, and all such wetlands that occur in tidal areas where salinity due to ocean derived salts is below 0.5 ppt. Wetlands lacking such vegetation are also included if they exhibit all of the following characteristics: 1. are less than 8 hectares ( 20 acres ); 2. do not have an active wave-formed or bedrock shoreline feature; 3. have at low water a depth less than 2 meters (6.6 feet) in the deepest part of the basin; 4. have a salinity due to ocean-derived salts of less than 0.5 ppt. • EM: Class Emergent Wetland: characterized by erect, rooted, herbaceous hydrophytes, excluding mosses and lichens. This vegetation is present for most of the growing season in most years. These wetlands are usually dominated by perennial plants. All water regimes are included except subtidal and irregularly-exposed. • F: Water Regime Semi-Permanently Flooded: surface water persists throughout the growing season in most years. When surface water is absent, the water table is usually at or very near the land surface. • 1: Subclass Persistent: Dominated by species that normally remain standing until the beginning of the next growing season. This subclass is found only in the Estuarine and Palustrine systems. • SS: Class Scrub-Shrub: Includes areas dominated by woody vegetation less than 6m (20 feet) tall. The species includes shrubs, saplings, and trees of stunted growth form dues to environmental conditions. • C: Water Regime Seasonally Flooded: Surface water is present for extended periods especially early in the growing season, but is absent by the end of the growing season in most years. The water table after flooding ceases is variable, extending from saturated at the surface to a water table well below the surface. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 7 | M S A The NWI map documents were prepared primarily by stereoscopic analysis of high altitude aerial photographs taken in 1980 and 1981. Wetlands were identified on the photographs based on vegetation, visible hydrology, and geography. The aerial photographs typically reflected conditions during a specific year and season when they were taken. Some small wetlands and those obscured by dense forest cover may not be included on the map. In addition, there is a margin of error inherent in the use of aerial photographs. As you will see in our delineation results, the actual Cowardin classification of the wetlands found differed from those on the USFWS NWI map. IV. Wetland Assessment Methods Consistent with procedures detailed in the Washington State Wetlands Identification and Delineation Manual (Washington State Department of Ecology, 2011 Manual), preliminary information was gathered on the project site prior to the field review, rating and delineation. General information sources included: • 1974 National Wetland Inventory (NWI) maps, United States Fish and Wildlife Service (USFWS) • 1975 Soil Survey of Jefferson County Area, Washington (USDA) • 2013 Washington Department of Natural Resources Water Resource Map (DNR) • 1979 Washington State Wetlands Identification and Delineation Manual, (WSDE) • 2009 Jefferson County Unified Development Code Chapter 18.22 Critical Areas Jefferson County Critical Areas Map • 2014 State of Washington 2014 Wetland Plant List US Army Corps of Engineers (COE) • 2014 Washington State Wetland Rating System for Western Washington 2014 Update. (Hruby, T Washington State Department of Ecology) Field delineations followed the methodology outlined in the Regional Supplement to the Corps of Engineers Wetland Delineation Manual (effective January 1987): Western Mountains, Valleys and Coast Region 9 Version 2.0) U.S. Army Corps of Engineers. This is standard manual, used in determining wetland areas when applying state and local government regulations under the Shoreline Management Act and the Growth Management Act in Washington State. Field ratings followed the methodology outlines in the Washington State Wetland Rating System for Western Washington; 2014 Update field manual, published by the State of Washington Department of Ecology. The specified buffers, identified in accordance with each individual David Cohn (3057 7th St, Port Townsend WA) Wetland Report 8 | M S A wetland’s rating score, are specified in Jefferson County Code, Table 18.22.330(3), Wetland Categories, Rating Scores and Buffer Widths. The extent and location of all four wetlands were determined during field work completed during August 11th – 22nd, 2016. Field work was done under variable conditions with an ambient temperature ranging between 66° and 80° Fahrenheit. The time of year and recent precipitation history were considered in assessing the extent of the suspect wetlands presumed to exist on site. Specific field methodology used in determining the extent and location of wetland areas include: 1) As part of the initial project site reconnaissance, the site was walked to determine the general extent and location of potential wetland areas. 2) Wetland and upland sample plots were established in the identified potential wetland areas and in the adjacent upland areas; and 3) The extent of the wetlands was located with a GPS unit and measured on the ground to reference points. V. Wetland Delineation Wetland delineation establishes the existence (location) and physical limits (size) of a wetland for the purposes of federal, state, and local regulations. In determining these physical parameters of each individual wetland, indicators of vegetation, soils, and hydrology are analyzed to assess critical areas. By defining the transition zone between scientifically established upland and wetland indicators, an established accurate boundary of the wetland can be identified between a pair of data points; one representing the upland and one representing the wetland. It is common for paired data points, when linked to vegetative indicators (such as an obvious transition line of upland grass into an emergent herbaceous community), to inform the identification of the wetland delineation. A delineation, often in conjunction with a subsequent rating, is a necessary procedural step in obtaining information which will inform subsequent construction. Of the four wetlands found on the property, two were delineated. Wetland 1 and 2 were delineated for reasons of potential future construction; the property owners identified these locations as potential building spots, and therefore opted to obtain more accurate wetland boundaries. Wetland 1 and 2, both classified by the US Fish and Wildlife National Wetlands Inventory as PEMF (Semi-permanently Flooded, Palustrine, Emergent Marsh), were delineated using standard paired wetland test plots. Wetland 1, which was smaller and more homogeneous of border, was delineated using two paired test plots. Wetland 2, which was slightly larger and more heterogeneous of border, was delineated using four paired test plots. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 9 | M S A Each test plot consisted of two data points, designated “Dry” and “Wet”. Each data point consisted of a test pit dug to standard depth of 16 inches, to expose a representative soil profile. Each data point was then assessed for the presence of three wetland indicators: hydrophytic vegetation, hydric soils, and wetland hydrology. Following the successful location of paired data points, flagging was hung between data points to mark the wetland boundary. The test pits at each data point were marked with yellow flagging, pink wire flags, and GPS latitude and longitude was taken. Wetland 1 (Figure 7) Paired Data Point GPS Co-ordinates: Plot A – Wet: 48.10667N 122.81567W Plot A – Dry: 48.10673N 122.81582W Plot B – Wet: 48.10660N 122.81542W Plot B – Dry: 48.10664N 122.81528W 1. Vegetation In an effort to distinguish the types of plants that grow in different hydrologic regimes, the U.S. Fish and Wildlife Service incorporated a system of wetland plant indicator status to classify individual plant species. The wetland indicator status of a species is based on the individual species occurrence in wetlands in 13 separate regions within the United States. A plant indicator status is applied to the species as a whole; however individual variations exist within the species. Indicator categories are as follows: OBL – obligate wetland – Almost always occurs in wetlands under natural conditions. FACW – Facultative Wetland – Usually occurs in wetlands, occasionally found in uplands. FAC – Facultative – Equally likely to occur in wetlands or non-wetlands FACU – Facultative Upland – Usually occurs in non-wetlands, occasionally found in wetlands. UPL – Obligate Upland – Almost always occurs in uplands under natural conditions. To meet the qualification as a site dominated by hydrophytic vegetation, wetland plant species must show at least one of five hydrophytic vegetation indicators (Appendix A; Data Forms). All test plots that qualified as wet sites did so by fulfilling the same wetland vegetation indicator: all dominant species across all strata are either classified as OBL or FACW. The wetland boundary for this depressional wetland was directly correlated to a visible vegetation line between upland and wetland species (Figure 4); this is visible on satellite imagery and was supported by observations in the field. As the land is primarily of old agricultural use and therefore disturbed over a long period of time, the biodiversity was considerably less than would be found in a similar depressional wetland in a natural state. As there were no woody vines present at the test plots, cover estimates were made within a 5-foot and 30-foot diameter circle for the herbaceous and shrub/tree strata, respectively. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 10 | M S A Due to limited biodiversity in a long-term agriculturally disturbed landscape and the consequent redundancy of plant species, test plots are combined below. Wetland 1 – Sample Plot A and B – Wet: Vegetation Stratum Common Name Latin Name Status Herb Soft Rush Juncus effusus FACW Herb Reed Canarygrass Phalaris arundinacea FACW In both wetland test plots, hydric vegetation was present (Appendix A; Data Forms). Wetland 1 – Sample Plot A and B – Dry: Vegetation Stratum Common Name Latin Name Status Tree Scouler’s Willow Salix scouleriana FAC Herb Orchard Grass Dactylis glomerata FACU Herb Colonial Bentgrass Agrostis capillaris FACU Herb Bracken Fern Pteridium aaquilinum FACU Herb American Vetch Vicia americana FAC 2. Soils Hydric soils are soils that formed under conditions of saturation, flooding, or ponding long enough during the growing season to develop anaerobic conditions in the upper soil horizon (NRCS). Most hydric soils exhibit characteristic morphologies that result from repeated periods of inundation or saturation that last more than a few days. Saturation or inundation, when combined with microbial activity in the soil, causes a depletion of oxygen. This anaerobic state promotes certain biogeochemical processes, such as the accumulation of organic matter, the accumulation or reduction of iron, and other reducible elements. These processes in turn create regionally specific, visible indicators, which help identify and delineate hydric soils in a field setting. These indicators are not intended to replace or modify the requirements contained in the definition of a hydric soil; they are dynamic, and open to a degree of human interpretation. Some hydric soils lack any currently listed and accepted indicators; therefore, the lack of any listed indicator does not prevent classification of a particular soil as hydric. However, such soils and their specific morphologies, are included and specified in the necessary field guides. In this wetland, hydric soils were identified using the 2013 Pocket Guide to Hydric Soil Field Indicators, prepared by the Wetland Training Institute, Inc, in conjunction with the Munsell Soil David Cohn (3057 7th St, Port Townsend WA) Wetland Report 11 | M S A Color Book, a standard reference manual prepared by the Munsell Color Company and used by the United States Department of Agriculture. Wetland test plot soil findings are as follows: Wetland 1 – Sample Plot A – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 0-6” 10YR2/1 100 N/A - - - Sandy Clay 6-9” 10YR3/1 99 10YR4/6 1 C PL Silty Clay 9-14” 10YR2/1 99 10YR6/8 1 C PL Silty Clay 14-15” 10YR3/2 93 10YR4/6 7 RM M Sandy Clay 1Type: C=Concentration, RM=Reduced Matrix, D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix Wetland 1 – Sample Plot B – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 0-13” 10YR2/1 100 N/A - - - Loam 13-14” 10YR2/1 95 10YR3/6 5 RM M Silty Clay 1Type: C=Concentration, RM=Reduced Matrix, D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix In wetland test plots A and B, hydric soils were indicated. In both upland test plots, soils were determined to be a sandy loam (See Appendix A; Data Forms). 3. Hydrology Hydrologic conditions result from the interactions between meteorological, surface and ground water, as well as physical and biological factors that influence the flow, quality, or timing of water. Therefore, the determination of the presence of hydrologic conditions focuses on the corresponding presence of factors that most directly influence the persistence of water in a specific area. Similar to the indicators used in hydric soils, and because watersheds vary tremendously across the country, regional hydrologic indicators are used to more easily identify wetlands in the field. Both wet test plots in Wetland 1 displayed the same four Primary Hydrology Indicators (water marks, algal mat or crust, inundation visible on aerial imagery, and a sparsely vegetated concave David Cohn (3057 7th St, Port Townsend WA) Wetland Report 12 | M S A surface), as well as the same three Secondary Hydrology Indicators (dry-season water table, saturation visible on aerial imagery, and geomorphic position) (Appendix A; Data Forms) All dry test plots in Wetland 1 displayed none of the Primary or Secondary Indicators for wetland hydrology (Appendix A; Data Forms). Wetland 2 (Figure 8) Paired Data Point GPS Co-ordinates: Plot A – Wet: 48.10608N 122.81250W Plot A – Dry: 48.10598N 122.81250W Plot B – Wet: 48.10610N 122.81244W Plot B – Dry: 48.10604N 122.81224W Plot C – Wet: 48.10614N 122.81287W Plot C – Dry: 48.10629N 122.81293W Plot D – Wet: 48.10638N 122.81245W Plot D – Dry: 48.10616N 122.81244W 1. Vegetation Due to limited biodiversity in a long-term agriculturally disturbed landscape and the consequent redundancy of plant species, test plots are combined below. Wetland 2 – Sample Plots A,B,C and D – Wet Stratum Common Name Latin Name Status Herb Soft Rush Juncus Effusus FACW Herb Reed Canarygrass Phalaris arundinacea FACW Wetland 2 – Sample Plots A, B, C and D – Dry Stratum Common Name Latin Name Status Tree Scouler’s Willow Salix scouleriana FAC Shrub Nootka Rose Rosa Nutkana FACU Shrub Scotch Broom Cytisus scoparius FACU Herb Narrowleaf plantain Plantago lanceolate FACU Herb American Vetch Vicia americana FAC Herb Orchard Grass Dactylis glomerata FACU Herb Colonial Bentgrass Agrostis capillaris FAC Herb Reed Canarygrass Phalaris arundinacea FACW Herb Canadian Thistle Cirsium arvense FAC Herb Common Sheep Sorel Rumex acetosella FACU David Cohn (3057 7th St, Port Townsend WA) Wetland Report 13 | M S A Herb Creeping Buttercup Ranunculus repens FACU Herb Common Dandelion Taraxacum officinale FACU 2. Soils Wetland 2 – Sample Plot A – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 0-10” 10YR2/2 99 2.5YR4/6 1 C PL Loam 10-13” 10YR4/1 75 10YR3/6 25 C M Sandy Loam 13-16” 10YR2/2 85 10YR3/6 15 - PL+M Loam3 1Type: C=Concentration, RM=Reduced Matrix D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix 3Depleted matrix present with redox in some pore linings Wetland 2 – Sample Plot B – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 0-8” 10YR2/1 97 10YR5/6 3 C PL Loam 8-16” 10YR3/2 95 10YR4/6 5 C PL Clay Loam 1Type: C=Concentration, RM=Reduced Matrix D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix Wetland 2 – Sample Plot C – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 0-6” 10YR2/1 100 N/A - - - Clay Loam M 10YR2/1 98 10YR5/6 2 RM PL Silty Clay 9-14” 10YR2/1 99 10YR6/8 1 C PL Silty Clay 14-15” 10YR3/2 93 10YR4/6 7 RM M Sandy Clay 1Type: C=Concentration, RM=Reduced Matrix D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix Wetland 2 – Sample Plot D – Wet Depth (inches) Matrix Redox Features Texture Color % Color % Type1 Loc2 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 14 | M S A 0-5” 10YR2/1 100 N/A - - - Silty Loam 5-15” 2.5YR5/1 70 10YR3/6 30 RM M Silty Clay 1Type: C=Concentration, RM=Reduced Matrix D=Depletion, CS=Covered or Coated Sand Grains 2Location: PL=Pore Lining, M=Matrix In wetland test plots A, B, C and D hydric soils were indicated. In all upland test plots, soils were determined to be a sandy loam (See Appendix A). 3. Hydrology Wet test plots in Wetland 2 displayed most of the same three Primary Hydrology Indicators (algal mat or crust, iron deposits, inundation visible on aerial imagery); select individual wet test sites also showed oxidized rhizospheres along living roots. Wet test plots in Wetland 2 displayed most of the same two Secondary Hydrology Indicators (saturation visible on aerial imagery, geomorphic position); one individual wet test site also showed water stained leaves (Appendix A; Data Forms). All dry test plots in Wetland 2 displayed none of the Primary or Secondary Indicators for wetland hydrology (Appendix A; Data Forms). VI. Wetland Rating The intent of a rating is to provide a basis for protecting and managing wetlands; this is accomplished assessing a wetland’s valued functions and resources -- ecological, economic, or aesthetic. In the process of a rating, a wetland is given a score according its comparison to standardized categories and specific attributes such as rarity, sensitivity to disturbance, and the functions they provide. Based upon this score, the wetland is then placed in Category 1 through Category 4; the former is a wetland of greatest value, based upon the rating rubric’s characterization of its inherent value, while the latter is a wetland of least value. A specific buffer, identified in accordance with each individual wetland’s rating score, is then recommended, using standardized and established guidelines. While all wetlands provide some functions and resources that are valued, be they ecological, or aethestic, they also vary widely; consequently, the recommended buffer, identified in accordance with each individual wetland’s rating score, reflects that particular wetland and its specific qualities. Of the four wetland areas investigated on the property, each one was determined to fall into the class of Depressional. According to the Washington State Wetland Rating System for Western Washington 2014 Update (Hruby 2014), Depressional wetlands occur in topographic depressions where the elevation of the surface within the wetland is lower than in the surrounding landscape. The shapes of Depressional wetlands vary, but in all cases, the movement of surface water and shallow subsurface water is toward the lowest point in the depression. The depression may have David Cohn (3057 7th St, Port Townsend WA) Wetland Report 15 | M S A an outlet, but the lowest point in the depression is somewhere within the boundary, not at the outlet. The wetlands were rated using the Washington State Wetland Rating System for Western Washington (2014 Update). When the final wetland category is determined, it is based on either functions or special characteristics (whichever is higher). The rating system for special characteristics was designed to differentiate among wetlands based on their sensitivity to disturbance, their significance, their rarity, the ability to replace them and the functions they provide. Wetlands identified with special characteristics are rated by function in addition to special characteristics because in some cases there are additional buffer widths due to a very high score in one of the three functions listed below. In accordance with City of Port Townsend Municipal Code Chapter 19.05.110(E), Buffers and Setbacks, and Jefferson County Code, Table 18.22.330(3), Wetland Categories, Rating Scores and Buffer Widths, rating categories are divided into four grades, in order of descending buffer size: Category I with total scores of 23-27; Category II with total scores of 20-22; Category III with total scores of 16-19; Category IV with total scores of 9-15. The category of wetland based on functions is rated by the following parameters: 1) Water Quality Functions: a wetland’s potential to improve water quality a) Potential of the wetland to improve water quality of and surrounding the wetland. b) Potential of the wetland to support the water quality function of and surrounding the wetland. (This parameter regards the ability of the wetland to mitigate for and lessen the toxicity of potential pollutants on and surrounding the wetland). c) Potential of local water quality improvement provided by the wetland to benefit adjacent waters. 2) Hydrologic Functions: a wetland’s potential to improve hydrology a) Potential to reduce flooding and erosion b) Potential of wetland to support the hydrologic functions of the site (this parameter regards the ability of the wetland in reducing the toxicity of potential pollutants on- site and up-gradient of the wetland). c) Potential of wetland to help capture surface water that might otherwise flow down- gradient into areas where flooding might occur. 3) Habitat Functions: a wetland's potential to provide important habitat/ecological value a) Potential of the wetland to provide habitat for natural living systems. b) Potential of the accessible and undisturbed habitat and land use intensity surrounding the wetland to support the habitat functions of the site. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 16 | M S A c) Value of wetland to society; degree to which it provides habitat for species valued in laws, regulation, or policy. Wetland 1 – Rated Category IV – Buffer of 40 Feet (Figure 7) This wetland, which is found in the National Wetlands Inventory (Figure 2), is approximately 0.30 acres. It is relatively homogenous in shape and boundary, amidst a field of agricultural land; MSA wetland specialists surmised it must have served as a livestock watering hole at some point. As there are no Special Rating characteristics within the wetland and its associated 330 foot surroundings, the wetland was rated, based on its functions, to be a Category IV Depressional wetland (Appendix A; Data Forms). As the property owners have expressed interest in the northern central section as a possible building site, the buffer was established according to the City of Port Townsend Municipal Code 19.05.110(E) for moderate impact land uses (single-family residential use on parcels larger than one acre) at 40 feet (Figure 1). As defined earlier in this report, Wetland 1 was also delineated; this delineation boundary was used to establish the baseline for the 40-foot buffer. Wetland 2 – Rated Category IV – Buffer of 40 Feet (Figure 8) This wetland, which is found in the National Wetlands Inventory (Figure 2), is approximately 0.47 acres. It is approximately horseshoe in shape and generally homogenous of boundary, amidst a field of agricultural land; as it directly abuts the existing farmhouse, MSA wetland specialists surmised it may have been further developed as a recreational pond. As there are no Special Rating characteristics within the wetland and its associated 330-foot surroundings, the wetland was rated, based on its functions, to be a Category IV Depressional wetland (Appendix A; Data Forms) As the property owners have expressed interest in the northern central section as a possible building site, and as Wetland 2 currently abuts the existing single farmhouse, the buffer was established using City of Port Townsend Municipal Code 19.05.110(E) for moderate impact land uses (single-family residential use on parcels larger than one acre) at 40 feet (Figure 1). As defined earlier in this report, Wetland 2 was also delineated; this delineation boundary was used to establish the baseline for the 40-foot buffer. Wetland 3 – Rated Category 1V – Buffer of 60 Feet (Figure 9) This wetland, which is found in the National Wetlands Inventory (Figure 2), is approximately 1.48 acres. It is relatively elongate in shape, running from northwest-to-southeast and its boundary is relatively homogenous. The southern portion of this wetland is approximately 30 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 17 | M S A feet from 5th Street, a neighboring residential road, as well as being approximately 100 feet from a neighboring single-dwelling home. According to aerial photographs and satellite images from the past, this area is generally wetter than Wetlands 1 and 2; the southern property line is generally lower in elevation than the northern property line, and topography slopes in a generally southeast direction. As there are no Special Rating characteristics within the wetland and its associated 330-foot surroundings, the wetland was rated, based on its functions, to be a Category IV Depressional wetland. Given the location of Wetland 3, this buffer was established according to the City of Port Townsend Municipal Code 19.05.110(E) (updated for use with the 2014 rating system) for high impact land use wetlands without a delineated boundary (single-family residential use on parcels larger than one acre; public roads) at 50 feet (Figure 1); an additional 10 feet was added to this buffer based to reach the slightly more conservative buffer of 60 feet recommended by Jefferson County Code table 18.22.330(2). The boundary for this wetland buffer was found using field vegetative indicators, aerial photography, satellite imagery, and GPS. Wetland 4 – Unrated at Property Owners Request – Buffer of 350 Feet (Figure 10) This wetland is approximately 4.55 acres. It is relatively elongate in shape; located in the western 1/8th of the property, it runs approximately northwest-to-southeast. A smaller wetland, along with a freshwater pond, is found in the National Inventory of Wetlands. Upon field research and examination of aerial photographs and satellite images, MSA wetland specialists determined that the smaller wetland and the freshwater pond are hydrologically contiguous and form the ends of a larger wetland corridor (4.55 acres). The southeastern end of this wetland abuts the southern property line; the northwestern end abuts the northwestern property line. According to aerial photographs, satellite images, and topographical maps, flow moves in a generally southeast direction. The area is generally agricultural grassland, with scattered scrub-shrub forest. This wetland was not rated; however, based on MSA specialists experience with the rating system in general, as well as the ability to compare it to the three other Category IV wetlands on the property, it is very like that Wetland 4 would be categorized as a Category IV as well. On request of the property owner, with thought to preserve the area in its current state for potential future easement, a buffer was established based on Jefferson County Code table 18.22.330(2) specifications for a Category 1 wetland of high impact land use without a delineated boundary: 350 feet. The boundary for this wetland buffer was found using field vegetative indicators, aerial photography, satellite imagery, and GPS. VII. Proposed Site Restoration/Developmental Changes As stated earlier in this report, the current property owners desire to direct future land use within these ten parcels toward a more sustainable, lower impact category than recent agricultural history. Part of that shift will include physical changes on the landscape (removal/decommission of certain structures, and construction/installation of certain other structure). As part of this David Cohn (3057 7th St, Port Townsend WA) Wetland Report 18 | M S A wetland report below is an assessment of how those changes will affect the wetlands and wetland buffers on the property. Existing Farm House Removal Currently, the onsite dwelling infringes on the buffer of Wetland 2 (Figure 5). Therefore, it is proposed that instead of being rehabilitated from its current dilapidated state, the current farmhouse be removed. The potential impacts of the removal of this existing structure to Wetland 2 and associated buffer are listed below. A. Temporary Impacts Since the current house is within the established buffer of Wetland 2, its removal will involve potential temporary negative impacts to the wetland buffer and potentially the wetland itself. Potential negative impacts include but are not limited to: i. Compaction of soils within wetland buffer and potentially wetland; ii. denudation of vegetation within wetland buffer and potentially wetland; iii. increased runoff and siltation into wetland due to denudation; iv. decreased water quality and aquatic habitat due to increased siltation; v. presence of pollutants/fuels in wetland buffer or wetland, resulting from either removal of existing home; vi. presence of staged materials and debris within wetland buffer; vii. Presence of opportunistic invasive vegetation (ex: Scotch broom, reed canary grass, etc.) in disturbed area after removal of existing structure. B. Mitigation of Temporary Impacts The following measures are recommended to reduce the potential negative temporary impacts listed above: i. Demolition and removal of the existing home will take place during the dry season, when substrate will be more resistant to compaction. Use of heavy machinery will be kept to a necessary minimum within wetland buffer and wetland. If soil compaction occurs, soil turning/aeration will occur before any necessary planting (see ii). ii. Use of heavy machinery will be kept to a necessary minimum within wetland buffer and wetland. Where necessary, should the use of heavy machinery for demolition result in destruction of existing vegetation, area will be planted with appropriate native wetland plantings after removal process is complete. This will include the section of the wetland buffer that is now occupied partially by the current structure. iii. Demolition and removal of the existing home, will take place during the dry season; therefore, increased runoff due to increased bare soil/decreased vegetation will be minimal/non-existent. Should there be unexpected precipitation during the demolition/removal process, silt fencing will be placed between the action area and the wetland to reduce any additional inflow of sediment into the wetland. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 19 | M S A iv. For the reasons listed above in (iii), it is unlikely that any decrease in water quality or aquatic habitat will occur due to increased siltation. Additionally, because the work will take place during the dry season, it is likely that the wetland (designated a seasonal wetland) will be dry, and therefore not suffer a negative impact to water quality. v. Any fuels necessary, for heavy machinery that has been deemed necessary for demolition/removal of the current house, will be stored outside of the wetland and the wetland buffer. Said fuels will be stored in sealable, industry-standard containers and stored in a dedicated covered area out of the sun, to avoid any possible expansion/bursting due to excess heat. Special care will be taken to avoid any discharge of pollutants into the wetlands and/or wetland buffers. All equipment will be checked for leaks before entering the property. If any spill should occur, it will be cleaned up immediately. vi. All materials/equipment, during both the demolition/removal process, will be stored in dedicated areas outside the wetland and wetland buffer, to be ultimately either used or removed from site. Any waste products/remnant building materials from the demolition will be stored out of the wetland buffer, to be ultimately removed from site and disposed of at an approved offsite location. vii. After removal of existing structure, newly available wetland buffer will be aerated (see i) and planted with native wetland vegetation (see ii), to naturally suppress and out-compete opportunistic non-native competing vegetation. C. Long-Term Impacts Long-term impacts of removing an outdated farmhouse from within a wetland buffer are as follows: i. A reduction in the total impervious surface within the buffer of Wetland 2 from approximately 765 square feet to 0 square feet; ii. An increase in native vegetated area within the wetland buffer by approximately 765 square feet; iii. Increased water quality within wetland due to increased filtration capacity of buffer; iv. An increase in distance between human impact (house) and Wetland 2 from approximately 3 feet to approximately 40 feet; v. More available habitat (invertebrate, amphibian, avian); D. Summary of Old Farmhouse Demolition and Removal Impacts The removal of an existing farmhouse from within the buffer of Wetland 2 carries certain risks and potential impacts, most of them being short-term. As listed above, the materials, equipment, and fuels used to remove the existing structure could potentially have negative impact on Wetland 2 and its associated buffer. With best management and building practices, as well as the mitigation measures listed above, there will be a net shift of approximately 765 square feet within the established wetland buffer from impervious, high-impact land use to pervious, natively vegetated, low-impact land use. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 20 | M S A There will be no net loss of habitat function and value within the wetland buffer due to the removal of the existing structure. Construction of replacement farmhouse To replace the old farmhouse after its removal from the buffer of Wetland 2, a new construction is proposed. A building designer identified an alternative site that will result in a new build footprint completely outside the established buffer of Wetland 2 (Figure 6), as well as all other wetlands on the property. The new structure measures 40 feet x 48 feet, equaling 1920 square feet. It is set back 40 feet to the north of the existing driveway, and 50 feet (40-foot buffer + 10- foot setback) directly south of mapped Wetland 2. There will be an approximately 50 feet x 50 feet gravel parking area contiguous to the proposed new structure. A. Temporary Impacts i. Compaction of soils within wetland buffer and potentially wetland; ii. denudation of vegetation within wetland buffer and potentially wetland; iii. increased runoff and siltation into wetland due to denudation; iv. decreased water quality and aquatic habitat due to increased siltation; v. presence of pollutants/fuels in wetland buffer or wetland resulting from construction of new home outside buffer; vi. presence of staged construction materials and debris within wetland buffer; vii. presence of opportunistic invasive vegetation (ex: Scotch broom, reed canary grass, etc.) in disturbed area after construction disturbance. B. Mitigation of Temporary Impacts The following measures are recommended to reduce the potential negative temporary impacts listed above: i. Construction of the new structure will take place during the dry season, when substrate will be more resistant to compaction. Use of heavy machinery will be restricted from operating within wetland buffer wherever possible; if absolutely necessary, use of heavy machinery will be kept to a minimum within wetland buffer. Use of heavy machinery will be completely restricted from operating within wetland. If soil compaction occurs where heavy machinery is used, soil turning/aeration will occur before any necessary planting (see ii). ii. Use of heavy machinery will be restricted from operating within the wetland buffer wherever possible; if absolutely necessary, use of heavy machinery will be kept to a minimum within wetland buffer. Use of heavy machinery will be completely restricted from operating within wetland. Where necessary, should the use of heavy machinery for construction result in destruction of existing vegetation, area will be aerated (see i) and planted with appropriate native wetland plantings after removal process is complete. iii. Construction of new structure will take place during the dry season; therefore, increased runoff due to increased bare soil/decreased vegetation will be minimal/non-existent. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 21 | M S A However, as precaution, silt fencing will be placed between the action area and the wetland to reduce any additional inflow of sediment into the wetland. iv. For the reasons listed above in (iii), it is unlikely that any decrease in water quality or aquatic habitat will occur due to increased siltation. Additionally, because the work will take place during the dry season, it is likely that the wetland (designated a seasonal wetland) will be dry, and therefore not suffer a negative impact to water quality. v. Any fuels necessary, for heavy machinery that has been deemed necessary for construction of the new structure, will be stored outside of the wetland and the wetland buffer. Said fuels will be stored in sealable, industry-standard containers and stored in a dedicated covered area out of the sun, to avoid any possible expansion/bursting due to excess heat. Special care will be taken to avoid any discharge of pollutants into the wetlands and/or wetland buffers. All equipment will be checked for leaks before entering the property. If any spill should occur, it will be cleaned up immediately using industry standards and approved disposal. vi. All materials/equipment used during the construction of the proposed structure will be stored in dedicated areas outside the wetland and wetland buffer, to be ultimately either used or removed from site. Any waste products/remnant building materials from the demolition will be stored out of the wetland buffer, to be ultimately removed from site and disposed of at an approved offsite location. vii. After completion of proposed structure, all disturbed areas will be aerated (see i) and planted with native wetland vegetation (see ii), to naturally suppress and out-compete opportunistic non-native competing vegetation. C. Long-Term Impacts i. Vegetation – Wetland and Upland Areas The property is dominated with Agrostis capillaris, Dactylis glomerata, and Phalaris arundinacea. As the proposed construction site is on a historic building footprint (dating from before the currently standing farmhouse), the land has already been excavated and is dominated by these same plant species. Vegetation within the building footprint will be removed but all other native vegetation onsite will remain. Because the proposed construction footprint is outside the wetland and its associated buffer, no wetland vegetation will be disturbed. ii. Wildlife Wildlife barriers or loss of connectivity are not expected to occur from the proposed building which will be in an area of the property closest to an existing driveway, and near to the current house site. The majority of the 77 acres will be unaffected by the proposed structure. Additionally, the area to the west of the cumulative parcels will eventually be utilized as a green belt, preserved for community access. Open space will also be maintained between the proposed residence and developments on neighboring properties that can easily be traversed by wildlife. iii. Wetland Function Development along wetland buffers can alter physical processes and ecological functions, including potential adverse effects on sedimentation, erosion/accretion, and water quality. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 22 | M S A Increased run-off from the building area or any increase in impervious surfaces can increase the potential for erosion. iv. Noise Some temporary increases in ambient noise will be generated during development of the property. Noise generated during construction is not expected to impact wildlife or ecosystem function in the long term. v. Water Quality Increased run-off from the building area or other impervious surfaces could occur with development on the property. Avoidance and minimization measures described in the following section include reducing the square footage of new impervious surfaces and locating the development away from the stream. D. Avoidance and Mitigation Although the proposed construction footprint is outside any wetland buffers, it is close in proximity. Therefore, General Protection Standards for property containing a designated conservation area or its buffer (as described in JCC 18.22.270 and COPT municipal code) will be employed: • Drainage and Erosion Control: a silt fence will be installed around the perimeter of the development during construction to prevent loose soil from entering the stream and stream buffer. • Grading: The parcel is relatively flat and no significant regrading should occur. • Vegetation Retention: o Clearing of any trees, understory and stumps will only occur where necessary to complete the proposal involved in the project application. o Trees and understory lying outside of road rights-of- way and utility easements shall be retained (except for hazard trees) during clearing for roadways and utilities; provided, that understory damaged during approved clearing operations may be pruned. o Damage to vegetation during initial clearing activities shall be minimized by directional felling of trees to avoid critical areas and vegetation to be retained. Additional avoidance and minimization measures recommended for the applicant as part of this HMP include: • A temporary barrier fence will be placed during construction along development area boundaries to prevent machinery and other equipment from disturbing the stream buffer. • Trees felled for construction will be placed on site, parallel to stream to mark the buffer boundary on the north side of stream. E. Summary of Replacement Farmhouse Construction Impacts The construction of a replacement to the existing farmhouse carries certain risks and potential impacts, most of them being short-term. As listed above, the materials, equipment, and fuels used to construct the proposed structure could potentially have negative impacts on Wetland 2 and its associated buffer. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 23 | M S A With best management and building practices, as well as the fact the proposed construction will be entirely outside the delineated wetland and established buffer, the new farmhouse falls within the aim of shifting from high-impact land use to overall low-impact land use. It is anticipated that there will be no net loss of habitat function and value within the wetland buffer due to the proposed construction. Decommission of Existing Septic System The septic system of the existing home will be decommissioned (Figure 5), as the existing structure associated with the system is being demolished and removed. The current system consists of a septic tank, which is approximately 10 feet outside the buffer of Wetland 2, a former drainfield for the system, and an existing drainfield, both of which are within the buffer for Wetland 2. The decommission process, which is standard within the industry, consists of abandonment by pumping the tank dry, removing the lid, and filling with soil. A receipt from the pumper and a certification of septic tank abandonment will be provided, using a standard form provided by the septic designer Creative Solutions. The old drainfields will be abandoned, without need to remove/cover any aspects. A. Short-Term Impacts Potential short-term effects of decommissioning the existing septic system are as follows: i. Compaction of soils within wetland buffer and potentially wetland; ii. denudation of vegetation within wetland buffer and potentially wetland; iii. increased runoff and siltation into wetland due to denudation; iv. decreased water quality and aquatic habitat due to increased siltation; v. presence of pollutants/fuels in wetland buffer or wetland resulting from construction of new home outside buffer; vi. presence of staged construction materials and debris within wetland buffer; vii. presence of opportunistic invasive vegetation (ex: Scotch broom, reed canary grass, etc.) in disturbed area after construction disturbance. B. Mitigation of Short-Term Impacts Because the existing septic tank (the only part of the system that will require heavy machinery) lies within the action area associated with demolishing and removing the existing structure, the mitigation measures recommended to reduce impact are identical to those recommended in VII.1.B. C. Long-Term Impacts i. A cessation of the use of partial wetland buffer for septic drainfield; ii. a decrease in nutrient input to wetland, due to (i); David Cohn (3057 7th St, Port Townsend WA) Wetland Report 24 | M S A iii. a decrease in eutrophication within wetland, due to (i); iv. improved water quality within wetland due to increased filtration capacity of buffer; v. improved water quality downstream within watershed vi. More available habitat (invertebrate, amphibian, avian); D. Summary of septic system decommission and abandonment The decommission and abandonment of the existing septic system, located approximately 10 feet from the buffer for Wetland 2 carries certain risks and potential impacts, most of them being short-term. As listed above, the materials, equipment, and fuels used to decommission the septic system could potentially have negative impact on Wetland 2 and its associated buffer. With best management and building practices, as well as the mitigation measures listed above, there will be a net reduction of high-impact, in-ground land use to natively vegetated, low-impact land use. By abandoning the existing system, there will be a cessation of nutrient-rich influx into the established wetland buffer and wetland, which will in turn improve water quality both locally and downstream within the watershed. There will be no net loss of habitat function and value within the wetland buffer due to the decommission and abandonment of the existing structure. Installation of New Septic System To support the new farmhouse, a new septic system is proposed. A septic designer identified an alternative site that will result in a two-part septic system: a pumphouse and temporary storage tank to the west of the proposed new farmhouse, and a combination of biofilter units to the northwest of the existing farmhouse footprint, along with a surrounding drainfield. All proposed septic components are located outside the established buffer of Wetland 2 (Figure 5). The new pumphouse and temporary storage unit has a capacity of 1000 gallons. The larger storage/filter area to the northwest consists of 4 initial Glendon biofilter M31 units with a absorption capacity of 206 square feet each. The surrounding drainfield is a 200% initial and reserve drainfield measuring 4,378 square feet. For details, see separate septic permitting document associated with this location. For specific details regarding the system, please see separate septic proposal prepared for this property. A. Short-Term Impacts Potential short-term effects of decommissioning the existing septic system are as follows: i. Compaction of soils within wetland buffer and potentially wetland; ii. denudation of vegetation within wetland buffer and potentially wetland; iii. increased runoff and siltation into wetland due to denudation and presence of drainfield; iv. decreased water quality and aquatic habitat due to increased nutrient influx from drainfield; David Cohn (3057 7th St, Port Townsend WA) Wetland Report 25 | M S A v. presence of pollutants/fuels in wetland buffer or wetland resulting from installation of new septic system; vi. presence of staged construction materials and debris within wetland buffer; vii. presence of opportunistic invasive vegetation (ex: Scotch broom, reed canary grass, etc.) in disturbed area after construction disturbance. B. Mitigation Recommendations for Reduction of Short-Term Impacts The following measures are recommended to reduce the potential negative temporary impacts listed above: i. Construction of the new structure will take place during the dry season, when substrate will be more resistant to compaction. For the installation of the 1000-gallon storage tank and pumping station, use of heavy machinery will be restricted from operating within wetland buffer wherever possible, and completely restricted from operating within wetland. If soil compaction occurs where heavy machinery is used, soil turning/aeration will occur before any necessary planting (see ii). For the installation of the larger component of the septic system (the four initial Glendon biofilter units and the 200% drainfield), the distance from the wetland is approximately 120 feet and well outside the buffer; therefore, no negative impacts are expected. ii. Use of heavy machinery will be restricted from operating within the wetland buffer wherever possible; if absolutely necessary, use of heavy machinery will be kept to a minimum within wetland buffer. Use of heavy machinery will be completely restricted from operating within wetland. Where necessary, should the use of heavy machinery for construction result in destruction of existing vegetation, area will be aerated (see i) and planted with appropriate native wetland plantings after removal process is complete. iii. Construction of new structure will take place during the dry season; therefore, increased runoff due to increased bare soil/decreased vegetation will be minimal/non-existent. However, as precaution, silt fencing will be placed between the action area and the wetland to reduce any additional inflow of sediment into the wetland. Regarding increased nutrient influx/runoff into wetland resulting from installation of septic system, because of the size (200%) and location of the drainfield, it is unlikely that any additional nutrient loading will affect the wetland. iv. For the reasons listed above in (iii), it is unlikely that any decrease in water quality or aquatic habitat will occur due to increased siltation or increased nutrient loading. Additionally, because the work will take place during the dry season, it is likely that the wetland (designated a seasonal wetland) will be dry, and therefore not suffer a negative impact to water quality due to the installation disturbance. v. Any fuels necessary, for heavy machinery that has been deemed necessary for construction of the new structure, will be stored outside of the wetland and the wetland buffer. Said fuels will be stored in sealable, industry-standard containers and stored in a dedicated covered area out of the sun, to avoid any possible expansion/bursting due to excess heat. Special care will be taken to avoid any discharge of pollutants into the wetlands and/or wetland buffers. All equipment will be checked for leaks before entering the property. If any spill should occur, it will be cleaned up immediately using industry standards and approved disposal. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 26 | M S A vi. All materials/equipment used during the construction of the proposed structure will be stored in dedicated areas outside the wetland and wetland buffer, to be ultimately either used or removed from site. Any waste products/remnant building materials from the demolition will be stored out of the wetland buffer, to be ultimately removed from site and disposed of at an approved offsite location. vii. After completion of proposed structure, all disturbed areas will be aerated (see i) and planted with native wetland vegetation (see ii), to naturally suppress and out-compete opportunistic non-native competing vegetation. C. Long-Term Impacts i. Vegetation – Wetland and Upland Areas The area where the new septic will be installed (both smaller storage tank/pumping station, and larger multiple tank area/drainfield) is dominated with Agrostis capillaris, Dactylis glomerata, and Phalaris arundinacea. Vegetation within the proposed installation footprint will be removed but all other native vegetation onsite will remain. Because the proposed installation footprint is outside the wetland and its associated buffer, no wetland vegetation will be disturbed, therefore no long-term impacts to wetland are predicted. ii. Wildlife Wildlife barriers or loss of connectivity are not expected to occur from the proposed septic installation which will be 1) in areas of the property closest to an existing driveway, and 2) on a hillside that is currently covered in grass species. After the installation and revegetation, installation areas will support the same wildlife function as beforehand. The majority of the 77 acres will be unaffected by the proposed structure. Additionally, the area to the west of the cumulative parcels will eventually be utilized as a green belt, preserved for community access, which will be enabled by focusing construction/impact on the eastern section of the property, away from the proposed green belt. Open space will also be that can easily be traversed by wildlife. iii. Wetland Function Because of the location of the installations, and the oversize capacity of the drainfield, there is no negative impact predicted to any wetlands or wetland buffers on the property. iv. Noise Some temporary increases in ambient noise will be generated during installation of the septic system. Noise generated during construction is not expected to impact wildlife or ecosystem function in the long term. v. Water Quality Increased run-off from the building area or other impervious surfaces could occur with heavy machinery being used for installation of the new septic system on the property. Avoidance and minimization measures described in the following section include reducing the square footage of new impervious surfaces and locating the development away from the stream. D. Avoidance and Mitigation David Cohn (3057 7th St, Port Townsend WA) Wetland Report 27 | M S A Although the proposed septic installation is outside any wetland buffers, it is relatively close in proximity. Therefore, General Protection Standards for property containing a designated conservation area or its buffer (as described in JCC 18.22.270 and COPT municipal code) will be employed: See above (VII.2.D) In addition, as sourced from the septic design firm (Creative Design Solutions), the following measures will be observed: i. All systems shall meet the setback requirements set forth in the current Washington Stste WAC regulations for the on-site sewage systems, “Rules and Regulations of the state board of health”, or current local health division/department regulations. ii. The contractor shall coordinate between product suppliers to ensure that their respective products are constructed to be compatible with each other. iii. All concrete tanks shall be made watertight iv. All pipes shall be thoroughly flushed prior to adjustment and testing and installation. v. All construction materials shall be stored and installed in a clean manner and shall be support above ground prior to installation. vi. Unless being worked on at that moment, all pipe openings shall be covered sufficiently to prevent the entrance of undesirable materials. vii. No organic material will be allowed in any of the fill material specified in designer’s plans. viii. The contractor shall document any and all changed in or deviations from the provided plans. E. Summary of Proposed Septic System Installation The construction of a replacement septic system carries certain risks and potential impacts, most of them being short term. As listed above, the materials, equipment, and fuels used to construct the proposed septic system could potentially have negative impacts on Wetland 2 and its associated buffer. With best management and building practices, as well as the fact the proposed septic system will be entirely outside the delineated wetland and established buffer, the new system falls within the aim of shifting from high-impact land use to overall low-impact land use. It is anticipated that there will be no net loss of habitat function and value. IIX Summary This wetland report documents the presence of four wetlands on the property of 3057 7th St, Port Townsend WA. Two were delineated and rated, one was rated, and one was mapped. All four were given buffers; three as according to specifications in City of Port Townsend Municipal Code 19.05.110(E) for Category IV wetlands, and one according to specifications in Jefferson County Code table 18.22.330(2) for a Category 1 wetland. The location and size of the wetlands and their associated buffers is defined both in Appendix A, as well as Figure 1. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 28 | M S A This report also considers several developmental changes to that same property, proposed to both improve livability and remediate years of high-impact, agricultural use. By adhering to best construction/management practices, and by following mitigation recommendations set forth in this report, it is believed that no net loss of habitat value or function will result from these changes. Respectfully submitted, Marine Surveys and Assessments ______________________________ James Ialeggio Staff Wetland Biologist ______________________________ Amy Leitman Senior Biologist, Owner David Cohn (3057 7th St, Port Townsend WA) Wetland Report 29 | M S A IX. References Cowardin, LM., V. Carter, F.C. Golet and E.T. LaRoe, 1979. Classification of Wetlands and Deepwater Habitats of the United States. U.S. Fish and Wildlife Service document FWS/OBS- 79/31. 84pp. Washington D.C. Hitchcock, L.C. and A. Cronquist, 1973. Flora of the Pacific Northwest. University of Washington Press. 730 pp. Hruby, T., 2014. Washington State Wetland Rating System for Western Washington - Revised. Washington State Department of Ecology Publication #04-06-025. Jefferson County Unified Development Code, Title 18, Article VII. July 2006. Munsell Soil Color Charts, 1998. GretagMacbeth. North Windsor, New York. Pocket Guide to Hydric Soil Field Indicators Based on Field Indicators of Hydric Soils in the United States v. 7.0 with Updates, Prepared by Wetland Training Institute, Inc., 2013 Regional Supplement to the Corps of Engineers Wetland Delineation Manual (1987): Western Mountains, Valleys, and Coast Region (Version 2.0), US Army Corps of Engineers, May 2010. Speare-Cooke, S., 1997. A Field Guide to the Common Wetland Plants of Western Washington and Northwestern Oregon. Seattle Audubon Society. 417 pp. US Department of Agriculture, Soil Conservation Service. Soil Survey of Jeffeson County Area, Washington. December, 2013 US Fish and Wildlife Service. National Wetlands Inventory. 1978 Washington State Department of Ecology, 1997. Washington State Wetland Indentification and Delineation MAnual. Ecology Publication #96-94, Olympia, Washington. David Cohn (3057 7th St, Port Townsend WA) Wetland Report 30 | M S A X. Figures Figure 1. Site and Vicinity Map David Cohn (3057 7th St, Port Townsend WA) Wetland Report 31 | M S A Figure 2. National Wetland Inventory (NWI) Map David Cohn (3057 7th St, Port Townsend WA) Wetland Report 32 | M S A Figure 3. NRCS Soil Survey David Cohn (3057 7th St, Port Townsend WA) Wetland Report 33 | M S A Figure 4. Vegetation Line Between Upland and Wetland David Cohn (3057 7th St, Port Townsend WA) Wetland Report 34 | M S A Figure 5. Layout of Proposed Plan for New Farmhouse David Cohn (3057 7th St, Port Townsend WA) Wetland Report 35 | M S A Figure 6. Proposed Farmhouse Design for City of Port Townsend David Cohn (3057 7th St, Port Townsend WA) Wetland Report 36 | M S A Figure 7. Wetland 1 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 37 | M S A Figure 8. Wetland 2 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 38 | M S A Figure 9. Wetland 3 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 39 | M S A Figure 10. Wetland 4 David Cohn (3057 7th St, Port Townsend WA) Wetland Report 40 | M S A XI. Appendix: Rating Images, Data Forms David Cohn (3057 7th St, Port Townsend WA) Wetland Report 41 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 42 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 43 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 44 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 45 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 46 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 47 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 48 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 49 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 50 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 51 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 52 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 53 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 54 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 55 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 56 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 57 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 58 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 59 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 60 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 61 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 62 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 63 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 64 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 65 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 66 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 67 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 68 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 69 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 70 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 71 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 72 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 73 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 74 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 75 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 76 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 77 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 78 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 79 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 80 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 81 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 82 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 83 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 84 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 85 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 86 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 87 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 88 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 89 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 90 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 91 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 92 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 93 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 94 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 95 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 96 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 97 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 98 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 99 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 100 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 101 | M S A David Cohn (3057 7th St, Port Townsend WA) Wetland Report 102 | M S A