HomeMy WebLinkAbout2002.07.23 - Wetland Critical Area Study for George Barber and Pacific Funding-t
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i W. David Logg, CPSS and Wetland Specialist
P. O. Box 2347, PortAngeles, WA 98362
Phone:36O457-3920-Far 360457O131
Email: wd ploglgiy@olypen. com
Web Page: Olypen.com/wd ploggt
Specializing in:
Soil M apping and Classification
Soil lnvestigations- Soil Site Analysis
Wetland Mapping Delineation and Restoration
Soil Redox Potential Monitoringfor Hydric Soil Determination
Certif ierl
Loggy Soil and Wetland Consulting
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Proposed Project:
Project Name:
Reference:
Prepared for:
Prepared By:
WETLAND CRITICAL AREA
STUDY
PREPAIRED FORTFIE
PROPERTY OF
George Barber and Pacific Funding Corp
Located in portion ofthe
Section 09, T.30N, R01W W.M.
Wetland Critical Area Study
Barber and PFC
Request for Additional Information;
LUP02-011, Pacific Funding Corp.
City of Port Townsend
Department of Building and Community l)evelopment
George Barber and Pacific Funding Corp
P.O. Box 1449
Seattle, WA 98115
Loggy Soil and Wetland Consulting
W. David Loggy, CPSS
P.O.Box2347
Port Angeles, WA 98362-0303
(360) 4s7-3e20
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July 23,2002
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TABLE OF CONTSNTS
Introduction:
Property Description
Existing Conditions and Use:
Purpose and Approach:
Wetland Determination
Hydrophyti c Vegetation
Hydric Soils
Wetland Hydrology
Plant Identification and Classification
Wetlands Characteristics
General Waland Conditions
Wetland-A
Vegetation
Soils
Hydrology
Wetland AA
Vegetation
Soils
Hydrology
Wetland B
Vegetation
Soils
Hydrology
Wetland Conclusions
Appendices
Appendix A: Field Data Sheets and Forms
Appendix B: Plant List Of Plants Identified On The Wetlands
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Page L
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Page2-3
Page2-4
Page 4-5
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INTRODUCTION
Atthe request of Mr. Jim Lindsay (Harbor Development Services, LLC) during a project area
field review and on behalf of Mr. George Barber and Pacific Funding Corporation (PFC), Loggy Soil
and Wetland Consulting conducted a critical area study on three wetland areas adjacent to the subjects
project area. Atthe direction of Jeff Randall, Director of Building and Community Development for
the City of Port Tovmsend, only enough wetland boundary delineation hadto occurto determine
whether resulting wetland buffers would occur on the subject property. Three isolated, depressional
wetlands were identified. Two depressional wetlands were partially delineated and were classified as
Class III Wetlands and one very small wetland was completely delineated and classified as a Class
IV. The area of wetlands were classified and delineated as according to and required by the Port
Townsend Municipal Code @TMC), Chapter 19.05, Sensitive area 5 (19.05.1l0 (B) (3) and will have
buffer widths assigned to the wetlands based on their classes according to 19.05.110 (E) (3).
PROPERTY DESCRIPTION
Location:
The Barber & PFC property is located in Section 09, Township 30 North, Range 01 West,
W.M., Jefferson County, Washington. The Southem boundary ofthe property is bordered by
Highway 20 and Discovery Road cuts throughthe West andNorth boundaries ofthe property.
Approximately one quarter (U ) of the property is on the Nor*rwest Side of Discovery Road. The
.rrtir" prop.rty is in forested conditions. It canbe reached from Port Townsend by taking Highway
20 to Glen Cove Road. Tum right on Glen Cove Road andthentum immediately right onto
Discovery Road. Traveling from the south on Highway 20 the property can be reached by tuming left
on Glen Cove Road andthen immediately right onto Discovery Road. Travel on Discovery Road for
about 500 yards to where public notice signs are posted on either side of Discovery Road.
Existine Conditions and Use:
The property with the Class III and IV wetlands was cleared of forest and put in pasture some
time between 1953 and 1990 as indicated bythis available aerial photography. Both of these
wetlands consist of isolated depressional areas that are located on a terrace. The larger wetland has a
small narrow oblong pond approximately in the middle ofthe wetland. The wetlands are bordered on
the east and south sides by a private road. On the South side of the private road, the terrace slopes
gently towards the road before sloping to the south. This part of the terrace is in pasture, a garden
area, and a single family farm residence with several farm attendant features. The terrace to the north
ofthe wetlands is in pasture and gently slopes to the north with slope gradients ranging from 5 to 10
percent. On the East Side of the road, the lots are forested. The North West comer of the Barber &
PFC property is on the Southeast side ofthe road and is more than 50-feet and 75-feet from the
boundary lines ofthe Class IV and Class trI wetlands respectively. The vegetation, soils and
hydrology of the wetlands are discussed in the Wetland Characteristics Section ofthis report.
The wetland identified as Wetland B is located approximatelythree quarters (3/4s) ofthe way
south from the Northwest corner along the West property line west of Discovery Road. The closes
point of Wetland B is to the subject property is 4O-feet west of this property line. &S:Ue4rud"S-af-t
isolated depresgional area that is located on a terrace. This wetland consists of an open herbaceous
flooded area and a icruU-shrub hiiiitaitype. The iand area around this wetland is slightly higher in
elevation and all surface runoffdrains to this wetland. The vegetation, soils and hydrology of the
wetlands are discussed in the Wetland Characteristics Section ofthis report.
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IBarber & PFC Project LSWC 07/231A2
Property Description Continued
All the wetlands and their associated upland areas, including the subject property range in
elevation from 2001o240 feet. Slopes gradients forthis general land area ranges from I to 15
percent.
The subject property is a 10.7 acres forested parcel that is titled Parcel B with a Tax Number
of 00094007 Tax 16. The Parcel is divided by Discovery Road. The parcel on the West Side of
Discovery Road isil.8 acres and East Side ls 8.9 acres. ilhis land parcel was investigated in
September 1993. A report on the findings of this investigation is on file with Clark Land Office in
Sequim Washington. The conclusion ofthis investigation was thatthere was that a narrow strip of
wetland existed along part ofthe eastem part ofthis property. Olympic Wetland Resources had
already delineated this wetland. No other wetlands existed on the subject property. Two additional
addendum reports (February 7 ,20A0 and February 25, 2002) supported that there had no landscape
modification, changes to drainage patters or habitx types and there is no presence of priority species.
Thesetwo addendum reports are also on file with Clark Land Office.
Soils for the terrace area that have Wetland A and AA are mapped in the Soil Survey of
Jefferson County (August 1975) as Clallam Gravely sandy loam, 0-15 slopes. The soils are described
as being well-drained soils that have very slowly permeable cemented horizons that range from 20 to
40 inches. The field review indicates that this mapping is accurde for the upland terrace area around
these two wetlands but the wetlands have somewhat poorlyto poorly drained soils
Soils for the terrace area that is Wetland A are identified as the Dick Loamy Sand, 0 to 15
percent slopes. Dick soils are somewhat excessively drained sandy soils. Dick soils were found on
the upland portion ofthe terrace. The soils forthe wetland range from somewhat poorlyto poorly
drained soils. Soils underthe scrub-shrub portion ofthe wetland have a shallow slowlypermeable
dense till less than 20 inches deep while the open herbaceous area ofthe wetland has mucky mineral
soils with the slowly permeable till at depths of 20 inches or greater.
More detailed soil descriptions for each wetland is presented in the Wetland Characteristics
Section ofthis report.
PURPOStr AND APPROACH
The purpose ofthis study is to present the observations and data of our field investigation to
determine the boundary line for the wetlands generally described above to identifii the required buffer
width. Only a sufficient length of boundarywas establishedto daermine whetherthe required buffer
for the established Wetland Class would overlap onto the Barber & PFC project area. The three (3)
wetland's boundaries were delineated and they were classified according to requirements of (PTMC),
Chapter 19.05, Sensitive area 5 (19.05.1l0 (B) (3) and have buffer widths assigned according to
19.05.110 (E) (3). The classification and evaluation ofthe wetland areas identified on the property is
provided in the section titled Wetland Characteristics Section in this report.
Wetland Determination
Two levels of information were gathered for this analysis. These included
a) Review ofpreliminary site data and,
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Purpose and Approach Continued
b) On-site investigation to determine the presence of wetlands.
A review of existing information was conductedto develop background knowledge
of physical features, and to identif,i the potential for wetland occurrence on the
subject property. The resource documents available for preliminary review ofthe site
conditions included: USDA Soil Conservation Service (SCS), "Soil Survey of
Jefferson County Area Washington", (1975).
b) During the on-site investigation, wetland areas were determined and verified on the
basis ofthree palanqete{s: Hydrophytic Vegetation, Hydric Soils, and Wetland Hydrology,
as recommended in the Washington State Delineation Manual (RCW 90.58, 1997) as
required bythe PTMC, Chapter 19.05 Appendix C-7_Wetland Delineation and Certified
Boundary Survey.
A positive wetland determination is made when all three parameters are present, or in certain
situations determined following the guidelines recommended in wetland determination procedures, or
for atypical situations or problem areas.
Hvdrophvti c Vesetation
Areas where more than 50% ofthe dominant species present from all strata are hydrophytes
(plants adapted to growth and reproduction in saturated soil conditions) are considered to be inside
the wetland boundary, unless clear evidence ofhydric soils or wetland hydrology cannot be
established. A species is considered dominant if it is equal to or greater than 20Yo areal cover, or
exerts a controlling influence on, or defines the character of a communrty. Hydrophytic vegetation is
determined to be present, when under normal circumstances:
More than 50% of the dominant plant species in a plant community have an indicator
category of Obligate Wetland (OBL), Facultative Wetland (FACW), and/or Facultative (FAC)* as
listed in "National List of Plant Species that Occur in Wetlands: Northwest (Region 9)", (Reed, Porter
8., Jr., 1988), andthe "1993 SupplementtoNational Listof Plant Species That OccurinWetlands:
Nortlrwest (Region 9)" dated December 1993 that became effective on March 31,1994. Indicator
categories of FACW+, FACW-, FAC+, are included as FACW status.
'FAC+ species are consideredto be wetter (i.e., have a greater estimated probability of
occurring in wetlands) than FAC species, while FAC- species are considered to be drier (i.e., have a
lesser estimated probability of occurring in wetlands) than FAC species.' Plant indicator status
definitions are presented in TABLE I below.
This Plant Indicator Status Categories system was developed forthe USFWS National
Wetlands Inventory by Cowardin et al. (1979). The National Plant List Panel, Reed, Porter B., and Jr
modified it in 1988 and 1993. The Wetland Indicator Category OVIC) used in this report refers to the
plants tudtsato{ J5rm!e! as referredto in the table below.
National Indicators reflect the range of estimated probabilities (expressed as a frequency of
occurrence) of a species occurring in a wetland versus a non-wetland across the entire distribution of
the species. ("National List of Plant Species that Occur in Wetlands: Northwest (Region 9)", Reed,
Porter B., Jr., 1988), and the 1993 Supplement to List of Plant Species That Occur in Wetlands:
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Purpose and Approach Continued
Northwest @egion 9) dated December 1993 that became effective on March 3l,lgg4. Percentages
are expressed as estimated probability.
TABLE 1
Ilvdric Soils
There have been tremendous scientific changes since l99l in several ofthe indicators such as
the introduction of aquic conditions to cover the requirements for saturation, reduction, and
morphological indicators used to define the modified aquic moisture regime, and mottles and low
chroma colors being replaced by redoximorphic features. Because ofthese changes, we consult the
US Department of Agriculture, Natural Resource Conservation Service. 1998. .Field Indicators of
Hydric Soils in the United States, Version 4.0". G. W. Hurt, Whited, P. M., and Pringle, R. F. (eds.),
USDA, NRCS, Ft. Worth, TX for guidance and decision in making to support final hydric soils
determinations.
Additionally, compliance to changes in Hydric Soils ofthe United States published in Federal
Register/Vol. 59, No. 133/July 13,1994 and Vol. 60, No. 37lFebruary 24,lgg5 addressing Criterion
2 of the Criteria for Hydric Soils definition is being observed. The main purpose for the criteria is to
create Hydric Soil Lists. Criteria l, 3, and 4 can serve as both database criteria and as indicators for
identification of hydric soils. When Criteria l, 3, and 4 are used to documentthe presence of a hydric
soil, proof that anaerobiosis exists must also be obtained. Criterion 2 serves onlyto retrieve hydric
soils from the database. Also, the wording for Criteria I and 2 were changed in 1999 to incorporate
recent changes in Soil Taxonomy (Soil Survey Statr, l99g).
Field indicators of hydric soil conditions in this documen! (Land Resource Region (LRR) A
that includes Westem Washington), are presented here in an abbreviated form and include:
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lndicator Cateqorv lndicator Svmbol
OBL
Definition
OBLIGATE WETLAND
PLANTS
Occur almost always, >99% (estimated
probability) in wetlands under natural
conditions. <17o in non weflands.
FACULTATIVE WETLAND
PLANTS
FACW Usually occur in wetlands, 67-99%oand
I -33Yo in non-wetlands.
FACULTATIVEPLANTS FAC Equally likely to occur in wetlands and
non-wetlands 34460/o.
FACULTATTVE UPLAND
PLANTS
FACU Uzually occur innon wetlands 67-99yo,
but occasionally found in wetlands I-33Vo.
OBLIGATE UPLAND
Plants
UPL Almost always occur innon-wetlands of
Northwest Region 9, >99o/o. <l/o:lt.
wetlands.
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Purpose and Approach Continued
(l) ALL SOrLS:
A1. Histosols. - (organic soils having 16 inches or more ofthe upper 32 inches as
organic peat or muck soil material); A2. Histic Epipedons - (normally a peat or muck surface
horizon or layer 8 inches or more thick); and A4. Hydrogen sulfide - (sulfidic odor in soil
material within 12 inches ofthe soil surface).
(2) SANDY SOrLS:
Q\ S1 - a mucky modified mineral layer; 54 - a gleyed matrix; 55 - sandy redox
concentrations; and 56 - a matrix stripped of irorlmanganese oxides and/or organic
matter.
(3) LOAMY AND CLAYEY SOrLS:
FL - a mucky modified mineral layer; F2 - a gleyed matrix; F3; - a depleted matrix without a
dark surhce and F4 and F5 - a depleted matrix with dark or thick dark surfaces; F6 - a dark surface
and a redox 4 inch thick layer <12 inches deep with a matrix value <3 with a chroma <l or 2 or less
with>2o/o and,>SYodistinct or prominent redox concentrations respectively;F7 ' a dark surfrce layer
with redox depletions 4 inch thick with value >5 and chroma I arrrd< 12 fromthe surface ofthe soil
that has a matrix value <3 and chroma <l or 32 and >10% and>2lYo redox depletions respectively;
and F8 - redox concentration within 6 inches of a soil surface in depressions subject to ponding.
Wetland Hvdrolow
Water is the driving force for wetlands. Indications of wetland hydrology are those where tho
presence of water has an overriding influence on characteristics of vegetation and soils due to
anaerobic and reducing conditions, respectively.
Areas that are seasonally saturated and/or inundated to the surface for a consecutive number
of days for more than l2.5yo of the growing season are wetlands provided the soil and vegetation
parameters are met. Areas wet between 5To and l2o/o of Ihe growing season in most years may or
may not be wetlands. Areas saturated to the surface for less than 5% ofthe growing season are non-
wetlands. Wetland hydrology exists if field indicators are present'
Field indicators of wetland hydrology may include, but are not limited to visual observations
of inundation, ponding, soil saturation, oxidized root channels (rhizospheres) associated with living
roots and rhizomes, watermarks, drift lines, water-bome sediment deposition, or wetland drainage
pattems.
The growing season starting and ending dates are required to evaluate hydrologic data. For
wetland determinations, the growing season is determined using the local SCS county soils surveys.
Generally, the growing season is calculated based on the "28 degrees F or lower" temperature
threshold at a frequency of "5 years in 10". For much of westem Washington at low elevations, the
mesic growing season (March 1 to October 31) has been considered a good rule. However, in some
areas ofthe Puget Sound Lowlands and coastal areas the growing season occurs all year round
because the soil temperature at 19.7 inches below the soil surface is higher than 4l degrees F.
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Plant Identification and Classification
Primary references used for scientific plant names and the endemic and non-native or exotic
status of plants to the North Olympic Peninsula were determined as found in Flora ofthe Pacific
Northwest byHitchcock and Cronquist, Univ. of Washington Press, 1972. Other references referred
to included: (1) A Field Guide to the Common Wetland Plants of Westem Washington &
Northwestern Oreson by Sarah Spear Cooke, editor, Washington Native Plant Society, May 1997;
Wetland plants of Oregon & Washington by Jennifer Guard, Lone Pine Publishing, 1995; (2) Plants
ofthe Pacific Northwest Coast- Washington. Oregon. British Columbia & Alaska edited by Pojar and
Mackinnon, D.C. Forest Service, Research Program, Lone Pine Publishing, 1994 and, D.C. Forest
Service, Research Program, lone Pine Publishing, 1994; nd (3) Nort]rwest Weeds by Ronald J.
Taylor, Mountain Press Publishing Company, 1990
WETLAND CHARACTERISTICS
General Wetland Characteristics:
On trvo separate properties, atotal ofthree (3) wetlands were identified that were close to the Barber
& PFC propertythat is west of Discovery Road. Two ofthe wetlands are classified as Class III and
one ofthe wetlands is classified as Class IV. All three wetlands are isolated depressional wetlands.
One Class III (Wetland A) andthe Class IV (Wetland AA) are in ongoing agricultural pasture
management and are presently being grazed by cattle. These two wetland, dominantly consist of
introduced and planted non-native grasses and forbs, and native rushes and sedges. The Class III
wetland has at least three (3) different wetland habitat t1'pes and one open water area btrt none were
separately delineated because they would all meet Class III characteristics and habitat delineation was
not needed to determine buffer distance to the Barber & PFC project boundary. The Class III
Wetland A is 25 to 35 feet furttrer west than the Class IV Wetland AA. The S0-foot buffer for the
Class III Wetland will be approximately the same distance from the project area as the 25-foot wide
buffer forthe Class IV Wetland.
Wetland B (Class III Wetland) is part of a larger upland, forested area that has been harvested
i , probably in the last two decades. It consists of a relatively open herbaceous habitat type surrounded'v L by a scrub-shrub habitattype. Ilip_QleSS,I![Wetlandwill,have a 5O-foot buffer. The distance from
the nearest wetland boundary marker to the Barber & PFC property line, is 40 feet. At this location,
the 50-foot buffer for the Class III Wetland extends lO-feet onto the subject property. The buffer
extending on the subject property will have a crescent shape.
The technical data from the field sheet for vegetation, soils and hydrology of the three- (3) wetlands
are described below for each wetland. Field data sheets along with the Wetlands Rating Field Data
Forms can be review in Appendix A. Appendix B contains a list ofthe plants identified on the
wetlands.
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Wetland Characteristics Continued
Wetland A
Vegetation - This Palustrine wetland is the largest area ofthe wetlands. Wetland A is
dominated by Reed canarygrass [Phalaris arundinacea (FAC!V)], soft rush [Juncus effusus (FAC!V)]
and ovoid spikerush [Eleocharis obtusa (OBL)]. Bentgrasses [Agrostis sp. (FAC)] and tall buttercup
[Ranunculus acris (FACW-)] in the wetland. Reed canarygrass occurs mixed with the soft rush and
as large dense patches in the wetland. The wetland has hydrophytic vegetation as it supports a
dominance of facultative or wetter vegetative community. The plants and their relative percent cover
can be reviewed for the sample plot in the freld form labeled WET A in Appendix A.
Soils - The soils for Wetland A range from somewhat poorly drained to very poorly drained,
moderately deep mineral soils with compact till as shallow as 17 inches. The soils at the sample plot
site have mucky very fine sandy loam surfaces with mucky loamy fine sand and mucky loamy sand
subsurfrce soils. They have soil color values of 3 or less and chroma of I or less in the upper seven
(7) inches. The upper seven- (7) inches of mucky mineral overlaynine (9) inches of extremely
gravelly loamy sand that has a 10YR 3/3 color that overlays compact till. These soils are classified as
Humic Epiaquepts. During the time of the investigation the soils ranged from being saturated near
the open waterto having just enough residual moisture to make the soils damp. The soils associated
with this wetland meet hydric soil conditions. They meet the Washington State Wetland
Identi-fication and Delineation Manual, 1997 soil criteria for hydric soils. They are hydric because
they range from somewhat poorly drained to poorly drained and have chromas of one or less in the
upper l0 inches and also would meet the criteria of being ponded for long or very long duration
during the growing season. They classifu as Fl - Loamy Muck Mineral hydric soils or under the
USDA Field Indicators of Hydric Soils Indicators in the United States, version 4.0, March 199B. The
soil description is in the field data sheets for sample plot WET A in Appendix A.
Hydrology - The water source to Wetland A is due to precipitation as either rain or snow and
resulting surface or subsurftce soil flow due to the perched water table that develops as a result ofthe
very low permeable compact till. The subsurfrce flow occurs from the higher elevated pasture
surrounding the wetland area. Since the wetland is an isolated depressional area water collects in the
wetland area during high precipitation periods where ponds and then has to evaporates. The lowest
part ofthe wetland has a narrow long open water body. This area appears to hold water year around.
Wetland AA
This very small palustrine wetland is approximately 35 to 40 feet west of Wetland A. It may
or may not be hydrological connected to Wetland A through subsurface soil drainage. It does not
have any surface water flow to Wetland A.
Vegetation - This dominate vegetation is Reed canarygrass [Phalaris arundinacea (FACW)]
and tall buttercup [Ranunculus acris (FACW-)]. Codominant plants include soft rush [Juncus
effrrsus (FACW)], bentgrasses [Agrostis sp. (FAC)], vetch [Vicia sp. (FACU)] andtall fescue
[Festuca arundinacea (FAC-)I. The wetland has hydrophytic vegetation as it supports a dominance of
facultative wet or wetter vegetative community. The plants and their relative percent cover can be
reviewed forthe sampleplot inthe field form labeledWET AA in Appendix A.
7Barber & PFC Project LSWC 07lnlA2
Wetland Characteristics Continued
Soils - The soils at the plot in this wetland habitat tlpe are somewhat poorly drained and are
very shallow (less than 20 inches) to compact till. They have a perched watertable for long enough
during the growing season to develop a depleted matrix with 10YR 5/l colors with common medium
distinct 10YR 5/4 redoximorphic features within the upper 10 inches of the soil. They meet the
Washington State Wetland lden4{ication and Delineation Manual. 1997 soil criteria for hydric soils.
They are hydric because they are somewhat poorly drained and have chromas of one or less with or
without redoximorphic features in the upper 10 inches. They classi$r as hydric soils as theythe F4 -
Depleted Matrix Below a l)ark Surface criteria found in the USDA Field Indicators af Hltdric Soils
Indicators in the United States, version 4.0, March 199B. The soil description is in the field data
sheets for sample plot WET AA in Appendix A.
Hydrology - The water source to Wetland AA is due to precipitation as either rain or snow
and resulting surface or subsurface soil flow due to the perched water table that develops as a result of
the very low permeable compact till. Surface water flow occurs primary for the private road that is
along the east edge ofthe wetland. Since the wetland is an isolated depressional area water collects in
the wetland area during high precipitation periods where it ponds and then has to evaporates. Due to
the shallow conditions of the soils this wetland area probably ponds very rapidly and holds water long
enough during the growing season to cause hydric soils and hydrophytic vegetation.
Wetland B
This Palustrine wetland is the next largest area ofthe wetlands that was investigated. It has
trn'o habitat tSpes consisting of scrub-shrub habitat and herbaceous habitat. This wetland is an
isolated enclosed depressional wetland that was located within a timber sale.
Vegetation - The scrub-shrub habitat area ofthe wetland surrounds the herbaceous habitat
area of Wetland B. A plot was only established on the scrub-shrub part ofthe wetland. This was
done because the wetland edge is the boundary between the upland area and the scrub-shrub habitat
area. The scrub-shrub habitat area ofthe wetland is dominated by Douglas spirea [Spiraea douglasii
GAC\ Dl, Nootka rose [Rosa nutkana (FAC)], slough sedge [Carex obnupta (OBL)] and red alder
[Alnus rubra (FAC)]. Plants that had less than 5 percent cover in the scrub-shrub habitat included
Douglas hawthom [Crataegus douglasii (FAC)], salal [Gaultheria shallon (FAC)], sweetbrier rose
[Rosa eglanteria (FACW)], Alaska blueberry [Vaccinium alaskaense (NI)], Pacific willow [Salixlucida (FACW+)] and Pacific madrone [Arbutus menziesii (UPL)]. The slough sedge is found
scattered though out the shrubs with 20 percent cover. Although red alder has a relative cover of 60
percent, the area does not meet a Forest Wetland Condition, as the trees are not older than 50 years,
Dominate vegetation in the herbaceous habitat area ofthe wetland includes water parsley
[Oenanthe sarmentosa (OBL)] and ovoid spikerush [Eleocharis obtusa (OBL)]. Plants less than 20
percent cover include Pacific willow [Salix lucida (FACW+11 and bentgrasses [Agrostis sp. (FAC)].
Small pedestal islands of FAC and FACU plants are located within the area of the herbaceous part of
the wetland.
The plants and their relative percent cover can be reviewed for the scrub-shrub sample plot in
the field form labeled WET B in Appendix A.
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Wetland Charactcristics Continued
Soils - The soils for Wetland B range from somewhat poorly drained in the scrub-shrub area
to very poorly drained in the herbaceous area. In the scrub-shrub area, the soils are very shallow (less
than 20 inches) to compact till. They have a perched water table for long enough during the growing
season to develop a depteted matrix with IOYR 4/l to 5/l colors with common medium distinct l0YR
314 to 4/6 redoximorphic features within the upper l0 inches ofthe soil. They meet the Washington
State Wetland ldentification and Delineation Manual. 1997 soil criteria for hydric soils. They are
hydric because they are somewhat poorly drained and have chromas of one or less with or without
redoximorphic features in the upper l0 inches. They classify as hydric soils as they the F4 -
Depleted Matrix Below a Dark Surface criteria found in the USDA Field Indicators qfHldric Soils
Iniicators in the United States, version 4.0, March 1998. The soil description is in the field data
sheet for sample plot WET B in Appendix AB.
The soils in the herbaceous area of the wetland l0YR 2/l mucky silt loam and mucky sandy
loam to a depth of 15 inclres. They meet the Washington State Wetland ldentifcation and
Delineation Manual. 1997 soil criteria for hydric soils. They are hydric because they are poorly
drained and have chromas of one or less in the upper l0 inches, and also meet the criteria of being
ponded for long or very long
They classify as hydric soils
duration during the growing season (see hydrology section below).
as they meet Fl - Loamy Muck Mineral criteria for hydric soils in the
USDA Field in
Hydrolog5r as either rain or snow and
resulting surfuce or develops as a result of the
very low permeable compact till. The subsurbce flow occurs from the higher elevated pasture
surronnding the wetland area. Since the wetland is an isolated depressional ateawater collects in the
wefland area during high precipitation periods where ponds and then has to evaporate. The lowest
part of the wetland is the area that supports the herbaceous vegetation community. Although no
inundation was present during the investigation, observation of the area showed that there were small
pedestal islands of FAC and FACU vegetation and encrusted detritus algae and fne organic material
was present indicating that ponding occurs for long periods oftime.
Wetland Conclusions
Field investigation showed that, there are three (3) wetlands west of the Barber & PFC
project area. All three (3) of the wetlands investigated meet the criteria of wetlands as they are wet
long enough during some period of the growing season so that the areas have hydrophytic vegetation,
hydric soils and hydrology. Wetland A and B are Class III wetlands while Wetland AA is a Class IV
W4land. Wetland AA il less than 101000 square feet and does not meet the acreage requirement
for a regulated Class lV Wetland. Wetland A and B are large enough to be regulated wetlands
as definid by pTMC 19.05.10 (C) (2) (b). Wetlands A and B (Class III Wetlands) require a buffer
5O-foot wide and Wetland AA (Class IV Wetland) requires a buffer 25-foot wide. The buffers for
Wetland A and AA do not reach any of the subject property area but there will only be about a 20 to
25-foot space between the buffer edge and the Northwest property corner. The 50-foot buffer for
Wetland B will overlap the subject p=roperty by l0-feet from the nearest wetland boundary flag to the
9Barber & PFC Project LSWC 07126102
Wctland Charactcristics Continucrl
subject property. This buffer has been suryeyod by Clark Land Office in Sequim Washington, to
establish the total width and length of the buffer on the subject property (See attached map). These
buffer boundaries must be made very visible on the ground and all contractors, frllers and operators
associated with the timber harvest must be made aware of where these boundaries are with relation to
the harvesting operations they are conddcting..-l
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Barber & PFC Project l0 LSWC 07126/02
APPENDIX A
FIELD DATA SHEETS AND FORMS
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tIGENERAL RESOTJRCE AND ROIJTIIIE WETLAND DETERMINTATION FIELD DATA FORMIGEIIERAL AND PIIYSIOGRAPHIC SITE DESCRIPTION:DilSTING SITE CONDITONS:tof 2LANDOWNER:SAMPLE PLOT ID: 'A<rCITY/COUNTY/STATE:y( ''sSITE LOCATION:-1^/^?t5,7 /543 ke/PROJECT:DATE:WATERSHED:OTHER:NoYESSITE SIGNIFICANTLY DISTURBEDIS THEREMARKS:NoNoANCES EXIST ON SITE? YesDO NORMALYesAREA?PROBLEMPOTENTIALAAREATHEISSOILS AND GEOMORPHIC COI\DITIONSIIYDROLOGYWETLAND HYDROLOGYINDICATORS:PRIMARY INDICATORS:Inundated fl Water MarksDrift LinesSediment DepositsDrainage Pattern in WetlandsSaturated in Upper 12 InchesSECONDARY INDICATORS:fl O*iOirra root ChannelsIn Upper l2 Inchesfl water Stained LeaveiI Local Soil SurveyE FAc-Neutral Test! Otherlnxplain inRcmrrlis),,nuRECORD DATA: (Describe in Notes)n Stream, Lake or Tide Gauge[-l Aerial PhotographsK Xo Recorded Data Availablen otherFIELD OBSERVATIONS:H2OTABLEi fi lppa"eot frrercneoDepth of Surface Water: I in fl cmDepth to Free Water in Pit (Soi[ .Saturation): >Depth to Capillary nise ) /l- ff io n ..MFtioItDRAINAGE CLASS:ELEVATION:OTIIER:oFoccm% SLOPE:tnSandstone [_l Igneous f] SnateOutwash ll *n [-l other-ColluvialAlluvialRemarkst,cSURVEY CLASSIFICATION: (faxonomic UniUSerieVMap Unit)l*fssoILe ["lE% slrawu'e/ k' /*"^tt Ept eCtutL*v'1*c(UaON SITELANDFORMz EEP'(Itlfo tt)ASPECT:SOIL TEMPERATURE:ROOT DEPTH:TERIALM riuPARENT MAE LimestoneU,S. FIELDSOILSS*TILfurE'P I i5alL 9otflWETLAI\D DETERMINATION:4oeFE^l k)NoNoWETLAND HYDROLOGY PRESENT? YesYes?WETLANDAWITHINPOINTSAMPLINGTHISISNoNo? YesTryDROPHYTIC VEGETPRESENT? YesIIYDRIC SOILSREMARIG1 LOGGY SOIL AND WETLAND CONSULTING (Revision 10t22t200tt1Signature:
I\SOIL PROFILE SITE DESCRIPTIONVEGETATION PLOT DATAAND PLAI\TCOMMUMTY CLASSIFICATION:SAMPLE PLOT ID.2of 2Brndycl,,utebqwTruogNeFREACTION TO:lt-ltDipyrRootssf3'P143e2 vt4JFI vr4Structurer f7n/ €1r'1€yTextureand/orCon-sistenceaVdT'lL^41*-tvA'fe*'r /tAlong PoresIPERCENTEIruCOLORREDOXIn MrtrlxCON@NTRATIONS: In PoreLiningsConcretiondNodulesIn Mrtrix AsSoft MassesDrv nrvl,iirt ffMrtrixColor/0rpl,/af r/,bf4 3/kiprtDepth-Io'AICm. EA-z2*95-+1- toLrycrs EHorlzonsB/h*zk3cWETLANDINDICATORoSTRATIJMRELATIVE%COVERohcovERDOMINANTSPECTESNON.NATIVESPECIESCOVERPERQUADBASESr234PLAI\TT COMMI]MTY:PERCENTORF'ACFAC-I LOGGY SOIL AND WETLAND CONSULTING (Revision rcnU2}Ol,)tl r,. ,illl ! i Il-].i1-r
Wetlands Rating Field Data Form
Backg ro und lnformation :
Name 14 fra/6out"e,f a1/tiS
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Name of wetland (ifknown)lalsrr-*rtt r> A
Govemment Jurisdiction of fltL/L o !-r Q
Location: l/4 Section:_ of 1/4 S:-Qenl-i q Townshrp&zil xange: lil/
Sources of lnformation: (Check all sources that apply)
Sitevtsit: 4JSGS TopoMap:- NWImap:-Aerial Photo: Soils suwey' t'
Other:_ Describe:
When The Field Dara form is complete enter Category here: C ftf e G o ft? E
Q.1. High Quality Natural Wetland
Answer this question if you have adequare information or experience to do so. If
not find someone with the expertise to answer the questions. Then, if the answer
to questions la, lb and lc are all NO, contact the Natural Heritage program of
DNR.
la. Iluman caused disturbances.
Is there significant evidence ofhuman+aused changes to topography or
hydrolory of the wetland as indicaled by any of the following conditions?
Consider only changes that may have taken place in the last 5 decades. The
impacts of changes done earlier have probably bean stabilized and the wetland
ecosystem will be close to reaching some new equitibrium that may represent a
high qualrty wetland.
la.l Upstream warersbed > lzyo impervious.
1a2. Wetland is ditched and water flow is not obstructed.
la3. Wetlandhas been graded, fille4logged.
la4. Water in wetland is controlled by dikes, weirs, etc.
las. Wetland is grazed.
la6. CIher indicarors of disturbance (list below)
Circle Answers
Yes: go to Q.2
Yes: go to Q.2
Yes: go to Q.2
IE: goto q.Z
Q9* eo to Q.2
Yes: go to Q.2
No: go to lb.
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lb Are there populations of non-native plants which are curreatly pres€nt, cover
more than l0% of the wetland, and appear to be invading native populations?
Briefly describe any non-native plant populations and
krformation
lc. Is there evidence ofhurnan-caused disturbances which have visibly
degraded water quality. Evidence of the degradation of water quality include:
direct (unfeated) runofffrom roads or parking lots; presence, or historic
evidence, of waste durnps; oily sheens; the smell of organic chemicals; or
livestock use. Briefly describe:
YES: go to Q.2
No: go to lc.
YES: go to Q.2
NO: Possible Cat.I
Contact DNR
Q.2. lrreplaceable Ecological Functions:
Does the wetland:
have at least l/4 acre oforganic soils deeper'ha'' 16 inches
and the wetland is relatively undisturbed; OR
[f tlre answer is NO because the wetland is disturbed briefly
describe:
Indicators of distubance may include:
- Wetland has been gaded, filled, logged;
- Organic soils on the sr:rface are dried-out formore thanhalf
ofthe year;
- Wetland receives direct stormwater runofffrom uban or
agricultural areas.l; WeX\o-*Q b qlrz.r-A
,
OR
have a forested class greaterthan I acre;
OR
have characteristics ofan estuarine syst€rq
OR
have eel gass floating ornon-floating kelp beds?
@" all: go to Q.3)
YES go to 2a
YES: Go to 2b
Yes: Go to 2c
Yes: Go to 2d
2a. Bogs and Fens
Are any of the three following conditions rnet for tbe area of organic soil?
2a.1. Are Sphagnum- mosses aco'rmongroundcover (>30%) andthe coverof
invasive species (see Table 3) is less than l0%?
Is the area of sphagnumnr,sses and dee,p organic soils > ll2 acre?
Is tlre area of spbagnummosses and deep organic sorlst/t-l/2 acte?
2a.2.Is there an area of organic soil which has an emergent class with at least
one species from Table 2,and cover of invasive species is < lOplo (see Table 3)?
Is the area of herbaceous plants and deep organic soils > ll2 acre'!
Is the area of herbaceous plants and deep organic soils l/ul-ll2acre?
YES: CategoryI
YES: Categorytr
NO: Go to2t.3
YES: Category I
YES: Category II
NO: Go to2a-3
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2a.3. Is the vegetation a mixture of only herbaceous plants and Sphagnurn
nnsses with no scrub/shrub or forested classes?
Is the area ofherbaceous plants, Sphagnum, and deep organic
soils > l/2 acrel
Is the area ofherbaceous plants, Sphagnuq and deep organic
soils Yq-|/2 acre?
YES: Category I
YES: Category II
NO: Go to Q.3.
Q.2b. Mature forested wetland.
2b.1. Does 50% ofthe cover ofupper forest canopy consist ofevergreen
trees older than 80 years or deciduous trees older than 50 years?
Note: T};re size of hees is often not a measure of age, and size cannot
be used as a surrogate for age (see guidance).
2b.2. Does 50% ofthe cover offorest canopy consist ofevergreen trees older
than 50 years, AND is the structural diversity of the forest high as
characterized by an additional layer of trees 20'49' tall, shrubs 6'-20',
tall, and a herbaceous groundcover?
2b.3. Does <25yo ofthe areal cover in the herbaceous/groundcover or
the shrub layer consist of invasive/exotic plant species from the list on p. 19?
YES: Caregory I
NO: Go to2b.2
YES: Go to2b.3
NO: Go to Q.3
YES: Category I
NO: Go to O.3
Q.2c. Estuarine wetlands.
2c.1. Is the wetland listed as National Wildlife Refuge, National Park,
National Estuary Reserve, Natual Area Preserve, State Parl or
Educational, Environmental or Scientific Reserves designated under
wAC332-30-151?
2c.2.k the wetland > 5 acres;
, Note: If an area contains patches of salt tolerant vegetation that are
l) less than 600 feet apart and that are separated by mudflats thar go
dry on a Mean Low Tide, or
2) separared by tidal channels .rrat are less than 100 feet wide;
all the vegetatd
^reas
af,e to be considered together in calculating the
wetland area.
or is the wetland l-5 acres;
or is the wetland < I acre?
YES: CategoryI
NO: Go to2c.2
YES: CategoryI
YES: Go to2c.3
YES: Go to2c.4
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lb Are there populations ofnon-native plants which are currently present, cover
more than l0% of the wetland,and appear to be invading native populations?
Briefly describe any non-native plant populations and
lnformation source(s)
lc. Is there evidence of htunan-caused disturbances which have visibly
degraded water quality. Evidence of the degradation of water qualrty include:
direct (untreated) runofffrom roads or parking lots; presence, or historic
evidence, of waste dumps; oily sheens; the smell of organic chemicals; or
livestock use. Briefly describe:
YES: go to Q.2
No: go to lc.
YES: go to Q.2
NO: Possible Cat.I
Contact DNR
Q.2. lrreplaceable Ecological Functions:
Does the wetland:
bave at least l/4 acre oforganic soils deeper than 16 inches
and the wetland is relatively rmdisturbed; OR
[f the answer is NO because the wetland is disturbed briefly
describe:
Indicators of disturbance may include:
- Wetland has been gaded, filled,logge{
- Organic soils on the surface are dried-out for more than half
ofthe year;
- Waland receives direct stormwater runofffrom urban or
agricultural areas.]; I *
OR
have a forested class greater than I acre;
OR
have characteristics ofan estuarine systeq
OR
have eel or beds?
GQ to all: go to Q.3)
@so to za
YES: Go to 2b
Yes: Go to 2c
Yes: Go to 2d
2a. Bogs and Fens
Are any of the three following conditions met for the area of organic soil?
2a.1. Are Sphagnum. mosses a corrunon ground cover (>30olo) and the cover of
invasive species (see Table 3) is less than t0%?
Is the area of sphagnum mosses and deep organic soils > l/2 ane'!
Is the area of sphagnum mosses and deep organic soils Y*l 12 ac:rel
2a.2.rs there an area of organic soil which has an emerg€nt class with at least
one species from Table 2, and cover of invasive species is < lflo (see Table 3)?
Is the area of herbaceous plants and deep organic soils > l/2 acre?
Is the area ofherbaceous plants and deep organic soils l/4-li2acre?
YES: Category I
YES: Category tr
NO: Go to2t.3
YES: CategoryI
YES: Category II
NO: Go to2a.3
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2c.3. Does the wetland meet at least 3 of the following 4 criteria: ...
- minimum existing evidence of human related disturbance such as
diking, ditching, filling, cultivation, graingor the presence of non-
native plant species (see guidance for definition);
- surface water connection with tidal saltwater or tidal freshwater;
- at least 75Yo of the wetland has a I 00 buffer ofungrazed pasture,
open water, shrub or forest;
- has at least 3 of the following features: low marsh; high rrrarsh; tidal
channels; lagoon(s);woody debris; or contiguous freshwater wetland-
2c.4. Does the wetland meet all of the four criteria under 2c3? (above)?
YES: Catesorv I
@"t"s"-viI
1@S: Category tr
rf,d)Catesorv III
Q.2d. Eel Grass and Kelp Beds.
2d.1. Are eelgrass beds present? ...
2d-2. Are their floating or non-floating kelp bed(s) present with greater than
507o macro algal cover in the month of August or September?... . . .
YES: Category I
NO: go to2d.2
YES: Category I
NO: Category II
Q.3. Cdegory lV wetlands.
3a. Is the wetland: less than I acre and,
hydrologically isolated an4
conprised of one vegetated class that is dominated Q 80o/o areal cover)
by one species from Table 3 (page 19) or Table 4 (paee20)
3b. Is the wetland: less than two acres
and, hydrologically isolated,
with one vegetated class, and >,90yo of areal cover in any combination of
species from Table 3 (page 19)
3c. Is the wetland excavaled from upland and a pond smaller than I acre
without a surface water connection to streams, lakes, rivers, or other
wetland, and has < 0.1 acre of vegetation
(
Category IV
to Q.4
)frS: Cateeory IV
Qp eo to 3b
YRs: CategoryIV
-N& go to 3c
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Q.4. Sign ificant habitat value.
Answer all questions and enter data requested.
4a. Total wetland area
Estirnate area, select from choices in the near-right column, and score in the
far column:
Enter acreage of wetland here:/, B anres, and source, /t&/
Circle scores that quali$
acres
>200
40-200
l0-40
5-103
l-5
0.1-l
<0.10
oomts
6
5
4q
4b. Wetland
Open Water:
classes: Circle the wetland classes below that quali$:
if the area of open water is > l/4 acre i
Aqnatic Beds: if the area of aquatic beds > l/4 asre,
Emergent: if the area of emergent class is > l/4 acre, -/
Scrub-Shrub: if the area of scrub-shrub class is > l/4 arlre,
Forested: if area of forested class is > I / 4 acre,
Add the nurnber of wetland classes, above, that qualify, and then
Score according to the columns at riglt.
e.g.Ifthere are 4 classes (aquatic beds,open wat€r,emergent &
would circle 8 ln the fax column.
Poine@-#ofclasses
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2
3
4
5
3
6
8
r0
4c. Plant species diversity.
For each wetland class (at righ| that qualifies in
4b above, count the nurnber of different plant species
you can find that cover more thmlo/o of the ground.
You do not have to name them.
Score in column at far right:
e.g. If a wetland has an aquatic bed class with 3 species, an
emergent class with 4 species anda scrub-shrub
class with 2 species you would circle 2, 2,and I in the
far column
Note: Any plant species with a cover of > 57o
qualifics for points within a class, even those
tl:p;t are not of that class.
Class
Aquatic
Emergent
Scrub-Scrub
Points
0
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2
3
0
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@
J
0
I
2
3
0
I)
3
# species in class
Forested
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2
3
>3
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2-3
+5
>5
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2
34
>4
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2
34
.>4
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4d. Structural diversity.
If the wetland has a forested class, add I point if each of the following
Classes is present within the forested class and is larger than l/4 acre:
-trees > 50' tall...
-trees 20'- 49' tall...
-shrubs......
-herbaceous ground cover...
Also add I point if there is any "open water" or "aquatic bed" class
Immediately next to the forested area (i.e. there is no scrub/shnrb or
emergent vegetation between them).
YES
@o
YES
YES
YES-I
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4e. Decide fromthe diagrams below whether intenpersion betrveen
wetland classes is high, moderate, low or none? If you think the
amount of interspersion falls in between the diagrams score accordingly
(i.e. a moderately high amount of interspersion would score a 4,
while a moderately low amount would score a 2)
uL\IlC lcitr'IilW
ms&ffi18.rfiftdelii[t*hish
4f Habitat features.
Answer questions below, circle features that apply, and score to right:
Is there evidence that the open or standing water was caused by beavers
Is aheron rookery located within 300'?
Are raptor nest/s located within 300'?
Are there at least 3 standing dead trees (snags) per acre greater than
10" in diameter at'breast height' (DBH)?
Are there at least 3 downed logs per acre with a diameter
> 6" for at least l0'in length?
Are there areas (vegetated or unvegetated) within the wetland *tat are
ponded for at least 4 mopths out of the year, and the wetland has not
qualified as having an open water class in Question 4b. ?
YES:2
YES: I
YES: I
YES: I
YES: I
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49.Connection to streams. (Score one answer only.)
4g.1. Does the wetland provide babitat for fish at any time of the year AND
does it have a perennial surface water connection to a fish-bearing stream.
4g.2 Does the wetland provide fish habitat seasonally AND does it have
a seasonal surface water connection to a fish-bearing stream.
4g.3 Does the wetland function to export organic matter through a strrface
water connection at all times of the year to a perennial strean.
4g.4 Does the wetland frrnction to export organic matter througlr a surface
water connection to a stream on a seasonal basis?
YES :6
YES :4
YES:4
YES:2
4h. Buffers.
Score the existing buffers on a scale of 1-5 based on the following four descriptions.
If the condition of the buffers do not exactly match the description, score either a
point higber or lower depending on whether the buffers are less or more degraded.
Forest, scrub, native grassland or open water buffers are present for
more tban 100'ar_ormd 95% of the circr.mference.
Forest, scrub, native grassland" or open water buffers wider than 100'
for more than l/2 of the wetland circtimference, or a forest, scrub,
grasslands, or open water butrers for more than 50'around 95 % of the
circumference.
Forest, scrub, native grassland, or open waterbuffers wider than 100,
for more than ll4 of the wetland circumference, or a forest, scrub, native
grassland, or op€n wat€r buffers wider than 50'for more than l/2 of the
wetland circumference.
No roads, buildings or paved areas within 100' of the wetland for more than
95% of the wetland circumference.
No roads, buildings orpaved areas within 25' of the wetland for more
thqn 95Yo of the circumference, or
No roads buildings or paved arsas within 50'of the wetland for more than
ll2 of the wetland circtmference.
Paved areas, industrial areas or residential constnrction (with less than 50'
between houses) are less than 25 feet from the wetland for more thangs %
of the circumference ofthe wetland.
Score:5
Score:3
Score:2
Score:2
Score
Score: 0
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4i. Connection to other habitat areas:
Select the description, which bestmatches the site being evaluated.
-Is the wetland connected to, orpart of, a riparian corridor at least 100'wide
connecting two or more wetlands; or, is there an upland connection present >100'
wide with good forest or shrub cover (>25Vo cover) connecting it with a
Significant Habitat Area?
-Is the wetland connected to any other Habitat Area with either l) a forested/shrub
corridor < 100' wide, or 2) a corridor that is > 100' wide, but hes a low vegetative
cover less than 6 feet in height?
-Is the wetland connected to, or a part of, a riparian corridor between 50 - 100' wide
with scrub/shrub or forest cover connection to other wetlands?
- Is the wetland connected to any other Habitat Area with narrow corridor (<100)
of low vegetation (< 6'in height)?
- Is the wetland and its buffer (if the butrer is less than 50' wide) completely isolated
by development (urban, residential with a darsity greater than 2laoe, or industrial)?
YES =5
Yes:3
Yes:3
Yes: I
Yes
III
Now add the scores circled 6or A#a- A.fi
Is the Total grcaterthan or equal to 22 points?
above) to get a total. / / y'an<r 13
Category II
NO=
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Ir_i _.JGENERAL RESOI]RCE AND ROUTINE WETLAND DETERMINTATION FIELD DATA FORMIGEIYERAL AI\D PIIYSIOGRAPHIC SITE DESCRIPTION:DilSTING SITE CONDITONS:lof 2LANDOWNER:ID:PLOTSAMPLECITY/COUNTY/STATE:Et2nLOCATION:)/<fa3Eqtuc-/NeP(okt-6OLoCy(-rt+A/:zAttPn-IwFF,SITEI LO L12 tL4ylPROJECT:DATE: /II\TVESTIGATOR(S):e,eWATERSHED:OTIIER:NoIS THE SITE SIGNIFICATTTLY DISTURBEDYESSituationREMARKS:NoNoEXIST ON SITE? YesDO NORMAL CIRCT]MSTANCESYesPROBLEMAREA?IS THE AREA A POTENTIALSOILS AND GEOMORPHIC COIIDITIONSITYDROLOGY'e,ncke/- tan.ler Loi,lWETLAND IIYDROLOGYINDICATORS:PRIMARY INDICATORS:Inundated I Water MarksDrift LinesSediment DepositsDrainage Pattern in WetlandsSaturated in Upper 12 InchesSECONDARY INDICATORS:n O*iOi""O root ChennelsIn Upper 12 InchesWater Stained LeavesLocal Soil SurveyFAC-Neutral TestOther (Explain in Remarlb) .,ntrnnRECORD DATA: @escribe in Notes)Stream, Lake or Tide GaugeAerial PhotographsNo Recorded Data AvailableOthertrn!rnFIELD OBSERVATIONS:II2OTABLE: ! Apparent fffercha'Nrft*ru*^cewster: flin D cmDepth to Free Water in Pit (Soil-Saturation): X 2i" Hin ! cmDepth to Capitlar/f.ise ) /o Min I cmI E;lt k itLtil" tzltD{ surfazr-, -MpL. sntlFtDRAINAGE CLASS:ELEVATION:OTIIER:Igneous flshale I Alluvial n CoiluviatAsh n other-oFoccm% SLOPE: Q -ltnTiIIPARENT MALimestoneSandstoneOutwashCLASSIFICATION: (Taxonomic UniUSerieVMap Unit)SOIL SURVEY'le5ra-ueLalLivv.'tO +o 15 sbPEpeekaCON SITEkLANDFORM:ASPECT:SOIL TEMPERATI.JRE:ROOT DEPTH: bSOILS INDICAU.S. FIELDRemarksCo€{v€,t3E PpoWETLAI\Dt\,r-c.uhllcJl oe,44'1-NoNWETLAND ITYDROLOGY PRESENT? YesYesIS THIS SAMPLING POINT WITHIN A WENoNoITYDROPHYTIC VEGETATION PRESENT? YesIIYDRIC SOILS PRESENT? YesI LOGGY SOIL AND WETLAND CONSULTING (Revision t0t22t200tlSignature:
SOIL PROFILE SITEDESCRIPTION. VEGETATION PLOT DATAAI\DPLAIYT COMMTNITYCI,ASSIFICATIOlli:'iSAMPLE PLOT ID.2of 2-Brndy4s4kJTruogNaFREECTION TO:tt-a'DipyrRoots7c2Pt.2/c-Structurez /7nt /7r/n4j4rueTextureand/orCon-sistencei/61//'"4>Along Poresk*"a (dREDOXDEPLETIONSIn Matrlxr^et^/In PorcLinings( * SottFe/'lVlnConcretions/NodulesQ,,REDOX CONCENTRATIONS PERCE NT/$zvcoLoR/LOAnoNsIn Matrix AsSoft Mrsses/4 /re€/4ozd:i'I/.sd9 /,Drv tr-MoistflMrtrixColor/offu//"/(3///DfE%te 6-ADep(h,tn. Ecr(. Eb'3J'b64\ /r/2NLryers flHorizonr4-rt)'z8w,/4otYWETLANDINDICATORf]48',r,Fz4r ntSTRATI.]MA5RELATTVEoACOVER/aJA7-rT-ot/oCO\TERDOMINANTSPECESNON-NATIVESPECIESICOVERPERQUADBASES23t4PLANT SPECIESF'ACWTUlti rlI LOGGY SOIL AND WETLAND CONSULTING @evision llfln1.|/200tll-llh.
Wetlands Rating Field Data Form
Background lnformation :/.oC,a'f$;l I
Name of Rater:V{.&vrP Loa,6,f Affrliation: k) athrcc( /brt st.' t71n( Cl D^te: ?//g,hz
Name ofwetland (irhown): t,lj eFtaq,oL,t AA
Government Jurisdiction of ot U3 9e
Location: 1/4 of l/4 S:- secaon: I rownsatp1p nl Range: / W
Sources of lnformation: (Check all sources that apply)
Site ',rsit: / USGS Topo Map:- NWI map:- Aerial Photo:- Soils survey ' /
Other:- Describe:
when The Field Data form is complete enter category here: c *rz ao ful I V
Q.1. High Quality Natural Wetland
Answer this question if you have adequare information or experience to do so. If
not find someon€ with the expertise to answer the questions. Tben, if the answer
to questions la" lb and lc are all NO, contact the Natural Heritage program of
DNR.
la. Ifuman caused disturbances.
Is there significant evidence ofhuman+aussd 6hanges to topography or
hydrology of the wetland as indicated by any of the following conditions?
Consider only changes that may have taken place in the last 5 decades- The
impacts of changes done earlier have probably been stabilizetl and the wetland
ecosyst€m will be close to reaching some new equilibrium thatnay represent a
high qualig wetland.
la.l Upstream watershed > l2oA impervious.
1a2. Wetland is ditcbed and waler flow is not obstnrcted.
la3. Wetland hasbeen grade{ fille4 logged.
1a4. Water in wetland is controlled by dikes, weirs, etc.
la5. Wetlandis grazed,.
1a6. Other indicators of disturbance (list below)
Circle Answers
Yes: go to Q.2
Yes: go to Q2
Yes: go to Q.2
Yes: so to O.2
@o,o d.z
Yes: go to Q.2
No: go to lb.
25
lb Are there populations of non-native plants which are currently pres€nt, cover
more than I 0% of the wetland, and appear to be invading native populations?
Briefly describe any non-native plant populations and
Information source(s) :
lc. Is there evidence ofhurnan-caused distrnbances which have visibly
degraded water quality. Evidence of the degradation of water quality include:
direct (untreated) runofffrom roads or parking lots; presence, or historic
evidence, of waste dumps; oily sheens; the smell of organic chemicals; or
livestock use. Briefly describe:
YES: go to Q.2
No: go to lc.
YES: go to Q.2
NO: Possible Cat.I
Contact DNR
Q.2. lrreplaceable Ecological Functions:
Does the wetland:
have at least U4 acre oforganic soils deeperthan 16 inches
and the wetland is relatively r:ndisturbed; OR
[f the answer is NO because the wetland is disturbed briefly
describe:
Indicators of distrnbance may include:
- Wetland has been gaded, filled,logged;
- Organic soils on the surface are dried-out for more than half
ofthe year;
- Wetland receives direct storrrwater runofffrom urban or
agricultural tr€s.l;
OR
have aforested class greater than I acre;
OR
have characteristics ofan estuarine systenl
OR
have eel grass floating or non-floating kelp beds?
6d" all: go to Q.3)
YE'S go to 2a
YES: Go to 2b
Yes: Go to 2c
Yes: Go to 2d
2a. Bogs and Fens
Are any of the three following conditions met for the area of organic soil?
2a.1. Are Sphagnurn mosses a common ground cover (>307o) and the cover of
invasive species (see Table 3) is less than l0%?
Is the area of spbagnum mosses and deep organic soils > ll2 aro:e?
Is the area ofspbagnum mosses and deep organic soils 7r-ll2 acre?
2a.2.ls there an area of organic soil which has an emergent class with at least
one species from Table 2, and cover of invasive species is < lOplo (see Table 3)?
Is the area of herbaceous plants and deep organic soils > ll2 acrc?
Is the area of herbaceous plants and deep organic sorls ll4-llZacre?
YES: CategoryI
YES: Cuegory II
NO: Go to2a-3
YES: CategoryI
YES: Categorytr
NO: Go to2a3
:l
l
26
2a.3.Is the vegetation a mixture of only trerbaceous plants and Sphagnun
mosses with no scrub/shrub or forested classes?
Is the area of herbaceous plants, Sphagnum, and deep organic
soils > ll2 arre'!
Is the area of herbaceous plants, Sphagnum, and deep organic
soils %-ll2 acre?
YES: Category I
YES: Category II
NO: Go to O.3.
Q.2b. Mature forested wetland.
2b.1. Does 50% ofthe cover ofupper forest canopy consist ofevergrcen
trees older than 80 y€ars or deciduous rees older than 50 years?
Note: T\e size of trees is often not a measure of age, and size cannot
be used as a surrogale for age (see guidance).
2b.2. Does 50% ofthe cover offorest canopy consist ofevergreen trees older
than 50 years, AND is the structr:ral diversity of tbe forest high as
characterized by an additional layer oftrees 2A'49'tall, shrubs 6''20',
tall, and a herbaceous groundcover?
2b.3. Does <25o/o of the areal cover in the herbaceous/groundcover or
the shrub layer consist of invasive/exotic plant species from the list on p. 19?
YES: Category I
NO: Go to2b.2
YES: Go to2b.3
NO: Goto Q.3
YES: Category I
NO: Goto Q.3
Q.2c. Estuarine wetlands.
2c.1. Is the wetland listed as National Wildtife Refuge, Nationel Park,
National Estuary Reserve, Natural Area Preserve, State Park, or
Educational, Environmental or Scientific Reserves designated under
wAc 332-30-15l?
2c.2.k the wetland > 5 acres;
Note: lf an area contains patches of salt tolerant vegetation that are
1) less than 600 feet apart and that are separated by mudflats that go
dry on a Mean Iow Tide, or
2) separaled by tidal channels that are less than 100 feet wide;
all the vegetated areas are to be considered together in calculating the
wetland area.
or is the wetland l-5 acres;
or is the wetland < I acre?
YES: Category I
NO: Go to2c.2
YES: CategoryI
YES: Go to2c.3
YES: Go to2c.4
1
)1
2c.3. Does the wetland meet at least 3 of the following 4 criteria: .......
- minimum existing evidence of human related disturbance such as
diking dirching, filling, cultivation, g&nngor the presence of non-
native plant species (see guidance for definition);
- surface water connection with tidal salt'water or tidal freshwater;
- ar least 75Yo of the wetland has a 100 buffer of rmgrazed pasture,
open water, shrub or forest;
- has at least 3 of the following features: low marsh; higtr marsh; tidal
channels; lagoon(s);woody debris; or contiguous freshwater wetland-
2c.4. Does the wetland meet all of the four criteria under 2c3? (above)?
YES: Category I
NO Category II
YES: Categorytr
NO: Category Itr
Q.zd. frel Grass and KeIp Beds.
2d. l. Are eelgrass beds present? ...
2d.2. Are their floating or non-floating kelp bed(s) present with greater than
50% macro algal cover in the rnonth of August or September?
YES: Category I
NO: go to2&2
YES: Category I
NO: Caregory tr
Q.3. Category lV wetlands.
3a. Is the wetland: less than I acre AEd,
hydrologically isolated and-
comprised of one veg€tated class that is dominated (> 80% areal cover)
by one species from Table 3 (paee 19) or Table 4 (page 20)
3b. Is the wetland: l6ss rhan two acres
and, hydrologcally isolated,
with one vegetated class, and > 90Yo of areal cover in any combinafion of
species from Table 3 (page 19)
3c. Is the wetland excavated from upland and a pond smaller tban I acre
without a surface water comectionto streatr, lakes, rivers, or other
wetland, andhas < 0.1 acre ofvegetation
YES: Category IV
NO: goto 3c
YES: Category tV
NO: go to Q.4
@ Category IV
NO: go to 3b
l
I
28
GENERAL RESOT]RCE AND ROUTINE WETLAI\D DETERMINTATION FIELD DATA FORMIGENERAL AND PITYSIOGRAPHIC SITE DESCRIPTION:DilSTING SITE COI\DITONS:lof 2-LANDOWNER:SAMPLE PLOT ID ruEf bCITY/COUNTY/STATE:sIrE LocArIoN: efr Fter k)er b+ tateflrs,L! bbLtn4a ^J/PROJECT: F*gSeeDArE: 7/n/a-,7Au QAWATERSHED:OTTIER:NoIS THE SITE SIGNIFICAIITLY DISTTJRBEDYESREMARKS:NoNoON SITE? YesDO NORMAL CIRCTJMSTANCES EXISTYesAREA?PROBLEMPOTENTIALAAREATHEISSOILS AND GEOMORPHIC COI\DITIONSITYDROLOGYWETLAND }IYDROLOGYINDICATORS:PNMARY INDICATORS:Inundated X Water tvtarts! Sediment DepositsDrainage Pattern in WetlandsSaturated in Upper 12 InchesSECONDARY INDICATORS:E OxiOizeO root ChannelsIn Upper 12 InchesWater Sttined LeavesLocal Soil SurveyFAC-Neutral TestOther (Explain in RemcFlis) ,,tr!nnnnDrift LinestrnRECORD DATA: (Describe in Notes)Stream, Lake or Tide GaugeAeriat PhotographsNo Recorded Data AvailableOtherFIELD OBSERVATIONS:H2OTABLE: flApparentttt4cE-Depth of Surface Water:Depth to Free Water in Pit (SoilSaiuration): )ia Fin n ..tDepth to Capiltary nise )/a X io E ..E io !.'nfPercbedDRAINAGE CLASS: SlPLANDFORM:QuELEVATION:MFtOTITER:in Ll cm% SLOPE: b- ./CLASSIFICATION: (Taxonomic UniUseries/Map Unit),., 1% sLe'f,:<e"b'tsSOIL SURYEYkkeoON SITE CLASSIFICAey'ia$ t4-tttP?'pr, loASPECT: LJes FSOIL TEMPERATURE:oFocROOT DEPTH: 1o BTiltPARENTShaleAlluvialIgneousColluvialLimestoneAshSOILS INDA,S. FIELDSandstoneOutwashOther -WETLAIID DETERMINATION:NoNoPRESENT? YesWETLANDWETLAIID? YesIS THIS SAMPLING POINT WITHIN ANoNot6VEGETATION PRESENT? YesIryDROPHYTICIIYDRIC SOILS PRESENT? YesREMARKS sITElsI LOGGY SOIL AND WETLAND CONSULTING (Revision t0t22t200tlSignature:
SOIL PROTIILE SITE DESCRIPTIONVEGETATIONPLOT DATA AND PLANTCOMMTNIITY CLASSIFICATIONSAMPLE PLOT ID.2of 2lrltl Ll ] I" ltllrBrndv€c4 L<s6.wTiuogNrFREACTIONTO:a'-!tDipyrz+4alu€z"tc-/fStructure) vtsb p1'uglkpTln97 [pTextureand/orCon-sistenceefuv'*tro/1Al€lcIAlong PoresREDOXIn MatrlxIn PoreLiningsFe/lllnConcretions/NodulesU/noNsPERCENT/In Matrir AsSoft Mrsses/z/offt.3/t1trXDryMolstMrtrlxColorN 2,5/ I/o7&%1,/"Yt altcqaslDeDthIn.Ecil, Dt/'-eb*v4-Lb- tpFIaycrs ElHorizonsOaA-tBu,A.,rut-WETLANDINDICATORSTRATUMRELATIVEo//oCOVER3er%COVERDOI{INANTSPECTESNON.NATfVESPECIES4COYERPERQUADBASESt2r"l4tQ,_r\cLPLANT SPECIESOFPI,ANTTIIATF'AC'WACt LOGGY SOIL AND WETLAI\D CONSULTING @evision rcn2tz}Ill
Wetlands Rating Field Data Form
Background lnformation :l-eaaq 3d a- 2
Name of V s. fll-lt Le f*aq Affiltanon: !,'J etla ul Censctnt lr Ct o^t", 7f rBf oz'
Name of wetland hl e{tc""r] B
Govemment Jurisdiction of o (osr
Location: l/4 of l/4 S:- section: 7 Township:4o N Range: / W
Sources of lnformation: (Check all sources that apply)
Site visir-ZiUSGS Topo Map:- NWI map:- Aerial Photo:- Soils suwey ' l/
CIher:- Describe:
When The Field Data form is complete enter Category here: CUL e 1 t ^1 f,
Q.1. High Quality Natural Wetland
Answer this question if you have adequate information or experience to do so. If
not find someone with the expertise to answer the qr:estions. Theq if the answer
to questions 14 lb and lc are all NO, contact the Naflnal Heritage program of
DNR.
la. Iluman caused disturbances.
Is there significant evidence ofhuman+aused changes to topography or
hydrology of the wetland as indicared by any of the following conditions?
Consider only changes that may have taken place in the last 5 decades. The
irnpacts of changes done earlier have probably been stabilized and the wetland
ecosystem will be close to reaching some new equilibrium that may represent a
high quality wetland.
la.l Upstream watershed > 12% impervious.
1a.2. Wetland is dirckd and water flow is not obstructed.
la3. Wetland has been graded, filled, logged.
la4. Water in wetland is controlled by dikes, weirs, etc.
la5. Wetland is grazed.
la6. Other indicators of disturbance (list below)
Circle Answers
Yes: go to Q.2Yq: go to Q.2@ eo to Q.2
Yes: go to Q.2
Yes: go to Q.2
Yes: go to Q.2
No: go to lb.
25
lb Are there populations ofnon-native plants
more than l0% of the wetland, and appear to
which are currently present, covtr
be invading nafive populations?
Briefly describe any non-native plant populations and
Information source(s
lc. Is there evidence of human-caused disttnbances which have visibly
degraded water quality. Evidence of the degradation of warer quality include:
direct (untreated) runofffrom roads or parking lots; presence, or historic
evidence, of waste dumps; oily sheens; the srnell of organic chemicals; or
livestock use. Briefly describe:
YES: go to Q.2
No: go to lc.
YES: go to Q.2
NO: Possible Cat.I
Contact DNR
Q.2. Irreplaceable Ecological Functions:
Does the wetland:
have at least l/4 acre oforganic soils deeper than 16 inches
and the wetland is relatively undisturbed; OR[f the answer is NO because the wetland is disturbed briefly
describe:
Indicators of distrnbance may include:
- Wetland has been graded, filled, logged;
- Organic soils on the surface are dried-out for more than half
ofthe year;
- Wetland receives direct stormwater nrnofffrom urban oragricultural-*.1; T-t*ts F*er /{*e be.a
oR Lo75'*
have a forested class greater than I acre;
OR
have characteristics of an €strrarine systern;
OR
have eel or b€ds?
6d" all: go to e.3)Hgoto2a
YES: Go to 2b
Yes: Go to 2c
Yes: Go to 2d
2a. Bogs and Fens
Are any of the tbree following conditions met for the area of organic soil?
2a.1. Are Sphagnum. mosses a comnon ground cover (>30yr) and the cover of
invasive species (see Table 3) is less ttran l0%?
Is the area of sphagrrum mosses and deep organic soils > l/2 aqe2
Is the area ofsphagnrm nrosses and deep organic soils 7r-ll2 acre?
2a.2.Is there an ara of organic soil which has an em€rgent class with at least
one species from Table 2, arrd cover of invasive species is < I 0%o (see Table 3)?
Is the area of herbaceous plants and deep organic soils > ll2 acrc'!
Is the area ofherbaceous plants and deep organic soils l/Gll2acre?
YES: CategoryI
YES: CategoryII
NO: Go to?a3
YES: Category I
YES: Categorytr
NO: Go to2a.3
26
lb Are there populations of non-native plants which are currerrtly present, cover
more than l0% of the wetland, and appear to be invading native populations?
Briefly describe any non-native plant populations and
Information
lc. Is there evidence ofhurnan-caused distrnbances which have visibly
degraded water quality. Evidence of the degradation of water quality include:
direct (trntreated) runofffrom roads or parking lots; presence, or historic
evidence, of waste dumps; oily skens; the smell of organic chemicals; or
livestock use. Briefly describe:
YES: go to Q.2
No: go to lc.
YES: go to Q.2
NO:Possible Cat.I
Contact DNR
Q.2. lrreplaceable Ecological Functions:
Does the wetland:
have at lezstll4 acre oforganic soils deeperthan l6 inches
and the wetland is relatively r.rndisturbed; OR
[If the answer is NO because the wetland is disturbed briefly
describe:
Indicators of disnnbance may include:
- Wetland has been graded, filled, logged;
- Organic soils on the surface are driedout for more tttan half
ofthe year;
- Wetland receives direct stormwaterrunofffrom urban or
agricultural d"as.];
OR
have a forestedclass greaterthan I acre;,OR
have characteristics of an estuarine syst€m;
OR
have eel prass floatina ornon-floating kelp beds?
(NO to all: go to Q.3)
YES go to 2a
YES: Go to 2b
Yes: Go to 2c
Yes: Go to 2d
2a. Bogs and Fens
Are any of the three following conditions met for the area of organic soil?
2a.1. Are Sphagnum. mosses a common grormd cover (>30%) and the cover of
invasive species (see Table 3) is less than l0%?
Is the area of sphagnum mosses and deep organic soils > 1/2 acre?
Is the area ofsphagntnn rnosses and deep organic soils /.-ll2 acre?
2a,.2.Is there an area of organic soil which has an emergent class with at least
one species from Table 2, mdcover of invasive species is < 10% (see Table 3)?
Is the area ofherbaceous plants and deep organic soils > ll2 acre2
Is the area ofherbaceous plants and deep organic soils l/4-ll2acre?
YES: Category I
YES: Category II
NO: Go to2a.3
YES: Category I
YES: Caregory tr
NO: Go to2a.3
26
ls the area of herbaceous plants, Sphagnurn, and de.ep organic
soils > l/2 acre?
Is the area of herbaceous plants, Sphagnum, and deep organicsoils %-ll2 acre?
J.2a.theIs a ofmixturevegetatlon herbaceousonly andplants Sphagnumwithmossesnoscrub/shrub or forested classes?
YES: Category I
YES: Category II
NO: Go to .3
2b.l- Does 50% ofthe cover ofupper forest canopy consist ofevergreen
trees older than 80 years or deciduous trees older then JQ years?
Note: T]oe size of trees is often not a measure of age, and size cnnnot
be used as a surrogate for age (see guidance).
2b.2. Does 50% ofthe cover offorest canopy consist ofevergreen trees older
than 50 years, AND is the stmctural diversity of the forest hi-gh,,
characterized by an additional layer of trees 20'49'ta[, sbrubs 6,-20,,tall, and a herbaceous grormdcover?
19?
Q.2b. Mature forested wetland.
Does2b.3 25%theof coverareal theln orherbaceous/groundcover
the shrub ofconsistinvasive/exotic thefrom onlist
YES: Category I
NO: Go to2b.2
YES: Go to2b.3
NO: Go to Q.3
YES: CategoryI
NO: Go to 3
2c-1. Is the wetland listed as National wildlife Refuge, National partq
National Estuary Reserve, Natural Area preserve, State parlg or
Educational, Environmental or scientific Reserves designated underwAC 332-30-151?
2c.2.k the wetland > 5 acres;
Note: rf m area contains patches of salt tolerant vegetation that arel) less than 600 feet apart and that are separated by mudflats that go
dry on a Merin low Tide, or
2) separated by tidal channels that are less than 100 feet wide;
all the vegetated areas are to be considered together in calculating the
wetland area.
Q.2c. Estuarine wetlands.
or is the wetland < I acre?
oris the wetland l-5 acres;
YES: CategoryI
NO: Go to2c.2
YES: Caregory I
YES: Go to2c.3
YES: Go to2c.4
I
27
2c.3. Does the wetland me€t at least 3 of the following 4 criteria: .......
- minimum existing evidence of human related disturbance such as
diking, ditching, filling, cultivation, grcdngorthe presence of non-
native plant species (see guidance for definition);
- surface water connection with tidal saltuarer or tidal freshwater;
- at least 75% ofthe wetland has a 100 buffer ofungrazed pastur€,
open water, shrub or forest;
- has at least 3 of the following features: low marsh; high marsh; tidal
channels; lagoon(s);woody debris; or contiguous freshwater wetland
2c.4. Does the wetlandmeet all of the four criteria under 2c3? (above)?
YES: Category I
NO Category II
YES: Category tr
NO: Cateeory III
Q.2d. E€l Grass and Kelp Beds.
2d.1 . Are eelgrass beds present? .
2d.2. Are their floating or non-floating kelp bed(s) present with greater than
50% macro algal cover in the month of August or September?...............
YES: Category I
NO: go to2d..2
YES: Category I
NO: CuegoryII
Q.3. Gategory lV wetlands.
3a. Is the wetland: less than I acre and,
hydrologi cally isolated and,
cornprised ofone vegetated class that is dominared (> 80% areal cover)
by one species fromTable 3 (page 19) or Table 4 (paee20)
3b. Is the wetland: less than two acres
and, hydrologically isolated,
with one vegetated class, and > 90o of areal cover in any combination of
species from Table 3 (page 19)
3c. Is the wetland excavated from upland and a pond srnaller than I acre
without a surface waler connection to streams, lakes, rivers, or other
wetland, and bas < 0.1 acre of vegetation.
)QS: Category IV
lIrIQgo to 3b
]E{: Category IV
SlXgoto 3c
,KS: Category [V
I eo to Q.4
28
Q.4. Significant habitat value.
Answer all questions and enter data requested.
4a. Total wetland area
Estimate are4 select from choices in the near-right column, and score in the
far column:
Enter ac:reage of wetland here: / acres, and ,o*"", //rol est'*a{e./
Circle scores that qnalify
acres
>200
40-200
1040
s-l 03
l-5
0.1-l
<0.10
pomts
6
5
4
4b. Wetland classes: Circle the wetland classes below that quali$:
Open Water: if the area of open water is > ll4 arre
Aquatic Beds: if tG ,rea oiaqu.tic beds > ll4 asre,
Emergent: if the area of emergent class is > l/4 acre, /
Scrub-Shrub: if the area of scrub-shrub class is > l/4 acre, /
Forested: ifarea offorested class is > l/4 acre,
Add the nrmber of wetland classes, above, rhar qlrali&, and then
Score according to the colurrrns at right.
e.g. If there are 4 classes (aquatic beds, open water, emergent &
Scrub-shrub would circle 8 in the far column.
#of classes Pointsbb
3............ 6
4............ 8
5............10
4c. Plant species diversity.
For each wetland class (at right) that qualifies in
4b above, count the nrmber of different plant species
you can find that cover more thansyo of the ground.
You do nothave to neme them.
Score in column at far right:
e.g. If a wetland has an aquatic bed class with 3 species, an
emergent class with 4 species and a scrub-shnrb
class with 2 species you would circle 2, 2, and I in the
far colunn
Note: Any plant species with a cover of > 5olo
qualifies for points within a class, eve,n those
that are not ofrhat class.
Class
Aquatic
Emergent
Scrub-Scnrb
Forested
Points
0
I
2
J
0i@
J
0o)
3
@
# species in class
I
2
J
>3
I
>5
I
2
J
i ?-?--\(+5)
I@
34
>4
c
2
34
.>4
,l
29
-l
I
"t
1
i
1
l
I
II
I
)
l
.l
-)
4d. Structural diversity.17'(?
If the wetland has a forested class, add I point if each of the following
Classes is present within the forested class and is larger than l/4 acre:
-tre€s > 50'tall...
-trees 20'- 49' tall...
-shrubs. . . ..
-herbaceous ground cover.. .
Also add 1 point if there is any "open water" or "aquatic bed" class
Lmediately next to ttre forested a.rea (i.e. there is no scrub/shrub or
emergent vegetation between them).
YES. I
YES-I
YES_ I
YES- 1
YES_I
4e. Decide fromthe diagrams below whether interspersionbetween
wetland classes is higb moderate, low or none? If you think the
amount of interspersion falls in between the diagrams score accordingly
(i.e. a modenately high amount of interspersion would score a 4,
while a moderately low amount would score a 2)
nfile J()\v Itlrx
rnsdstatH nraderxte Irigh
4f Habitat features.
Answer questions below, circle features that apply, and score to right:
Is there evidence that the open or standing water was caused by beavers
Is a heron rookery located within 300'?
Are raptor nest/s located within 300?
Are there at least 3 standing dead trees Gnags) per a$e greatertlran
10" in diameter at 'breast height' (DBID? Q lv'r) ',
Are there at least 3 downed logs per acre with 2 diameter, - - --\> 6" for at least l0'in length? ( 'le> ' )
Are there areas (vegetated or unvegetated) within the wetland that are
ponded for at least 4 months out of the year, and the wetland has not
quahned as having an open water class in Question 4b. ?
YES: I
YES: I
YES
YES:2
YES: I
YES: I
30
4g.2 Does the wetland provide fish habitat seasonally AND does it have
a seasonal surface water connection to a fish-bearing strearrl
4g-3 Does the wetland frrnction to export organic rnatt€r through a surface
water connection at all times of the year to a perennial stream.
4g'4 Does the wetland firnction to export organic matter through a sr:rface
water connection to a stream on a basis?
only.)
time
Connection4g.to streams.answerone(Score
Does the wetland4e.1.forhabitat atfishprovide theof ANDanyyeilitdoesthavesurface\pat€rperennial connection ato streanrfish-bearing
YES=6
YES:4
YES:4
YES:2
Score the existing butrers on a scale of l-5 based on the following four descriptions.If the condition of the buffers do not exactly match the description, score either apoint higher or lower depending on whether the buffers are less or more degraded.
Forest, scrub, native grassland or open water buffers are present for
more than 10O'around 95% of the circumference.
Forest, scrub, native grassland, or open waterbuffers wider than 100'
for more than l/2 of the wetland circumference, or a forest, scrub,
grasslands, or open waterbuffers for more than 50'around 95 % of the
circumference.
Forest, scrub, native grassland, or open waterbuffers wider than 100'
for more thn 7/4 of the wetlend circumference, or a forest, scrub, native
grassland or open water buffers vid61 rhrn 50' for more than li2 of the
wetland circumference.
No roads, buildiqgs or paved areas within 100'of the wetland for more than
95% of the wetland circumference.
No roads, buildings or paved areas within 25' of the wetland for more
than9lo/o of the circr:nrference, or
No roads buildings or paved areas within 50' of the wetland for more than
l/2 of the wetland circtmference.
Paved areas, industrial areas or residential construction (with less than 50'
between houses) are less than 25 fetfrom the wetrand for more thangs %
of the circtunference ofthe wetland.
4h. Buffers.
Score: 5
Score:2
Score = 2
Score: I
Score: 0
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4i. Connection to other habitat areas:
Select the description, which best rnatches the site being evaluated.
-Is ttre wetland connected to, or part of a riparian corridor at least 100' wide
connecting two or more wetlands; or, is there an upland connection present >100'
wide with good forest or shrub cover (>257o cover) connecting it with a
Significant Habitat Area?
-Is the wetland connected to any other Habitat Area with either l) a forested/shrub
corridor < 100' wide, or 2) a corridor that is > 100' wide, but has a low vegetative
cover less than 6 feet in heigfut?
-Is the wetland cormected to, or a part of, a riparian corridor between 50 - 100' wide
with scrub/shrub or forest cover connection to other wetlands?
- Is the wetland connected to any other Habitat Area with narow corridor (<100)
of low veg€tation (< 6'in height)?
- Is the wetland and its buffer (if the buffer is less than 50'wide) completely isolated
by development (tnban, residential with a density greater than 2/acre, or industrial)?
YES:5
Yes
Yes:3
Yes=1
Yes:0
Now add the scores circled (for Q.Sa - Q.si above) to get a total.
Is the Total greater than or equal to 22 points?
/5 Porr"rS
IG$: Category II
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APPENIIIX B
PLANT LIST OF PLANTS IDENTIFIED
ON THE WETLANI}S
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PLANT LIST AND HYDROPHYTIC STATUS
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SCIENTIFIC NAME COMMON NAME HYDROPHYTIC STATUS
Agrostis sp Bentgrasses.FAC
Arbutus menziesii Pacific madrone FACU
Alnus rubra Red alder FAC
Carex obnupta Slough sedge OBL
Crataezus douglasii Douelas hawthom FAC
Eleocharis obrtusa Ovoid spikerush OBL
Gaultheria shallon Salal FACU
Juncus effirsus Soft rush FACW
Oenanthe sarmentosa Water parsley OBL
Phalaris arundinacea Reed canarygrass FACW
Ranunculus acris Tall buttercup FACW-
Rosa eglanteria Sweetbrier rose FACW
Rosa nutkana Nootka rose FAC
Rubus ursinus Trailing blackberry FACU
Salix lucida Pacific willow FACW+
Spiraea douglasii Douglas spirea FACW
Taraxacum offrcinale Common dandelion FACU
Vaccinium alaskaense Alaskan blueberry NI Possible FACto FACU
Vicia sp Vetch FACU
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STORMWATER
CLEARING AND
MANAGEMENT PUN,
EROSION CONTROL
FOR:
BUFFER PUN
PUN
A
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il
PACIFIC FUNDII{G CORPORATION
IN SECTION 9, TOWNSHIP 30 NORTH, RANGE I WEST, W,
CITY OF PORT TOWNSEND
JEFFERSON COUNTY, WASHINGTON
sHEEf ftOU
ilTfs OF S'RAY SINM INYN ffi100 50 0 t00 200
SCAIE IN FEET
CONTOUR INTEFr'AL= 2 FEEI
WENAND A50, WFFER
SIr',/(ES
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ntv A' sHoua BE
TIAN NIN| ,8'
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gNclE rcW OF a,/.LEs OF S'IIIAVM BE PLACED PRPR TC' WE
sr Fl or na.$n oRtDtnePROPER PUCEilENT OF S?NA}I
8ALE a^RRIER IN DRilMEE WAY
AIICHOR SIAKES EALE NA
TEIUND .A'
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25' BIJFFER
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SKIDDNC FILTER FAERtc tar oF 2'xBY '1 A. NRE FABRIC ORZONE.EQUIUilENT 2'
5'
LEGEND:
PmvDEJ/4'- 11/2'WASHD ERAIEL ACKEU IN
IRENCH AND ON ffiIH SIDESOF NUER FAAilC ON IHE
SURFACE
INIERCEPIOR
SWNE
DENOIFS RIGHT OF
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UNE
DENOIES IRE UNE.
DENOIES 25'NO CUT BUER.
DEN)18 RFSIFrIE, SKDANE ZONE.
I,FNOIF5' LOV INPAC| BUFFER.
IENOIA N,TjrcEPTOR SJ!4.8.
SILT FENCE w POST SUPP,AY BAI-FS O50' cEillEns tNDMIMEE WA}Serr1C.
R = 25' lllV,scliEvAllc o{LY - No scArE
1'm 8'QIARFT
PROWD€ FUU MD|H
TNGRf5S//ECRFSS AR^
STABILIZED CONSTRUCTION ENTMNCE
sfl
REVISIONS
DESCRIPnONDAIE
7/30/02 N)D,TEIIr''NDS AND BUFFERS
DETAL REFERENCES
BAI.IOON REFERENCES TO DETALS INCLUDE 1IIONUMBERS, THE BOTTOM NUUBER IS lHE NUMBER
OF THE PAGE WHERE lHE DETAL MAY BE FOUND.I}IE TOP NUUBER IS THE NUMBER OF IHAT DEIAIL
osx"*
v,v-
STORMWATER IIAMOEUENT, EUFFER &CALI ,+8 HOURS BEFORE YOU DIG
1-800-424-5555
FOR UNDERGROUND I'IIUTY LOCATE SERYICE
OMDINo AI,ID EROSION CONIROL PUNnn
PACINC ruNDING CORPORATION