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Wetland Delineation
806 Cary Street
Edmonds, Snohomish County, Washington
Wetland Report
Submitted to:
Mr. Ken Mattson
Ken Mattson and Associates
Submitted by:
James R. Hartley
Pentec Environmental, Inc.
120 West Dayton, Suite A7
Edmonds, Washington 98020
(206) 775-4682
May '14, 1993
May 14, 1993
Ken Mattson and Associates
PO Box 234
Edmonds, Washington 98024
Attention: Mr. Ken Mattson
Wetland Delineation for 806 Cary Road, Edmonds, Washington
Dear Ken:
�'V�
JUN ~ 3 19,,3
"NING D
As we discussed earlier, I am providing you with a wetland report describing the wetland
on the Cary Road property. The report does not discuss regulatory requirements for this
wetland in any detaii because of your unique situation with regard to whether you are strictly.
subject to the City of Edmonds (City) Critical Areas Ordinance. I do mention in the report that
project impacts to- the western lobe of the wetland can be mitigated.
If you need our assistance in discussions with the City please let me know. If the City
decides to allow wetland buffer incursions or impacts to the wetlands, we can provide you
with a wetland or wetland buffer mitigation plan.
Please call me at (206) 775-4682 and Iet me know how you would like to proceed at this
point.
Sincerely,
Pentec Environmental, Inc.
James R Hartley
Project Wetlands Ecologist
JRH/rc
00140=11COR RESPdW1ATTCOY RXTR
Pentec Envlronmentat, hir- . 120 West Dayton, Suite A7 - Fdnwrrds, WA 98070 - Phone= (205) 775.4682 - Fax: (206) 778-9417
I
Wetland Delineation
806 Cary Street
Edmonds, Snohomish County, Washington
Wetland Report
Submitted to:
Mr. Ken Mattson
Ken Mattson and Associates
PQ Box 234
Edmonds, Washington 98020
Submitted by:
James R. Hartley
Pentec Environmental, Inc.
120 West Dayton, Suite A7
Edmonds, Washington 98020
(206) 775.4682
May 14, '1993
PREFACE
Pentec Environmental, Inc. (Pentec), has prepared this report for use by Ken Mattson and
Associates. In preparing this report, Pentec has used the site information and proposed
development plans as supplied by Ken Mattson and Associates in and as referenced herein. The
results and conclusions of this report represent the professional opinions of Pentec
Environmental, Inc. Findings reported herein are based on information gathered in the field at
the time of the investigations, information provided by Ken Mattson and Associates, Pentees
understanding of federal, State, and local regulations governing wetland and stream areas, and
examination of public domain information concerning the proposed site. Prior to preliminary
and final design of any construction, all appropriate regulatory agencies should verify the
findings of this report, and appropriate approvals and permits should be obtained_
The wetland boundary, wetland and stream classifications, recommended buffers, and
functions and values are Pentees best professional opinion based on the circumstances and site
conditions at the time of our study.
Work performed conforms to accepted standards in the field for routine delineations and the
methodology outlined in the US Army Corps of Engineers Wetlands Delineation Manual. Final
determination of the jurisdictional wetland boundaries pertinent to Section 404 of the Clean
Water Act, however, is the responsibility of the Seattle district of the US Army Corps of
Engineers. Many different regulatory agencies may require review of the final site development
plans that could potentially effect zoning, water quality, and/or habitat functions of the lands
in question. Thus, the findings and conclusions contained in this report should be reviewed by
the appropriate regulatory agencies prior to any detailed site planning and/or construction
activities.
TABLE OF CONTENTS
Introduction..................................................
Background.......................................................... 1
Regulatory...........................................................
Methods..................................................... 4
General............................................................. 4
Field............................................................... 4
Vegetation........................................................ 4
Soils............................................................. 5
Hydrology........................................................ 6
Findings .................... 7
Soils...................................---....................... 7
Wetland Description................................................... 7
Wetland Functions and Values . . . . . . .................................... 9
References .......................... ............ .......... I
Appendix—Field Data Sheets
L
w�-
WETLAND DELINEATION
806 CARY STREET
EDMONDS, SNOHOMISH COUNTY, WASHINGTON
INTRODUCTION
A wetland evaluation was done to locate and, if necessary, delineate the boundary of a
suspected wetland to facilitate site planning for proposed residential development at 805 Cary
Street in Edmonds, Washington. The purpose of this report is to document the wetland
delineation by identifying and describing any discrete wetlands on the site. This report contains
the description of the delineated wetland and a schematic reap of the wetland boundary.
BACKGROUND
The property at 806 Cary Street is approximately 2.6 acres with an existing house on the
western portion of the site near Cary Street and a small duplex near the middle of the property.
Approximately the front two-thirds of the lot is lawn or landscaping associated with the two
residential structures, but the back one-third of the property is wooded and undeveloped. The
property slopes gently from Cary Street on the west to Shell Creek, which is just inside of the
eastern property boundary. The vicinity is shown in Figure 1.
Site visits were conducted on October 8, 1992, and on March 28, 1993. A wetland was
identified adjacent to Shell Creek. During the delineation process, areas were considered
wetlands as defined by Section 404 of the Clean Water Act and the City of Edmonds Critical
Areas Ordinance (Ordinance 2874). Categorization of the wetland follows the City of Edmonds
Critical Areas Ordinance (Ordinance 2874).
REGULATORY
The delineated wetland located on the property is subject to regulation as a water of the
United States pursuant to Section 404 of the Clean Water Act by the US Army Corps of
Engineers (Corps). Because the wetland is contiguous to Shell Creek, the Corps may consider
it an "adjacent" wetland. if the mean annual flow of Shell Creek exceeds 5 cubic feet per second
(cfs) at this point, an individual Corps permit may be required before filling or grading
ftatec
0014010011MATTWETL.APT page
Figure 1 Project vicinity.
0014010011MATTWETLRPT
P,/tec
page 2
within the boundaries of the wetland. It appears that the mean annual flow of Shell Creek is
less than 5 cfs at the site. The wetland is also subject to regulation by the City of Edmonds as
a critical area, pursuant to the Washington Growth Management Act of 1990 (RCW 36.70 A).
001 4010 0 1 1 MATT W Ef L. RPT
ftnwc
page 3
METHODS
GENERAL
The primary purpose of the site visit was to locate, evaluate, and delineate any wetlands and
streams on site. Wetland community types are described following Cowardin et al. (1979).
Wetlands were identified and delineated using methods consistent with the 1987 Corps manual
(1987) and the 1989 Federal Manual for Identifying and Delineating Jurisdictional Wetlands
(Federal Interagency Committee for Wetland Delineation [FICWD] 1989)_
Wetlands possess three essential characteristics: hydrophytic vegetation, hydric soils, and
wetland hydrology. Though all three of these parameters may not be evident at the time of a
site visit, evidence of all three parameters must be found to determine an area is a wetland.
A review of existing reference materials was made before the site visit to determine if
wetlands had been identified on the site by other sources. These references included the 1987
National Wetland Inventory (NWI) Map for Edmonds East Washington (US Fish and Wildlife
s Service [USFWS] 1987), the critical areas maps of the Snohomish County Tomorrow Growth
Management Act Planning Project (Pentec Environmental et al.1991), and the Soil Survey of the
y Snohomish County Area, Washington (Debase and Klungland 1983).
FIELD
The site was traversed and examined to identify and delineate wetlands using the routine
on-site determination method in FICWD (1989).
Vegetation
Dominant plant species were recorded in each vegetation stratum (tree canopy, shrub zone,
and groundcover). Each plant's wetland indicator status was assigned using the USFWS
National List of Species that Occur in Wetlands: Northwest—Region 9 (Reed 1988). The
indicator code for plant species is noted below.
pentec
0014010011MATTWETL.RPT page 4
'p.
Code
Designation
Wetlands probability
(percent chance that plant
will be found in a wetland)
OBL
Obligate wetland species
> 99
FACW
Facultative wet
67 to 99
FAC
Facultative
34 to 66
FACU
Facultative upland
1 to 33
UPL
Obligate upland
< 1
-NI
No indicator status
When 50 percent or more of the dominant species in each vegetative stratum of a vegetation
unit have an indicator status of OBL, FACW, and/or FAC, the vegetation is considered
hydrophytic. Each vegetation unit was classified as hydrophytic or non-hydrophytic based on
the percent of the area covered by the dominant species and their indicator statuses.
Synonymy used in this report follows Hitchcock and Cronquist (1976).
I r1
On-site samples were taken in each wetland plot using a tile spade or a soil auger. Sails
were examined for hydric characteristics and to determine if they were appropriately mapped
in the soil survey. Soils colors were identified using a Munsell soil color chart (Kollmorgen
Corporation 1975). Depth to soil saturation or depth of surface inundation was recorded for
F, each plot. Multiple samples were taken in the around the apparent wetland/upland boundary
in order to determine the exact boundary line.
Anaerobic (saturated) soil conditions cause soils to exhibit certain characteristics that can be
observed in the field. Presence of a chroma of less than 1 (if no mottles are present) or 2 (if
mottles are present), gley characteristics (for mineral soils), high -organic -content characteristics
(for peau and mucks), and accumulation of sulfitic material were used as indications of hydric
soils, as outlined in the guidelines provided in F1CWD (1989).
00140100?1MATTWETLRPT ieAtm
Reliance on Soil Conservation Service (SCS) soil maps to determine the small-scale presence
of hydric soils on a site may prove inaccurate because of the method and scale of the mapping_
Most SCS maps are produced using aerial photographic interpretation with limited field
verification. Map units of a non -wetland soil commonly include hydric soil and vice versa.
Hydrology
Wetland hydrology is considered present when there is inundation or soil saturation for a
sufficient period of time during the growing season to exert an overriding influence on
characteristics of vegetation and soils due to anaerobic and reducing conditions. Such
characteristics are usually present in areas that are inundated or that have soils saturated to the
surface for sufficient duration to develop hydric soils and support vegetation typically adapted
for life in periodically anaerobic soil conditions.
Wetlands need not be wet year-round to support hydric soils and vegetation. Hydrologic
indicators are therefore used to determine if the hydrology is either currently present or can be
inferred from indicators. These indicators may include: site inundation, soil saturation, soil
mottling, oxidation channels in the soil associated with the rooting zone of plants (rhizosphere),
water marks on vegetation, drift lines, plants displaying hydrophytic adaptations, water -borne
sediment deposits, algal deposits on the soil surface, surface -scour drainage patterns, wetland
drainage patterns, impermeable subsurface soil horizons, and standard hydric soil characteristics
such as gleying, mottling in a low chroma matrix, histic soil horizons, concretions, and high
organic content.
Pe
0014M0011MAlTWETLPPT paagee 6
FINDINGS
The site slopes gently from Cary Road east to Shell Creek, which runs along the eastern
property boundary. The slope is gentle except along the edge of the main body of the wetland
where the uplands drop sharply into the Shell Creek floodplain, which contains most of the
wetland. The wetland is adjacent to Shell Creek, occupying approximately the eastern third of
the site. The wetland includes most of the forested portion of the site and includes a lobe
extending west from the main body of the wetland into a small portion of the lawn near the
northern property boundary. The wetland lobe follows a swale that drains into the Shell Creek
floodplain. Figure 2 shows the approximate wetland boundary.
The wetland boundary was difficult to locate exactly during the initial site visit, which was
conducted at the driest time of the year. A second site visit conducted during the spring was
necessary to ensure that the wetland delineation was accurate.
The NWI map (USFWS 1987) did not show any wetlands on the site. The Snohomish County
Tomorrow Growth Management Act Planning Project map, however, did identify this wetland
(Pentec Environmental et al. 1991).
SOILS
The Soil Survey of the Snohomish County, Washington, area maps the soils on the site as
Alderwood-Urban land complex 2 to 8 percent slopes and Custer fine sandy loam (Debose and
Klungland 1983)_ Alderwood soils are not hydric, but the AIderwood-Urban land complex soil
mapping unit is known to include small areas of hydric soils. Custer soil is listed as a hydric
soil on county, State, and national lists of hydric soil.
' WETLAND DESCRIPTION
An approximately 0.5 -acre forested (PFO) wetland lies in the eastern portion of the site
adjacent to Shell Creek. - The main body of the wetland is in the floodplain of Shell Creek. A
narrow lobe of wetland extends out of the floodplain to the west. This portion of the wetland
follows a drainage swale from the upland down into the floodplain. This lobe of wetland is
almost entirely forested, but the westernmost portion extends approximately 20 ft into the lawn.
This wetland meets the criteria of a Category lI wetland pursuant to the City of Edmonds
Critical Areas ordinance.
0014010011MATTWETL RPT FL-BWC
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Figure 2 Site map and approximate wetland boundary.
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oar aowollMArnvE fit. FtPi page 8
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ia
- �
ti
•r.•
'�.....�' �'` '1
• Z ��
�. � � _ ..�'�`
�
� y
L` r-
t---
-R
•^' `
e�
l •jpr�, `S-t./r+�.`w"".+.�srt�.L�r.�
`--:� a
��: `3
-0
-
_ ti r
;
`'
-
.-.r; .n
- - - - Approximate wetland
boundary.
Figure 2 Site map and approximate wetland boundary.
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oar aowollMArnvE fit. FtPi page 8
The vegetation in the main body of the wetland is dominated by red alder (Alnus rubra,
FAC), Pacific willow (Salix lasiandra, FACW+), salmonberry Rubus spectabilis, FAC), and water
parsley (Oenanthe sarmentosa OBC)_ Other species noted include twinberry (Lonicera
involucrata, FACW), lady fern (Ath)rium filix-femina, FACW), and skunk cabbage (L spm
americanum, OBL). In the western lobe of the wetland at the edge of the forested area, the
vegetation is dominated by bluegrass (Poa, sp. FAC-FACU), creeping buttercup (Ranunculus
repens, FACW), and dandelion (Taraxacum officianale, FACU).
In the main body of the wetland in the floodplain, the soil is deep black (10 YR 2:5/1) snuck.
When the soil was examined a sulfitic odor was noted. The soil in the western lobe of the
wetland is gray (10 YR 6/1) sandy loam with yellowish -brown (10YR 5/8) mottles.
At the time of the October site visit, the soil in the main body of the wetland was saturated
to the surface or was ponded to a depth of 0.5 inches. During the October visit, no water table
was detected within 18 inches of the surface In the western lobe, but during the March site visit,
the water table was within 16 inches of the surface.
The main body of the wetland in the floodplain of Shell Creek is relatively undisturbed and
in good condition, given its location within an urban area. The lobe of wetland that extends
west up a drainage swale has been considerably more disturbed by dumped material (mostly
yard waste such as grass clippings and woody debris) and the construction of a sewer main that
traverses the property generally from north to south. The small portion of this lobe that extends
into the lawn is continually disturbed by repeated mowing. If development is proposed within
a portion of this wetland lobe, impacts to the wetland and buffer can be mitigated through
enhancement of the remaining wetland and buffer.
WETLAND FUNCTIONS AND VALUES
-. Wetlands play important roles that provide valuable benefits to the ecosystems where they
exist. Each wetland serves some function and has some value, although specifics vary from
wetland to wetland. Understanding and identifying these values and roles is currently limited
to qualitative assessments of potential functions and judgments of their value. Some of the
functional values that wetlands may provide identified by Cowardin et al. (1979) and Reppert
et al. (1979) are the high biological productivity of the systems (supply of energy to the food
web); important nutrient cycling; high habitat diversity for wildlife, high associated species
diversity (plants and wildlife); refuge for threatened, endangered, and sensitive species; areas
of groundwater recharge and discharge; storm and floodwater storage and control; biofiltration
00140X001\MATTWETLRPT age 9
M
for surface water flows, particulates, toxicants, and nutrients; and consumptive and
nonconsumptive socioeconomic functions such as aesthetics and recreation.
Identified functions for this wetland include groundwater recharge/ discharge; flood control;
water quality improvement; retention, removal, and transformation of nutrients and sediment;
fish and wildlife habitat; and biomass production and export.
0014010011MATrW ETL, RPT
ftntec
page 10
REFERENCES
Cowardin, L., V. Carter, F. Golet, and E. LaRoe. 1979. Classification of wetland and deepwater
habitats of the United States. US Fish and Wildh e Service, Office of Biological Services,
Washington, DC. Publication No. FWS/OBS-79/31,
Debase, A., and M. Klungland 1983. Soil Survey of Snohomish County Area, Washington.
USDA Soil Conservation Service_
Federal Interagency Committee for Wetland Delineation (FICWD)_ 1989_ Federal manual for
identifying and delineating jurisdictional wetlands. US Army Corps of Engineers, US
Environmental Protection Agency, US Fish and Wildlife Service, USDA Soil Conservation
Service, Washington, DC. Cooperative technical publication.
Hitchcock, C., and A. Cronquist. 1976. Flora of the Pacific Northwest. University of
Washington press, Seattle, Washington.
Kollmorgen Corporation. 1975. Munsell soil color charts. MacBeth Division of Kollmorgen
Corporation. Baltimore, Maryland.
Pentec Environmental Inc. 1991. Snohomish County Tomorrow wetlands areas map, Edmonds
East Quadrangle.
Reed, P. B., Jr. 1988. National list of species that occur in wetlands: Northwest—Region 9. US
Fish and Wildlife Service. Welut 86/WIZ. 47.
Reppert, R., W. Sigelo, E. Stakhiv, L. Messman, C_ Meyers. 1979. Wetland values: concepts and
r methods for wetlands evaluation. US Army Corps of Engineers, Institute for Water
Resources, Virginia.
US Army Corps of Engineers (Corps). 1987. Wetlands Delineation Manual. Technical Report
Y-87-1, Environmental Laboratory, US Army Engineer Waterways Experiment Station,
Vicksburg, Mississippi.
US Fish and Wildlife Service. 1987. National Wetlands Inventory map—Edmonds East
Quadrangle.
an
001401001WATMETLRPT �
Appendix—
Field Data Sheets
DATA FORM
ROUTINE ONSITE DETERMNATION METHODt
Field Investigators): 11W�P- rzc`Y Date: 5 z
ProjeCVSfte:_ State: Q''`A- Coun - 54(!A1
Appl'usantA)caner: �'� �"J — - -- Plant Community #t/Name: EEJQ — FAD PCA1AJ
Note: If a more detailed site description is necessary. use the bads of data form or a field notebook
---------------------------------------------------
Do normal environmental conditions exist at the plant community?
Yes --'-No (If no, explain on back)
Has the vegetation, soils, and/or hydrology been significantly disturbed?
Yes
---------------------------------------------------
No ✓ (If yes, explain on back)
VEGETATION
-3_
= &0Jejr.-4A'r5
Indicator
Indicator
Plant Species
Status
Stratum
Dominant Plant Species Status Stratum
1.
4 [ rX - - _ Sr��yAi2i4
F4GW
11.
2„
Ac va. eurssz.A-
FAC-
T
12-
3.
tburci" n"uoucQmZA
r,4c W
.1_
13. _
4. -,curio
s- 5'P&-- E geL1'5 W
FAc-
5
14.
15.
6.
>!±2 ,0z!mL x`-
QgU
rt
16.
7.
17.
1Q.
2Q
Percent of dominant species that are OBL. FACW, and/or FAC /O 0,0?,
Is the hydrophytic vegetation criterion met? Yes No
Rationale: t�// doesti—tiyts FAC
SOILS
Sedes/phase: Subgroup:2
Is the sail on the hydric soils list? Yes No Undetermined
Is the soil a Histosol? Yes 2� Na Histic epipedon present? Yes No X
Is the soil: Mottled? Yes Noy Gleyed? Yes No
Matrix Color: - - &- -X&
x :.7,„5 /r Mottle Colors:
.---
Other hydric soil indicators:
is the hydric soil criterion met? Yes ✓ No
Rationale: fir rr - Saiz- -----yt iO�c 64.Q e— -
HYDROLOGY
Is the ground surface inundated? Yes ✓ No Surface water depth: /
Is the soil saturated? Yesy No
Depth to free-standing water in pittsoil probe hole: Su2F
List other field evidence of surface inundation or soil saturation_
is the wetland hydrology criterion met? Yes ✓ No
Rationale:- ro SussFi4Cr V po,vPiAJd f17--E-AID of 5cLn,-W,57c..
w6 -
JURISDICTIONAL DETERMINATION AND RATIONALE
Is the plant community a wetland? Yes No
Rationale for jurisdictional decision: 19/I 3 cz rs --,El r✓f--,'--s
1 This data form can be used for the Hydric Soil Assessment Procedure and the Plant Community
Assessment Procedure.
2 Classification according to 'Soil. Taxonomy..
B-2
DATA FORM
ROUTINE ONSITE DETERMINATION MEfHODI
Field Investigator(s): :121-xA eTt-Ey _ _ Date: " 4 Y 3
Pro eci/Slte:--...---C:.A W lza.�rn - ch 01 -Lo vo -5 - Slate: wyq- County- e-
Appllcant0wner Plant Community #/Name:
Now Ii a more detailed site description is necessary. use the batt of data form or a fieid notebook-
---------------------------------------------------
Do normal environmental conditions exist at the plant community?
Yes ✓ No (ii no, explain on back)
Has the vegetation, soils, and/or hydrology been significantly disturbed?
Yes No ✓ (If yes, explain on back)
SOILS
Series/phass: Subgroup?
Is the soil on the hydric soils fist? Yes No Undetermined u
Is the sol a Histosol? Yes No y_ Histic spipedon present? Yes No Y-_
Is the soil: Mottled? Yes No _ Z Gleyed? Yes No V
Matrix Color. !O V -d= z�/� Mottle Colors:
Other hydric soil indicators:
Is the hydric sol criterion met? Yes No _ XC
Rationale: No dvAc e-' .z s
HYDROLOGY
Is the ground surface inundated? Yes No ✓ Surface water depth:
Is the soil saturated? Yes No t�-
Depth to tree -standing water in piUsoil probe hate: ,vou6- wrW41N
List other field evidence of surface inundation or soil saturation.
ONS
Is the wetland hydrology criterion met? Yes No
Rationale: Ivo ,ce /S Z:Opo
s.Zf1 s4;7.7-rc_ 7ZJ.J-Al oX7-77,4.01) Ivo o-9,477'r=2,eNs -
JURISDICTIONAL DETERMINATION AND RATIONALE
Is the plant community a wetland? Yes No
Rationale for jurisdictional decision: a P ,r.tE -,es o 144 i
f This data form can be used for the Hydric Soil Assessment Procedure and the Plant Community
- Assessment Procedure.
2 Classification according to 'Soil Taxonomy_'
nn
VEGETATION
)K- _ bOM IA"4-,J Ts Indicator
. Indicator
nomip�Plarnt Species Status
Stratum Dominant Plant Species Status Stratum
. /? LULLS /2.rdd24 +c FOC
2. 5d -!(,K cASIAa anA E/KWk
12
g, 411 dus' A615"" --c Y EAW_
_ 13.
A. _ GLa=Qd- D r a c A -W EEC -
—14-_ 14.
S.
15.
6.
16.
7
17.
8.
18.
9.
19-
10.
24
Percent of dominant species that are OBL. PACW, and/or PAC t e to
h the hydrophytic vegetation criterion met?
Yes v No
Rationale:
M C ash
SOILS
Series/phass: Subgroup?
Is the soil on the hydric soils fist? Yes No Undetermined u
Is the sol a Histosol? Yes No y_ Histic spipedon present? Yes No Y-_
Is the soil: Mottled? Yes No _ Z Gleyed? Yes No V
Matrix Color. !O V -d= z�/� Mottle Colors:
Other hydric soil indicators:
Is the hydric sol criterion met? Yes No _ XC
Rationale: No dvAc e-' .z s
HYDROLOGY
Is the ground surface inundated? Yes No ✓ Surface water depth:
Is the soil saturated? Yes No t�-
Depth to tree -standing water in piUsoil probe hate: ,vou6- wrW41N
List other field evidence of surface inundation or soil saturation.
ONS
Is the wetland hydrology criterion met? Yes No
Rationale: Ivo ,ce /S Z:Opo
s.Zf1 s4;7.7-rc_ 7ZJ.J-Al oX7-77,4.01) Ivo o-9,477'r=2,eNs -
JURISDICTIONAL DETERMINATION AND RATIONALE
Is the plant community a wetland? Yes No
Rationale for jurisdictional decision: a P ,r.tE -,es o 144 i
f This data form can be used for the Hydric Soil Assessment Procedure and the Plant Community
- Assessment Procedure.
2 Classification according to 'Soil Taxonomy_'
nn
DATA FORM
ROUTINE ONSITE DETERMINATION METHOD
Field Investigator(s). ~/4 u*f-rz.Fu
_ Date: 7-8 a 3
ProjecUSite: CA2_0V .eahh „�-
—State: cod`- County:
�pwner: �'}'� "�-
Plaint Community ##Mame: 4A-UPV ��aZLVA5S7ZW
Note. I a more detailed site description is necessary, use the back of data form or a field notebook
---------------------------------------------------
Do normal environmental conditions exist at the plant community?
Yes ✓ No (K no. explain on back)
Has,the vegetation, soils. and/or hydrology been significantly disturbed?
Yes No v (11 yes. explain on back)
---------------------------------------------------
VEGETATION
D hL4* 4_-M .* Indicator
Indicator
-Bicron Plant Species Status
Stratum Dominant Plant Species Status Stratum
1_ G Al gFR uP4-rA6W T14 11.
2 C 9ob*S6y POA s� uNi
12
3. a r-,uUNLu ut s X64-225 F4c".3
F 13.
d. VA12 41CrC-116d 08FIc,16I tC E!L4-=O
. -- 14.
ra. 11MCaS "W47US
_1 - 15.
6.
16.
7.
17.
$.
18.
9.
19-
10.
20.
Percent of dominant species that are OBL, FACW. and/or FAC _ /0,0
Is the hydrophytio vegetatlon criterion met?
Yes t/ No
Rationale: ra"'
Q 1r7t�2
SOILS
Seriestphase:
Subgroup.2
Is the soil on the hydric soils list? Yes
No Undetermined X
fs the soil a Histosol? Yes No y, Histic epipedon present? Yes No y_
1s the soli: Mottled? Yes No
Gleyed? Yes No y
Matrix Color... z ��
_ Mottle Colors: /n
Other hydric sod indicators:
1"C111-62
Is the hydric soil criterion met? Yes ✓
No
Rationale- Coc.p2.
HYDROLOGY
Is the ground surface inundated? Yes No Surface water depth:
Is the sod saturated? Yes ✓ No
Depth to free-standing water in pit/soil probe hole: N c s
List other field evidence of surface inundation or soil saturation_
Is the wetland hydrology criterion met? Yes ✓ No
Rationale: w1 r,Y,1A) / 0,--
JURISDICTIONAL
F
JURISDICTIONAL DETERMINATION AND RATIONALE
Is the plant community a wetland? Yes ✓ No
Rationale for jurisdictional decision: e!2:6--
This
�
This data form can be used for the Hydric Soil Assessment Procedure and the Plant Community
Assessment Procedure.
2 Classification according to 'Soil Taxonomy.'
0-1
DATA FORM .
ROUTINE ONSITE DETERMINATION METHODt
Field Investigator(a):
Date:. .�,a 5? IF -3
Projec lSlie:— G•4 Y l2o,+A 4- >D
QA,05 State-. W�4- County
ApplicanwDwner. _. 6t6�6N
Plant Community a/Name:L,4 ._�
Note. If a more detailed site description is necessary, use the back of data form or a field notebook-
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otebookDo
Donormal environmental conditions exist at the plant community?
Yes --' No (if no, explain on back)
Has the vegetation, soils, and/or hydrology been significantly disturbed.?
Yes No If yes, explain on back)
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VEGETATION
!)a.scr.t�iturs ak Indicator
Indicator
-Plant Species Status
Stratum Dominant Plant Species Status Stratum
3. c ar frau
- 13.
,d
14.
5.
15.
6.
16.
T_
1 T.
9.
19.
10.
20.
Percent of dominant species that are OBL. FAM and/or FAC u ru
Ia the hydrophytic vegetation criterion met?
Yes No uN le -
Rationale: SP
5M7W 5 5 MAMc-AJ*W-,0
SOILS
Sedeslphase: Subgroup:2
Is the soil.on the hydric soils fast? Yes No Undetermined V
Is the soil a i istosoi? Yes No �_ Hisstic ep."cpedon present? Yes No k
Is the soil: Mottled? Yes No _ X Gleyed? Yes No
Matrix Color, / i)y4- �� Mottle Colors:
Other hydric sol[ indicators:
Is the hydric sod criterion met? Yes No )e
Rationale: .Jw
HYDROLOGY
Is the ground surface inundated? Yes No X Surface water depth:
Is the soil saturated? Yes No )_ „
Depth to tree -standing water in pittsoil probe hole:
List other field evidence of surface inundation or sod saturation_
C
is the wetland hydrology criterion met? Yes No X _
Rationale: c- Z::-- W�12 itic
JURISDICTIONAL DETERMINATION AND RATIONALE
Is the plant community a wetland? Yes No
Rationale for jurisdictional decision: sdY45,.,_4 ��r
vE6�774-77aR, ?19-%eogA4E7 1 -2 Ad55/AZ-Y .tilt" -T_....--
t This data form can be used for the Hydric Sail Assessment Procedure and the Plant Community
Assessment Procedure_
2 Ctassifi ation according to 'Soil Taxonomy.'
B-2