HomeMy WebLinkAbout20110846 Ver 1_401 Application_20110911Attention: Division of Water Quality 20 1 10 8 4 6
401/Wetlands Unit
Per instructions from Ms Karen Higgins in her letter dated September
6, 2011 (attached), I am resubmitting the permit application package
using the updated Preconstruction Notification Application form.
Please note that this package includes three copies of the permit
application, plans and supporting documentation instead of the
required six.
At their request, one copy each was sent directly to:
Monte Matthews
U.S. Army Corps of Engineers
Raleigh Regulatory Field Office
3331 Heritage Trade Drive
Suite 105
Wake Forest, North Carolina 27587
Sue Homewood
North Carolina Division of Water Quality
585 Waughtown Street
Winston-Salem, NC 27107
Ron Linville
North Carolina Wildlife Resources Commission
3855 Idlewild Road
Kernersville, NC 27284-9180
..? 2AIM
Q?c?02 0W 9 OP
SEP 1 3 2011
DENR - WATER QUALITY
WETLANDS AND STORMWATER eWC
The stream restoration project covered by this application is
associated with a national training course being sponsored by Pilot
View RC&D. The course and start of construction are scheduled for
October 17, 2011. Given the delay in processing caused by my initial
submission, I am requesting an expedited distribution and review.
Thank you for your assistance.
Sincerely,
(34Akpt4"?'C.
Rocky Powell
Clear Creeks Consulting (Agent)
201 1 0846
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Corps action ID no.
DWQ project no.
Form Version 1.3 Dec 10 2008
Pre-Construction Notification PC Form
A. Applicant Information °=7s-
1. Processing
1a. Type(s) of approval sought from the
Corps:
®Section 404 Permit ? Section 10 Permit
1 b. Specify Nationwide Permit (NWP) number: NW - 27 and NW-33 or General Permit (GP) number:
1 c. Has the NWP or GP number been verified by the Corps? ® Yes ? No
1d. Type(s) of approval sought from the DWQ (check all that apply):
? 401 Water Quality Certification - Regular ? Non-404 Jurisdictional General Permit
® 401 Water Quality Certification - Express ? Riparian Buffer Authorization
1 e. Is this notification solely for the record
because written approval is not required? For the record only for DWQ 401
Certification:
? Yes ® No For the record only for Corps Permit:
? Yes ® No
1f. Is payment into a mitigation bank or in-lieu fee program proposed for mitigation
of impacts? If so, attach the acceptance letter from mitigation bank or in-lieu
fee program. ? Yes ® No
1g. Is the project located in any of NC's twenty coastal counties. If yes, answer 1 h
below. ? Yes ® No
1h. Is the project located within a NC DCM Area of Environmental Concern (AEC)? ? Yes ® No
2. Project Information
2a. Name of project: Chadric Creek Stream Restoration
2b. County: Surry
2c. Nearest municipality / town: Dobson
2d. Subdivision name: NA EP 1 3 2011
2e. NCDOT only, T.I.P. or state
project no: DEI WATER
UIypjAun Ql1ALITV
gnw,
3. Owner Information BRANCH
3a. Name(s) on Recorded Deed: Arcadia LLC
3b. Deed Book and Page No. Book - 0511 and Page - 1434
3c. Responsible Party (for LLC if
applicable):
3d. Street address: P.O. Box 2611
3e. City, state, zip: Raleigh, NC 27602
3f. Telephone no.:
3g. Fax no.:
3h. Email address:
Page I of 11
PCN Form - Version 1.3 December 10, 2008 Version
4. Applicant Information (if different from owner)
4a. Applicant is: ® Agent ? Other, specify:
4b. Name:
4c. Business name
(if applicable):
4d. Street address:
4e. City, state, zip:
4f. Telephone no.:
4g. Fax no.:
4h. Email address:
5. AgenVConsultant Information (if applicable)
5a. Name: Rocky Powell
5b. Business name
(if applicable): Clear Creeks Consulting LLC
5c. Street address: 1317 Knopp Road
5d. City, state, zip: Jarrettsville, MD 21084
5e. Telephone no.: (410) 692-2164
5f. Fax no.:
5g. Email address: clearcreeks@zoomintemet.net
Page 2 of 11
PCN Form - Version 1.3 December 10, 2008 Version
B. Project Information and Prior Project History
1. Property Identification
1a. Property identification no. (tax PIN or parcel ID): 4929-00-81-8126
Latitude: 36°26.232 N Longitude: -
1 b. Site coordinates (in decimal degrees): 80°54.696 W
(DD.DDDDDD) (-DD.DDDDDD)
1c. Property size: 1149.7 acres
2. Surface Waters
2a. Name of nearest body of water (stream, river, etc.) to Mitchell River
proposed project:
2b. Water Quality Classification of nearest receiving water: B, Tr, ORW
2c. River basin: Yadkin River
3. Project Description
3a. Describe the existing conditions on the site and the general land use in the vicinity of the project at the time of this
application:
The dominant land use in the watershed is forest and agriculture. The project site is agriculture - pasture for livestock
grazing, cropland, and large wood lots.
3b. List the total estimated acreage of all existing wetlands on the property:
0.12 acres
3c. List the total estimated linear feet of all existing streams (intermittent and perennial) on the property:
13,000
3d. Explain the purpose of the proposed project:
Remove an old low-head dam, restore 340 LF of existing degraded stream above dam, day-light piped stream below dam
and create 900 LF of open, natural stream channel,
3e. Describe the overall project in detail, including the type of equipment to be used:
In the 1950's the lower reaches of Chadric Creek were dammed and piped with 100% of the baseflow diverted into a
recreational fishing pond located along the floodplain between Chadric Creek and Saddle Mountain Creek. This condition
eliminated in-stream habitat along this section of Chadric Creek and created a barrier to fish migration into the
headwaters of the creek. In the 1960's a sediment trapping pond was constructed downstream of the dam and upstream
of the fishing pond. Over the decades since it was constructed this sediment pond filled with material washed in from
upstream. The permanently flooded lower section of the sediment pond currently supports a small (0.12 acre) emergent
wetland colonized by rushes, sedges and cattails. The restoration along Chadric Creek involves: stabilizing 340 feet of
unstable channel upstream of the old dam; restoring in-stream habitat along this section of the creek, as well as fish
passage to the upper reaches by removal of the old low-head dam. The lower section of the creek that is currently piped
"
will be
day-lighted" by removing the pipes and constructing 900 feet of new open, natural channel that meanders across
an old field area that will be converted to floodplain and wetlands. Although 90% of the baseflow will be conveyed by the
newly constructed channel, approximately 10% will still be diverted to maintain the emergent wetland in the sediment
pond, as well as the recreational fishery in the fishing pond.
Page 3 of 11
PCN Form - Version 1.3 December 10, 2008 Version
4. Jurisdictional Determinations
4a. Have jurisdictional wetland or stream determinations by the
Corps or State been requested or obtained for this property /
? Yes ®No ? Unknown
project (including all prior phases) in the past?
Comments:
4b. If the Corps made the jurisdictional determination, what type
? Preliminary ? Final
of determination was made?
4c. If yes, who delineated the jurisdictional areas? Agency/Consultant Company: South Fork Environmental
Name (if known): Richard Everhart Other:
4d. If yes, list the dates of the Corps jurisdictional determinations or State determinations and attach documentation.
A pre-application meeting was held on-site August 10, 2011 to present the project to the permitting agencies. The
following persons were in attendance: Mr. Monte Matthews, USACOE; Ms. Sue Homewood; NCDWQ; Mr. Brian Lambe,
NCDLQ; Mr. Ken Hodges, NCWC; Mr. Greg Goins, NRCS; Mr. Dick Everhart, South Fork Environmental; Mr. Tommy
Burchette, Foothills Consulting; and Mr. Rocky Powell, Clear Creeks Consulting. At the request of Monte Matthews,
several areas on site were evaluated for wetland conditions. The wetland delineation report and mapping is attached to
this application.
5. Project History
5a. Have permits or certifications been requested or obtained for ? Yes ® No
? Unknown
this project (including all prior phases) in the past?
5b. If yes, explain in detail according to "help file" instructions.
6. Future Project Plans
6a. Is this a phased project? ? Yes ® No
6b. If yes, explain.
Page 4 of 11
PCN Form - Version 1.3 December 10, 2008 Version
C. Proposed Impacts Inventory
1. Impacts Summary
I a. Which sections were completed below for your project (check all that apply):
? Wetlands ® Streams - tributaries ? Buffers
? Open Waters ? Pond Construction
2. Wetland Impacts
If there are wetland impacts proposed on the site, then complete this question for each wetland area impacted.
2a. 2b. 2c. 2d. 2e. 2f.
Wetland impact Type of jurisdiction
number - Type of impact Type of wetland Forested (Corps - 404, 10 Area of impact
Permanent (P) or (if known) DWQ - non-404, other) (acres)
Temporary
W1 ? P ? T ? Yes ? Corps
? No ? DWQ
W2 ? P ? T ? Yes ? Corps
? No ? DWQ
W3 ? P ? T ? Yes ? Corps
? No ? DWQ
W4 ? PEI T ? Yes ? Corps
? No ? DWQ
W5 ? P ? T ? Yes ? Corps
? No ? DWQ
W6 ? P ? T ? Yes ? Corps
? No ? DWQ
2g. Total wetland impacts
2h. Comments:
3. Stream Impacts
If there are perennial or intermittent stream impacts (including temporary impacts) proposed on the site, then complete this
question for all stream sites impacted.
3a. 3b. 3c. 3d. 3e. 3f. 3g.
Stream impact Type of impact Stream name Perennial Type of jurisdiction Average Impact
number - (PER) or (Corps - 404, 10 stream length
Permanent (P) or intermittent DWQ - non-404, width (linear
Temporary (T) (INT)? other) (feet) feet)
dewatering and
S1 ? POT diversion of the
baseflow, and
Chadric Creek ® PER ® Corps
15
340
stream bank ? INT ® DWQ
grading
S2 ? P ? T ? PER ? Corps
? INT ? DWQ
S3 ? P ? T ? PER ? Corps
? INT ? DWQ
S4 ? P ? T ? PER ? Corps
? INT ? DWQ
S5 ? P ? T ? PER ? Corps
? INT ? DWQ
S6 El P E3 T ? PER ? Corps
? INT ? DWQ
3h. Total stream and tributary impacts 340
3i. Comments:
Page 5 of 11
PCN Form - Version 1.3 December 10, 2008 Version
4. Open Water Impacts
If there are proposed impacts to lakes, ponds, estuaries, tributaries, sounds, the Atlantic Ocean, or any other open water of
the U.S. then individually list all open water impacts below.
4a. 4b. 4c. 4d. 4e.
Open water Name of waterbody
impact number - (if applicable) Type of impact Waterbody type Area of impact (acres)
Permanent (P) or
Temporary
01 ?P?T
02 ?P?T
03 ?P?T
04 ?P?T
4E Total open water impacts
4g. Comments:
6. Pond or Lake Construction
If and or lake construction proposed, then complete the chart below.
5a. 5b. 5c. 5d. 5e.
Wetland Impacts (acres) Stream Impacts (feet) Upland
Pond ID Proposed use or purpose (acres)
number of pond
Flooded Filled Excavated Flooded Filled Excavated Flooded
P1
P2
5f. Total
5g. Comments:
5h. Is a dam high hazard permit required?
? Yes ? No If yes, permit ID no:
5i. Expected pond surface area (acres):
5j. Size of pond watershed (acres):
5k. Method of construction:
6. Buffer Impacts (for DWQ)
If project will impact a protected riparian buffer, then complete the chart below. If yes, then individually list all buffer impacts
below. If an impacts require mitigation, then you MUST fill out Section D of this form.
6a.
? Neuse ? Tar-Pamlico ? Other:
Project is in which protected basin? ? Catawba ? Randleman
6b. 6c. 6d. 6e. 6f. 6g.
Buffer impact
number - Reason Buffer Zone 1 impact Zone 2 impact
Permanent (P) or for Stream name mitigation (square feet) (square feet)
Temporary impact required
?
131 ?P?T ?Yes
? No
B2 ? P ? T ? Yes
? No
133 ?P?T ?Yes
? No
6h. Total buffer impacts
6i. Comments:
Page 6 of 11
PCN Form - Version 1.3 December 10, 2008 Version
D. Impact Justification and Mitigation
1. Avoidance and Minimization
1a. Specifically describe measures taken to avoid or minimize the proposed impacts in designing project.
Since the purpose of the project is to restore the 340 LF of the existing stream channel as well as construct 900 feet of new
channel where none currently exists it was not possible to avoid the impacts.
1 b. Specifically describe measures taken to avoid or minimize the proposed impacts through construction techniques.
1) Dewatering and diversion of the baseflow along the upper 340 feet of existing channel will allow construction work to
proceed in the dry; 2) Shrubs around the perimeter of the fishing pond will be harvested for transplanting along the restored
streambanks and newly created channel to provide immediate stabilization; 3) 10% of baseflow will be permanently diverted to
maintain the flooded conditions in the emergent wetland adjacent to fishing pond.
2. Compensatory Mitigation for Impacts to Waters of the U.S. or Waters of the State
2a. Does the project require Compensatory Mitigation for
impacts to Waters of the U.S. or Waters of the State? ? Yes ® No
2b. If yes, mitigation is required by (check all that apply): ? DWQ ? Corps
2c. If yes, which mitigation option will be used for this
project? ? Mitigation bank
? Payment to in-lieu fee program
? Permittee Responsible Mitigation
3. Complete if Using a Mitigation Bank
3a. Name of Mitigation Bank:
___
3b. Credits Purchased (attach receipt and letter)
7 Type Quantity
3c. Comments:
4. Complete if Making a Payment to In-lieu Fee Program
4a. Approval letter from in-lieu fee program is attached. ? Yes
4b. Stream mitigation requested: linear feet
4c. If using stream mitigation, stream temperature: ? warm ? cool ?cold
4d. Buffer mitigation requested (DWQ only): square feet
4e. Riparian wetland mitigation requested: acres
4f. Non-riparian wetland mitigation requested: acres
4g. Coastal (tidal) wetland mitigation requested: acres
4h. Comments:
5. Complete if Using a Permittee Responsible Mitigation Plan
Elf using a permittee responsible mitigation plan, provide a description of the proposed mitigation plan.
Page 7 of 11
PCN Form - Version 1.3 December 10, 2008 Version
6. Buffer Mitigation (State Regulated Riparian Buffer Rules) - required by DWQ
6a. Will the project result in an impact within a protected riparian buffer that requires
buffer mitigation? ? Yes ® No
6b. If yes, then identify the square feet of impact to each zone of the riparian buffer that requires mitigation. Calculate the
amount of mitigation required.
Zone 6c.
Reason for impact 6d.
Total impact
(square feet)
Multiplier 6e.
Required mitigation
(square feet)
Zone 1 3 (2 for Catawba)
Zone 2 1.5
6f. Total buffer mitigation required:
6g. If buffer mitigation is required, discuss what type of mitigation is proposed (e.g., payment to private mitigation bank,
permittee responsible riparian buffer restoration, payment into an approved in-lieu fee fund).
6h. Comments:
Page 8 of 11
PCN Form - Version 1.3 December 10, 2008 Version
E. Stormwater Management and Diffuse Flow Plan (required by DWQ)
1. Diffuse Flow Plan
1 a. Does the project include or is it adjacent to protected riparian buffers identified ? Yes ® No
within one of the NC Riparian Buffer Protection Rules?
1 b. If yes, then is a diffuse flow plan included? If no, explain why.
? Yes ? No
Comments:
2. Stormwater Management Plan
2a. What is the overall percent imperviousness of this project? 0%
2b. Does this project require a Stormwater Management Plan? ? Yes ® No
2c. If this project DOES NOT require a Stormwater Management Plan, explain why: Stream restoration on rural agricultural
land
2d. If this project DOES require a Stormwater Management Plan, then provide a brief, narrative description of the plan:
? Certified Local Government
2e. Who will be responsible for the review of the Stormwater Management Plan? ? DWQ Stormwater Program
? DWQ 401 Unit
3. Certified Local Government Stormwater Review
3a. In which local government's jurisdiction is this project?
? Phase II
3b. Which of the following locally-implemented stormwater management programs ? NSW
? USMP
apply (check all that apply): ? Water Supply Watershed
? Other:
3c. Has the approved Stormwater Management Plan with proof of approval been ? Yes ? No
attached?
4. DWQ Stormwater Program Review
? Coastal counties
? HQW
4a. Which of the following state-implemented stormwater management programs apply ? ORW
(check all that apply): ? Session Law 2006-246
? Other:
4b. Has the approved Stormwater Management Plan with proof of approval been
attached? ? Yes ? No
5. DWQ 401 Unit Stormwater Review
5a. Does the Stormwater Management Plan meet the appropriate requirements? ? Yes ? No
5b. Have all of the 401 Unit submittal requirements been met? ? Yes ? No
Page 9 of 11
PCN Form - Version 1.3 December 10, 2008 Version
F. Supplementary Information
1. Environmental Documentation (DWQ Requirement)
la. Does the project involve an expenditure of public (federal/state/local) funds or the ® Yes ? No
use of public (federal/state) land?
1 b. If you answered "yes" to the above, does the project require preparation of an
environmental document pursuant to the requirements of the National or State ? Yes ® No
(North Carolina) Environmental Policy Act (NEPA/SEPA)?
1c. If you answered "yes" to the above, has the document review been finalized by the
State Clearing House? (If so, attach a copy of the NEPA or SEPA final approval
? Yes ? No
letter.)
Comments:
2. Violations (DWQ Requirement)
2a. Is the site in violation of DWQ Wetland Rules (15A NCAC 2H .0500), Isolated
Wetland Rules (15A NCAC 2H .1300), DWQ Surface Water or Wetland Standards, ? Yes ® No
or Riparian Buffer Rules (15A NCAC 2B .0200)?
2b. Is this an after-the-fact permit application? ? Yes ® No
2c. If you answered "yes" to one or both of the above questions, provide an explanation of the violation(s):
3. Cumulative Impacts (DWQ Requirement)
3a. Will this project (based on past and reasonably anticipated future impacts) result in ? Yes ® No
additional development, which could impact nearby downstream water quality?
3b. If you answered "yes" to the above, submit a qualitative or quantitative cumulative impact analysis in accordance with the
most recent DWQ policy. If you answered "no," provide a short narrative description.
4. Sewage Disposal (DWQ Requirement)
4a. Clearly detail the ultimate treatment methods and disposition (non-discharge or discharge) of wastewater generated from
the proposed project, or available capacity of the subject facility.
Page 10 of 11
PCN Form - Version 1.3 December 10, 2008 Version
5. Endangered Species and Designated Critical Habitat (Corps Requirement)
5a. Will this project occur in or near an area with federally protected species or ? Yes ® No
habitat?
5b. Have you checked with the USFWS concerning Endangered Species Act ? Yes ® No
impacts?
? Raleigh
5c. If yes, indicate the USFWS Field Office you have contacted.
? Asheville
5d. What data sources did you use to determine whether your site would impact Endangered Species or Designated Critical
Habitat?
Ken Hodges, North Carolina Wildlife Commission attended pre-application site visit.
6. Essential Fish Habitat (Corps Requirement)
6a. Will this project occur in or near an area designated as essential fish habitat? ? Yes ® No
6b. What data sources did you use to determine whether your site would impact Essential Fish Habitat?
Ken Hodges, North Carolina Wildlife Commission attended pre-application site visit.
7. Historic or Prehistoric Cultural Resources (Corps Requirement)
7a. Will this project occur in or near an area that the state, federal or tribal
governments have designated as having historic or cultural preservation ? Yes ® No
status (e.g., National Historic Trust designation or properties significant in
North Carolina history and archaeology)?
7b. What data sources did you use to determine whether your site would impact historic or archeological resources?
Contacted Dolores Hall, Deputy State Archaeologist who confirmed there are no archeological resources on-site.
Contacted Justin Kockritz, NC Historic Preservation Office to evaluate historic resource issues - awaiting reply.
8. Flood Zone Designation (Corps Requirement)
8a. Will this project occur in a FEMA-designated 100-year floodplain? ? Yes ® No
8b. If yes, explain how project meets FEMA requirements:
8c. What source(s) did you use to make the floodplain determination? Reviewed NCFloodMaps.com
Rocky Powell
September 9,
as?n 2011
Applicant/Agent's Printed Name Applicant/Ag is Signature
' Date
(Agent
s signature is valid only if an authorization letter from the applicant
is provided.)
Page 11 of 11
PCN Form - Version 1.3 December 10, 2008 Version
August 30. 2011
Attn: North Carolina Division of Water Quality
This letter authorizes Rocky Powell, Clear Creeks Consulting to act as my agent
in obtaining state and federal permits to implement the restoration of Chadric
Creek on my property in Devotion. North Carolina.
Sincerely.
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Chadric Creek Stream Restoration Project
Wetland Delineation
(September 2011)
Methodology
Wetlands are usually identified and delineated in accordance with the Corps of
Engineers Wetlands Delineation Manual (Technical Report Y-87-1), hereafter
referred to as the "1987 Manual". This manual requires that evidence of three
parameters be present for an area to be identified as jurisdictional wetland:
wetland hydrology, hydric soils, and hydrophytic vegetation. All three parameters
must be present for a jurisdictional wetland determination, except in certain
atypical or disturbed circumstances.
Initially the site was investigated for the presence of Waters of the United States,
including wetlands, on August 19, 2011 using the Routine Determination
procedures outlined in the U. S. Army Corps of Engineers Wetland Delineation
Manual (1987). After subsequent discussions with Mr. Monte Matthews, U. S.
Army Corps of Engineers regarding current wetland delineation procedures the
site was remapped on September 7, 2011. This second effort utilized the Interim
Regional Supplement to the Corps of Engineers Wetland Delineation Manual:
Eastern Mountains and Piedmont Region (2010). During the second mapping
sampling locations were adjusted to better represent overall site conditions. A
Soil Borings Location Map and Wetland Determination Data Forms - Eastern
Mountain and Piedmont for each area evaluated are provided in the Appendix.
Findings
The entire Chadric Creek stream valley is mapped as Colvard and Suches soils.
Although occasionally flooded these soils are not rated as hydric by the National
Technical Committee for Hydric Soils (NTCHS). This stream valley has
undergone significant man-made and natural disturbances resulting in an uneven
mix of soil conditions. Dam construction created several ponds that functioned
as sediment traps for several decades. The failure of the upper low-head
concrete dam resulted in incision through old pond sediments, which also
resulted in lowering of the local groundwater table. Erosion and deposition of
streambank materials and other sediments has also been exacerbated by the
intense logging in the upper watershed.
Area 1
Area 1 includes the upstream end of the sediment pond immediately downstream
of the old dam. The baseflow diversion channel flows through this area. The
vegetative community of this area includes plants with facultative (FAC) to
facultative wet (FACW) designations. The presence of wetland hydrology is
supported by field observations including the presence of baseflow in the
diversion channel and obvious indications of frequent out-of-bank flows.
However, due in part to the continued influx of sediment from upstream the
boring indicated non-hydric soil conditions.
Area 2
Area 2 includes the floodplain terrace at the upstream end of the project. The
vegetative community of this area includes a small percentage of plants with
facultative (FAC) to facultative wet (FACW) designations. The presence of
wetland hydrology is not supported by field observations. The boring indicated
non-hydric soil conditions.
Area 3
The only area that classifies as a jurisdictional wetland is this permanently
flooded emergent wetland that has developed at the downstream end of the
sediment pond. The vegetative community of this wetland includes obligate
species (i.e., rushes, sedges, and cattails). Soils are hydric and include an
organic muck layer underlain by silt loam. The hydrology to this wetland is
provided by the baseflow diverted from Chadric Creek into the fishing pond. The
embankment between the sediment pond and the fishing pond functions to
impound the diverted baseflow as well as storm flows that enter the sediment
pond via the diversion channel. The earthen embankment is integral to the
maintenance of wetland conditions in the sediment pond.
Area 4
Area 4 includes the old field area adjacent to the fishing pond and up-valley of
the farm road. The vegetative community of this area includes a small
percentage of plants with facultative (FAC) to facultative wet (FACW)
designations. The presence of wetland hydrology is not supported by field
observations. The boring indicated non-hydric soil conditions.
Area 5
Area 5 includes the old field area adjacent to the fishing pond and down-valley of
the farm road. The vegetative community of this area includes a small
percentage of plants with facultative (FAC) to facultative wet (FACW)
designations. The presence of wetland hydrology is not supported by field
observations. The boring indicated non-hydric soil conditions.
Hydric Rating by Map Unit-Surry County, North Carolina
(Chadric Creek Restoration)
36° 26' 16"
36' 26' 13"
36° 26' 16"
36" 26' 13"
USDr1 Natural Resources Web Soil Survey 8/27/2011
Conservation Service National Cooperative Soil Survey Page 1 of 6
Ndlap Scale: 1:457 if printed on A size (8.5" x 11') sheet
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Hydric Rating by Map Unit-Surry County, North Carolina
Chadric Creek Restoration
Hydric Rating by Map Unit
Hydric Rating by Map Unit- Summary by Map Unit - Surry County, North Carolina (NC171)
Map unit symbol Map unit name Rating Acres in AOI Percent of AOI
BbC Braddock fine sandy loam, 8 to 15 percent
slopes Not Hydric 0.0 2.8%0
CsA Colvard and Suches soils, 0 to 3 percent
slopes, occasionally flooded Not Hydric 0.7 83.5%
W Water Not Hydric 0.1 13.8%
Totals for Area of Interest 0.8 100.0%
JJSDA Natural Resources Web Soil Survey 8/27/2011
Conservation Service National Cooperative Soil Survey Page 3 of 6
Hydric Rating by Map Unit-Sury County, North Carolina
Description
Chadric Creek Restoration
This rating indicates the proportion of map units that meets the criteria for hydric
soils. Map units are composed of one or more map unit components or soil types,
each of which is rated as hydric soil or not hydric. Map units that are made up
dominantly of hydric soils may have small areas of minor nonhydric components in
the higher positions on the landform, and map units that are made up dominantly
of nonhydric soils may have small areas of minor hydric components in the lower
positions on the landform. Each map unit is designated as "all hydric," "partially
hydric," "not hydric," or "unknown hydric," depending on the rating of its respective
components.
"All hydric" means that all components listed for a given map unit are rated as being
hydric, while "not hydric" means that all components are rated as not hydric.
"Partially hydric" means that at least one component of the map unit is rated as
hydric, and at least one component is rated as not hydric. "Unknown hydric"
indicates that at least one component is not rated so a definitive rating for the map
unit cannot be made.
Hydric soils are defined by the National Technical Committee for Hydric Soils
(NTCHS) as soils that formed under conditions of saturation, flooding, or ponding
long enough during the growing season to develop anaerobic conditions in the
upper part (Federal Register, 1994). Under natural conditions, these soils are either
saturated or inundated long enough during the growing season to support the
growth and reproduction of hydrophytic vegetation.
The NTCHS definition identifies general soil properties that are associated with
wetness. In order to determine whether a specific soil is a hydric soil or nonhydric
soil, however, more specific information, such as information about the depth and
duration of the water table, is needed. Thus, criteria that identify those estimated
soil properties unique to hydric soils have been established (Federal Register,
2002). These criteria are used to identify map unit components that normally are
associated with wetlands. The criteria used are selected estimated soil properties
that are described in "Soil Taxonomy" (Soil Survey Staff, 1999) and "Keys to Soil
Taxonomy" (Soil Survey Staff, 2006) and in the "Soil Survey Manual" (Soil Survey
Division Staff, 1993).
If soils are wet enough for a long enough period of time to be considered hydric,
they should exhibit certain properties that can be easily observed in the field. These
visible properties are indicators of hydric soils. The indicators used to make onsite
determinations of hydric soils are specified in "Field Indicators of Hydric Soils in the
United States" (Hurt and Vasilas, 2006).
References:
Federal Register. July 13, 1994. Changes in hydric soils of the United States.
Federal Register. September 18, 2002. Hydric soils of the United States.
Hurt, G.W., and L.M. Vasilas, editors- Version 6.0, 2006. Field indicators of hydric
soils in the United States.
Soil Survey Division Staff. 1993. Soil survey manual. Soil Conservation Service.
U.S. Department of Agriculture Handbook 18.
Natural Resources Web Soil Survey 8/27/201
Conservation Service National Cooperative Soil Survey Page 4 of 6
Hydric Rating by Map Unit-Suny County, North Carolina
Chadric Creek Restoration
Soil Survey Staff. 1999. Soil taxonomy: A basic system of soil classification for
making and interpreting soil surveys. 2nd edition. Natural Resources Conservation
Service. U.S. Department of Agriculture Handbook 436.
Soil Survey Staff. 2006. Keys to soil taxonomy. 10th edition. U.S. Department of
Agriculture, Natural Resources Conservation Service.
Rating Options
Aggregation Method. Absence/Presence
Aggregation is the process by which a set of component attribute values is reduced
to a single value that represents the map unit as a whole-
A map unit is typically composed of one or more "components". A component is
either some type of soil or some nonsoil entity, e.g., rock outcrop. For the attribute
being aggregated, the first step of the aggregation process is to derive one attribute
value for each of a map unit's components. From this set of component attributes,
the next step of the aggregation process derives a single value that represents the
map unit as a whole. Once a single value for each map unit is derived, a thematic
map for soil map units can be rendered. Aggregation must be done because, on
any soil map, map units are delineated but components are not.
For each of a map unit's components, a corresponding percent composition is
recorded. A percent composition of 60 indicates that the corresponding component
typically makes up approximately 60% of the map unit. Percent composition is a
critical factor in some, but not all, aggregation methods.
The aggregation method "Absence/Presence" returns a value that indicates if, for
all components of a map unit, a condition is always present, never present, partially
present, or whether the condition's presence or absence is unknown. The exact
phrases used for a particular attribute may vary from what is shown below.
"Always present" means that the corresponding condition is present in all of a map
unit's components.
"Never present" means that the corresponding condition is not present in any of a
map unit's components-
"Partially present" means that the corresponding condition is present in some but
not all of a map unit's components, or that the presence or absence of the
corresponding condition cannot be determined for one or more components of the
map unit.
"Unknown presence" means that for components where presence or absence can
be determined, the corresponding condition is never present, but the presence or
absence of the corresponding condition cannot be determined for one or more
components.
The result returned by this aggregation method quantifies the degree to which the
corresponding condition is present throughout the map unit.
Tie-break Rule_ Lower
Natural Resources Web Soil Survey 8/27/2011
Conservation Service National Cooperative Soil Survey Page 5 of 6
Hydric Rating by Map Unit-Suny County, North Carolina
Chadric Creek Restoration
The tie-break rule indicates which value should be selected from a set of multiple
candidate values, or which value should be selected in the event of a percent
composition tie.
Natural Resources Web Soil Survey 8/27/2011
Conservation Service National Cooperative Soil Survey Page 6 of 6
0
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WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont
Project/Site: ?M)r. City/County: -Vk)0$PM ?SVtt1A Sampling Date: 1
ApplicanttOwner: C,l r n&?uG State: t4 Q Sampling Point:
Investigator(s): f ?.\ rU.IFt?Ib?V'ar Section, Township, Range: Q M*16 T Qyybk \ 4
Landfonn (hillslope, terrace, etc.): rr?OC??il7?AaV\ Local relief ('co'ncave, convex, none): Slope
Subregion (LRR or MLRA): L VL \3\o Let _3Lo ?.w a Vbt Vk Long: Re 54 - 14 \,PJ Datum:
Soil Map Unit Name: QAA*--1t4 OWVIA SuCaneJj3 CCU b.) NWI classification:
Are climatic / hydrologic conditions on the site typical for this time of year? Yes ?vff No (If no, explain in Remarks.)
Are Vegetation -Au. Soil AQ-, or Hydrology _tJQ_ significantly disturbed? Are "Normal Circumstances" present? Yes V" No
Are Vegetation \16 , Soil At, or Hydrology 16- naturally problematic? (If needed, explain any answers in Remarks.)
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
Hydrophytic Vegetation Present? Yes W"O No
Is the Sampled Area
Hydric Soil Present? Yes No ? within a Wetland? Yes No
Wetland Hydrology Present? Yes No
Remarks:
HYDROLOGY
Wetland Hydrology Indicators: Secondary Indicators (minimum of two required)
Primary Indicators (minimum of one is required: check all that apply) - Surface Soil Cracks (B6)
_ Surface Water (Al) _ True Aquatic Plants (B14) _ Sparsely Vegetated Concave Surface (B8)
_ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (810)
_ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16)
_ Water Marks (B1) _ Presence of Reduced Iron (C4) _ Dry-Season Water Table (C2)
_ Sediment Deposits (B2) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8)
_ Drift Deposits (B3) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9)
Algal Mat or Crust (B4) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1)
_ Iron Deposits (65) _ Geomorphic Position (132)
_ Inundation Visible on Aerial Imagery (B7) _ Shallow Aquitard (D3)
_ Water-Stained Leaves (B9) _ Microtopographic Relief (D4)
_ Aquatic Fauna (B13) _ FAC-Neutral Test (D5)
Field Observations:
Surface Water Present? Yes No ? Depth (inches):
Water Table Present? Yes No 117 Depth (inches):
Saturation Present? Yes ? No Depth (inches): 7 Wetland Hydrology Present? Yes No
includes capillary fringe)
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: ``-_,?_
?`
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point:
Tree Stratum (Plot size: )
1. Absolute Dominant Indicator
% Cover Species? Status Dominance Test worksheet:
Number of Dominant Species
That Are OBL, FACW, or FAC: (A)
2.
f D
i
t
3. om
nan
Total Number o
Species Across All Strata: 1 (B)
4.
5. Percent of Dominant Species
or FAC: (A/B)
That Are OBL
FACW
6 ,
,
.
7.
Prevalence Index worksheet:
8. Total % Cover of: Multiply by:
Sapling/Shrub Stratum (Plot size:
?A `rj. 2b )
1
Total Cover
=
OBL species O x 1 = 0
FACW species O x2= y
FAC species 1 x3= _0
2 FACU species O x4= O
3 UPL species O x5=
4. Column Totals: 1 (A) (B)
5.
6 Prevalence Index = B/A = 3.0
.
7.
Hydrophytic Vegetation Indicators:
8. _ 1 - Rapid Test for Hydrophytic Vegetation
9. _? 2 - Dominance Test is >50%
'
10. 3 -Prevalence Index is 53.0
-
'
Herb Stratum (Plot size:
?-?` )
1. * V- A t-,
Total Cover
=
rat) V Vor- _ 4 - Morphological Adaptations
(Provide supporting
data in Remarks or on a separate sheet)
- Problematic Hydrophytic Vegetation' (Explain)
2. F'r 1 "At
'
3 Indicators of hydric soil and wetland hydrology must
unless disturbed or problematic
resent
be
.
p
,
4. W ti'tX? ?- Definitions of Four Ve
etation Strata:
5. g
6 Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or
l
f
7. ess o
more in diameter at breast height (DBH), regard
height.
8.
9. Sapling/Shrub -Woody plants, excluding vines, less
than 3 in
DBH and greater than 3
28 It (1 m) tall.
10. .
.
11. Herb - All herbaceous (non-woody) plants, regardless
lants less than 3
28 ft tall
of size
and wood
12. .
.
,
y p
Woody Vine Stratum (Plot size: ) g? = Total Cover Woody vine - All woody vines greater than 3.28 ft in
height.
1.
2.
3.
4.
5. Hydrophytic
Ve
etation
6. g
Present? Yes ? No
= Total Cover
Remarks: (Include photo numbers here or on a separate sheet.)
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
SOIL Sampling Point: - ??
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Depth Matrix Redox Features
(inches) Color (moist) % Color (moist) % Type Loc Texture Remarks
d _ p %-w' 5 _
tk_
?2 tEi ?c ?d1L sL.
'Type: C=Concentration, D=De letion RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix.
Hydric Soil Indicators: Indicators for Problematic Hydric Soils
_ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147)
_ Histic Epipedon (A2) - Polyvalue Below Surface (S8) (MLRA 147, 148) - Coast Prairie Redox (A16)
- Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148)
- Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19)
- Stratified Layers (AS) _ Depleted Matrix (F3) (MLRA 136, 147)
- 2 cm Muck (A10) (LRR N) - Redox Dark Surface (F6) _ Red Parent Material (TF2)
_ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) - Very Shallow Dark Surface (TF12)
_ Thick Dark Surface (A12) _ Redox Depressions (F8) - Other (Explain in Remarks)
- Sandy Mucky Mineral (S1) (LRR N, _ Iron-Manganese Masses (1712) (LRR N,
MLRA 147, 148) MLRA 136)
_ Sandy Gleyed Matrix (S4) - Umbric Surface (F13) (MLRA 136,122) 3Indicators of hydrophytic vegetation and
- Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present,
_ Stripped Matrix (S6) unless disturbed or problematic.
Restrictive Layer (if observed):
Type:
Depth (inches): Hydric Soil Present? Yes No ?
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont
Proocusite: ?hf ?t t ()4- crdQ-k- t City/`County: ??CU\ 1 "SV C Sampling Date:
Applicant/Owner. MQ&C'? 0%?'C.`0" ?.?.5._ State: YW-_Sampling Point: Investigator(s): V%\t?ya ?.?Z!'`Nollalr Section, Township, Range: MKnaA "'razN&P \?
Landform (hillslope, terrace, etc.): ?? ?OAh Local relief (concave, convex, none): Slope (%): 0-3
Subregion (LRR or MLRA): t..? t'hta Let: -o . V4 Long: 56 54a (0 1\0 \vJ Datum:
Soil Map Unit Name: CAM&y& 1W\G GJ V (."tU 6 / l C % Q1 NWI classification:
Are climatic / hydrologic conditions on the site typical for this time of year? Yes _y No (If no, explain in Remarks.)
Are Vegetation JI&_, Soil _tjQ, or Hydrology 't6_ significantly disturbed? Are "Normal Circumstances" present? Yes V" No
ekp naturally problematic? (If needed, explain any answers in Remarks.)
Are Vegetation Vkb, Soil _Ap or Hydrology
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
Hydrophytic Vegetation Present? Yes ? No Is the Sampled Area
Hydric Soil Present? Yes No ?? within a Wetland? Yes No _
Wetland Hydrology Present? Yes No
HYDROLOGY
Wetland Hydrology Indicators: Ram Secondary Indicators (minimum of two required)
Primary Indicators (minimum of one is required: check all that aooly) _ Surface Soil Cracks (136)
_ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (68)
_ High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Drainage Patterns (610)
_ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16)
_ Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry-Season Water Table (C2)
_ Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8)
_ Drift Deposits (B3) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9)
_ Algal Mat or Crust (B4) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1)
_ Iron Deposits (85) _ Geomorphic Position (D2)
_ Inundation Visible on Aerial Imagery (87) _ Shallow Aquitard (D3)
_ Water-Stained Leaves (69) _ Microtopographic Relief (D4)
_ Aquatic Fauna (1313) _ FAC-Neutral Test (D5)
Field Observations:
Surface Water Present? Yes No ? Depth (inches):
Water Table Present? Yes No ? Depth (inches):
Saturation Present? Yes _3.,00 No Depth (inches): 'r Wetland Hydrology Present? Yes No ?
includes capillary fringe)
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: t;-At,
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: *2.
Absolute Dominant Indicator Dominance Test worksheet:
Tree Stratum (Plot size: ) % Cover Species? Status Number of Dominant Species
1. _ 5 `CA..M?`?G
?' ?
" y
That Are OBL, FACW, or FAC: tJ (A)
_
2.
Total Number of Dominant
3
Species Across All Strata: (B)
4.
Percent of Dominant Species
5. That Are OBL
FACW
or FAC: td0
A/B
,
,
(
)
6.
7.
Prevalence Index worksheet:
8.
Total % Cover of: Multiply by:
Total Cover OBL species O x 1 = 0
Sapling/Shrub Stratum (Plot size: ) FACW species x2= ?( _
1. "T?6s ?? .??C' ?t ? 4J FAC species x3=
?J
2. _
O
FACU species O x4=
3. UPL species x5=
O
4. Column Totals: A- (A) (B)
5.
Prevalence Index = B/A = Z . Z5
6.
7.
Hydrophytic Vegetation Indicators:
8.
1 - Rapid Test for Hydrophytic Vegetation
-
9 / 2 - Dominance Test is >50%
3 - Prevalence Index is 53
0'
10.
.
Total Cover _ 4 - Morphological Adaptations' (Provide supporting
Herb Stratum (Plot size:
) data in Remarks or on a separate sheet)
1 r t_ _ Problematic Hydrophytic Vegetation' (Explain)
2. 1;vA;?g- AID ^8
'
3 Indicators of hydric soil and wetland hydrology must
b
l
t
di
4 e presen
, un
ess
sturbed or problematic.
. Definitions of Four Vegetation Strata:
5.
6 Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or
more in diameter at breast height (DBH), regardless of
7. height
.
8.
Sapling/Shrub - Woody plants, excluding vines, less
9. than 3 in
DBH
d
t
th
3
28 It
1
l
.
an
grea
er
an
.
(
m) ta
l.
10.
11 Herb - All herbaceous (non-woody) plants, regardless
of size, and woody plants less than 3.28 ft tall.
12.
q0 = Total Cover Woody vine - All woody vines greater than 3.28 ft in
Woody Vine Stratum (Plot size: ) height.
1.
2.
3.
4.
5 Hydrophytic
Vegetation
6. Present? Yes ? No
= Total Cover
Remarks: (Include photo numbers here or on a separate sheet.)
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
SOIL
Sampling Point: .* 2
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Depth Matrix Redox Features
(inches) Color (moist) % Color (moist) % Tvae Loc Texture Remarks
o_t? 5yR sIt s%W xam
L •-l2 5`E? St b
?•
z2-?a 15`9% 311 19Q F??n,s?sowZk. ern
'Type: C=Concentration, D=De lotion, RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix.
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
_ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147)
_ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) , Coast Prairie Redox (A16)
_ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148)
_ Hydrogen Sulfide (A4) - Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19)
_ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147)
_ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2)
_ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12)
_ Thick Dark Surface (A12) _ Redox Depressions (F8) _ Other (Explain in Remarks)
_ Sandy Mucky Mineral (S1) (LRR N, _ Iron-Manganese Masses (F12) (LRR N,
MLRA 147,148) MLRA 136)
_ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and
_ Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present,
_ Stripped Matrix (S6) unless disturbed or problematic.
Restrictive Layer (if observed):
Type:
Depth (inches): Hydric Soil Present? Yes No ?
Remarks:
__-- cc
O?-al? rcO?' C_\'4n't'A.\5 a-? vat,
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont
Project/site: cltsolctiG GC°°\- City/County: V"5 c5%5Vnl Sampling Date:
Applicant/Owner: Cllt??r ?tlQ?GS Ce lk?4, I K < Ns?m u` - State: _ Sampling Point:
Investigator(s): !KLkNQS"c Shb"\Ad.0t" Section, Township, Range: FJtM 'CtLAJ\V'C.-W\0
Landform (hillslope, terrace, etc.): V CQ p\T d, " Local relief (concave, convex, none): \ Slope (%):
Subregion (LRR or MLRA): L A9% yt6 Let: 210 1& a
, T Long: ?Q 1J4-• bOV W Datum:
Soil Map Unit Name: Co\ya ylC ' &H.c& is l e r. NWI classification:
Are climatic / hydrologic conditions on the site typical for this time of year? Yes r/ No (If no, explain in Remarks.)
Are Vegetation _N!k, Soil jt3&_, or Hydrology Ala- significantly disturbed? Are "Normal Circumstances" present? Yes ? No
Are Vegetation Soil _JkIZ, or Hydrology _ naturally problematic? (If needed, explain any answers in Remarks.)
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
Hydrophytic Vegetation Present? Yes ? No Is the Sampled Area
Hydric Soil Present? Yes f No within a Wetland? Yes 6,"_ No
Wetland Hydrology Present? Yes No
Remarks:
HYDROLOGY
Wetland Hydrology Indicators: Secondary Indicators (minimum of two required)
Primary Indicators (minimum of one is required- check all that aogly) _ Surface Soil Cracks (66)
Surface Water (A1) _ True Aquatic Plants (B14) _ Sparsely Vegetated Concave Surface (B8)
- High Water Table (A2) _ Hydrogen Suede Odor (Cl) _ Drainage Patterns (610)
_ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16)
_ Water Marks (B1) _ Presence of Reduced Iron (C4) _ Dry-Season Water Table (C2)
- Sediment Deposits (62) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8)
_ Drift Deposits (63) _ Thin Muck Surface (C7) - Saturation Visible on Aerial Imagery (C9)
_ Algal Mat or Crust (B4) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1)
_ Iron Deposits (65) _ Geomorphic Position (D2)
_ Inundation Visible on Aerial Imagery (67) _ Shallow Aquitard (D3)
Water-Stained Leaves (69) - Microtopographic Relief (134)
Aquatic Fauna (B13) _ FAC-Neutral Test (135)
Field Observations:
Surface Water Present? Yes _Lelf No Depth (inches):
Water Table Present? Yes No Depth (inches):
Saturation Present? Yes No Depth (inches): Wetland Hydrology Present? Yes No
includes capillary fringe)
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point:
Absolute Dominant Indicator Dominance Test worksheet:
Tree Stratum (Plot size: ) % Cover Species? Status Number of Dominant Species
1 That Are OBL, FACW, or FAC: (A)
2. Total Number of Dominant
3. Species Across All Strata: (B)
4.
Percent of Dominant Species
5. That Are OBL, FACW, or FAC: L70 (A/B)
6
.
Prevalence Index worksheet:
7.
Total % Cover of: Multiply by:
8.
OBL species x 1 =
= Total Cover
Saplino/Shrub Stratum (Plot size: ) FACW species x2=
1 FAC species x3=
2 FACU species x4=
3 UPL species X5=
4 Column Totals: (A) (B)
5.
Prevalence Index = B/A =
6
.
Hydrophytic Vegetation Indicators:
7.
_ 1 - Rapid Test for Hydrophytic Vegetation
8.
_ 2 -Dominance Test is >50%
9. '
3 - Prevalence Index is 53.0
10. _
_ 4 - Morphological Adaptations (Provide supporting
= Total Cover data in Remarks or on a separate sheet)
Herb Stratum (Plot size: )
1 rt
Problematic Hydrophytic Vegetation' (Explain)
?\
1 h * ` {ob oy\ _
3. Indicators of hydric soil and wetland hydrology must
unless disturbed or problematic
be present
. .
,
4• Definitions of Four Vegetation Strata:
5.
Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or
6 f
b
i
h
DBH
dl
ess o
reast he
g
t (
), regar
more in diameter at
7. height.
8.
Sapling/Shrub -Woody plants, excluding vines, less
9. than 3 in. DBH and greater than 3.28 It (1 m) tall.
10.
Herb - All herbaceous (non-woody) plants, regardless
it. and wood
lants less than 3
28 ft tall
of size
.
.
,
y p
12.
= Total Cover Woody vine - All woody vines greater than 3.28 ft in
Woody Vine Stratum (Plot size: ) height.
1.
2.
3.
4.
Hydrophytic
5. Ve
etation
6. g
Present? Yes U-0" No
= Total Cover
Remarks: (Include photo numbers here or on a separate sheet.)
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
SOIL
Sampling Point: -A!-)-
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Depth Matrix Redox Features
(inches) Color (moist) %
? Color (moist) % TVpQ L?oc? Texture Remarks
?? J cYK •dr
?
?-\? ?v`lR bl2 s`t'n
ha?l.?aot?c?
'T e: C=Concentration, D=De letion, RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix.
Hydric Soil Indicators: Indicators for Problematic Hydric Soils':
_ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147)
_ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16)
_ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148)
_ Hydrogen Sulfide (A4) _ Loamy Gieyed Matrix (F2) - Piedmont Floodplain Soils (F19)
_ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147)
_ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2)
_ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12)
_ Thick Dark Surface (A12) _ Redox Depressions (F8) _ Other (Explain in Remarks)
_ Sandy Mucky Mineral (Si) (LRR N, _ Iron-Manganese Masses (F12) (LRR N,
MLRA 147, 148) MLRA 136)
_ Sandy Gieyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and
_ Sandy Redox (S5) _ Piedmont Fioodplain Soils (F19) (MLRA 148) wetland hydrology must be present,
_ Stripped Matrix (S6) unless disturbed or problematic.
Restrictive Layer (if observed):
Type:
Depth (inches): Hydric Soil Present? Yes ? No
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont
Project/Site: City/County: `DCbM1s? Sampling Date:
Applicant/Owner: C\cac Cir?G?b Cio`n`JV'? (`A PVC Qp\w. `.-_ State: t?Q - Sampling Point: * _
Investigator(s): Q\6^ert, l032!??Ol'??IP Section, Township, Range: Y=Af l Z In cS?l?\r?N
Landform (hillslope, terrace, etc.): G??D?OJ?A Local relief (concave, convex, none): ` Slope (%): 0 -21
Subregion (LRR or MLRA):. RR Let: " t2fo . ` 2. Long: Be 15k• wo W Datum:
Soil Map Unit Name: ?J?V0.rv1 ate S?G?\cS C Q5 A. ] NWI classification:
Are climatic / hydrologic conditions on the site typical for this time of year? Yes t? No (If no, explain in Remarks.)
IQ,, Soil t?Z , or Hydrology _kk&_ significantly disturbed? Are "Normal Circumstances" present? Yes ? No
Are Vegetation N
Are Vegetation 16- Soil Ab_, or Hydrology I&_ naturally problematic? (If needed, explain any answers in Remarks.)
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
Hydrophytic Vegetation Present? Yes _V**' No
Is the Sampled Area
Hydric Soil Present? Yes No ? within a Wetland? Yes No V-11-
Wetland Hydrology Present? Yes No ?
HYDROLOGY
Wetland Hydrology Indicators: Secondary indicators (minimum of two required)
Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136)
_ Surface Water (A1) _ True Aquatic Plants (B14) _ Sparsely Vegetated Concave Surface (68)
_ High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Drainage Patterns (1310)
_ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (1316)
_ Water Marks (61) _ Presence of Reduced Iron (C4) _ Dry-Season Water Table (C2)
_ Sediment Deposits (62) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8)
_ Drift Deposits (83) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9)
_ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (131)
_ Iron Deposits (65) _ Geomorphic Position (D2)
_ Inundation Visible on Aerial Imagery (B7) _ Shallow Aquitard (D3)
_ Water-Stained Leaves (139) _ Microtopographic Relief (134)
_ Aquatic Fauna (613) _ FAC-Neutral Test (D5)
Field Observations:
Surface Water Present? Yes No ? Depth (inches):
Water Table Present? Yes No oo'* Depth (inches):
Saturation Present? Yes No Ve! Depth (inches): Wetland Hydrology Present? Yes No
includes capillary fringe)
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point:_
Tree Stratum (Plot size: )
1, Absolute Dominant Indicator
% Cover Species? Status Dominance Test worksheet:
Number of Dominant Species
That Are OBL, FACW, or FAC: (A)
2.
3. Total Number of Dominant
Species Across All Strata: (B)
4.
5• Percent of Dominant Species
or FAC: ? 00 (A/B)
FACW
That Are OBL
6 ,
,
.
7.
Prevalence Index worksheet:
8. Total % Cover of, Multiply by-,
Sapling/Shrub Stratum (Plot size:
1. = Total Cover
) 0131- species. x 1
FACW species x2=
FAC species x3=
2. FACU species x4=
3. UPL species X5=
4. Column Totals: (A) (B)
5.
6 Prevalence Index = B/A =
.
7.
Hydrophytic Vegetation Indicators:
8. _ 1 - Rapid Test for Hydrophytic Vegetation
9. _? 2 -Dominance Test is >50%
'
10. _ 3 -Prevalence Index is 53.0
'
Herb Stratum (Plot size: )
= Total Cover (Provide supporting
_ 4 - Morphological Adaptations
data in Remarks or on a separate sheet)
Problematic Hydrophytic Vegetation' (Explain)
2. Scn,
'
3. '?`.a2IAl
)?&4
IC?- TIWI!11Z' Indicators of hydric soil and wetland hydrology must
roblematic
be
resent
unless disturbed or
. p
.
p
,
4• ?? i --
- fi
itions of Four V
etation Strata:
D
5. . e
n
eg
6 Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or
7. more in diameter at breast height (DBH), regardless of
height.
8'
9• Sapling/Shrub - Woody plants, excluding vines, less
than 3 in. DBH and greater than 3.28 It (1 m) tall.
10.
11. Herb - All herbaceous (non-woody) plants, regardless
lants less than 3
28 ft tall
of size
and wood
12. .
,
y p
.
Woody Vine Stratum (Plot size: = Total Cover
) Woody vine - All woody vines greater than 3.28 ft in
height.
1.
2.
3.
4.
5• Hydrophytic
Ve
etation
6, g
Present? Yes ? No
= Total Cover
Remarks: (Include photo numbers here or on a separate sheet.)
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
SOIL
Sampling Point: _
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Depth Matrix Redox Features
(inches) Color (moist) % Color (moist) % Tvae Loc
Remarks
Texture
_
L-\2 S-17% 54
12-?8 ?o?tR 5[?
'T e: C=Concentration, D=De lotion, RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix.
Hydric Soil Indicators: Indicators for Problematic Hydric Soils
_ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147)
_ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16)
_ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148)
_ Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) - Piedmont Floodplain Soils (F19)
_ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147)
_ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2)
_ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12)
_ Thick Dark Surface (A12) _ Redox Depressions (F8) _ Other (Explain in Remarks)
_ Sandy Mucky Mineral (S1) (LRR N, _ Iron-Manganese Masses (F12) (LRR N,
MLRA 147, 148) MLRA 136)
_ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and
_ Sandy Redox (S5) _ Piedmont Floodplain Soils (1719) (MLRA 148) wetland hydrology must be present,
_ Stripped Matrix (S6) unless disturbed or problematic.
Restrictive Layer (if observed):
Type:
Depth (inches): Hydric Soil Present? Yes No V-11
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont
Proj"vsite: C?V t 1,G Gf ?,nY City/County: "SON `'ge'slemA Sampling Date:
Applicant/Owner: mar Gr.c C,c v,?, ?a ( tkec w.u..?C State: 1C_ Sampling Point: '
Investigator(s): SNC1c>.Jec'V\6,T Section, Township, Range: Y? -rfoW h ro?ta?
Landform (hilislope, terrace, etc.): Local relief (concave, convex, none): Slope (%): b °-3
Subregion (LRR or MLRA): ?...?Qt )3& _ ??Lat: Vo; 1.6 Z»3Z ? Long: td C4-a 6'%XP W Datum:
Soil Map Unit Name: C.?`\LRC d'u%& 40VC? it /Cop1s 1 NWI classification:
Are climatic / hydrologic conditions on the site typical for this time of year? Yes -f No (If no, explain in Remarks.)
Are Vegetation 2", Soil V?o , or Hydrology %4b significantly disturbed? Are "Normal Circumstances' present? Yes ?" No
Are Vegetation -A2, Soil , or Hydrology ?- naturally problematic? (If needed, explain any answers in Remarks.)
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
Hydrophytic Vegetation Present? Yes V' No Is the Sampled Area
Hydric Soil Present? Yes No ?
within a Wetland? Yes No
Wetland Hydrology Present? Yes No ?
Remarks:
HYDROLOGY
Wetland Hydrology Indicators: Secondary Indicators (minimum of two required)
Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136)
_ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138)
_ High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Drainage Patterns (810)
Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16)
_ Water Marks (61) _ Presence of Reduced Iron (C4) _ Dry-Season Water Table (C2)
_ Sediment Deposits (62) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8)
_ Drift Deposits (63) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9)
_ Algal Mat or Crust (B4) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1)
_ Iron Deposits (B5) _ Geomorphic Position (D2)
_ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3)
_ Water-Stained Leaves (139) _ Microtopographic Relief (D4)
_ Aquatic Fauna (B13) _ FAC-Neutral Test (D5)
Field Observations:
Surface Water Present? Yes No ? Depth (inches):
Water Table Present? Yes No c00' Depth (inches):
Saturation Present? Yes No ? Depth (inches): Wetland Hydrology Present? Yes No t/^
includes capillary fringe)
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
OX? VbQV4_7 "AP ?? `tie ??M Cs+n,? j
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: -*.S-
Absolute Dominant Indicator Dominance Test worksheet:
Tree Stratum (Plot size: ) % Cover Species? Status Number of Dominant Species
1. That Are OBL, FACW, or FAC: (A)
2.
Total Number of Dominant
3.
Species Across All Strata: (B)
4.
Percent of Dominant Species
5. That Are OBL
FACW
or FAC: (A/B)
,
,
6.
7.
Prevalence Index worksheet:
8 Total % Cover of: Multiply by:
= Total Cover OBL species x 1 =
Sapling/Shrub Stratum (Plot size: ) FACW species x2=
1. At?2?' ??' FAC species x 3 =
2. FACU species x4=
3. UPL species x 5 =
4. Column Totals: (A) (B)
5.
6 Prevalence Index = B/A -
7 Hydrophytic Vegetation Indicators:
8.
1 - Rapid Test for Hydrophytic Vegetation
-
9 _ 2 - Dominance Test is >50%
3 - Prevalence Index is 53.0'
10. -
=Total Cover - 4 - Morphological Adaptations' (Provide supporting
Herb Stratum (Plot size: ??.2A ) data in Remarks or on a separate sheet)
f
> Problematic Hydrophytic Vegetation'
(Explain)
1.
S
1Ct.? ?7CA,?i -
2 - ?%l,nKikyug -
-0
3' V;2 Jam' t?eiMA 'Indicators of hydric soil and wetland hydrology must
be
resent
unless disturbed or
bl
ti
4
C?
'
K?
<0 p
,
pro
ema
c.
. _2
r
G
Ci V?ft,?
---
-- !
D
fi
iti
f F
V
? e
n
ons o
our
egetation Strata:
1t?129?
5.-
`
6-
_iA" ?Uy-ym TAM" 4?2.?
??•t
Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or
more in diameter at breast height (DBH), regardless of
7• height
.
8.
Sapling/Shrub - Woody plants, excluding vines, less
8. than 3 in
DBH and
reater th
n 3
28 ft (1
ll
t
.
g
.
a
m)
.
a
10.
11 Herb - All herbaceous (non-woody) plants, regardless
of size, and woody plants less than 3.28 ft tall.
12.
MjI
=Total Cover Woody vine - All woody vines greater than 3.28 ft in
Woody Vine Stratum (Plot size: ) height.
1.
2.
3.
4.
5 Hydrophytic
Vegetation
6. Present? Yes No
= Total Cover
Remarks: (Include photo numbers here or on a separate sheet.)
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
SOIL
Sampling Point: 'z G
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Depth Matrix Redox Features
(inches) Color (moist) % Color (moist) % Tvoe Loc Texture Remarks
a --lo A
? \Z -?,c yR 5 3
51.?
l2- is -t t,5 4 _
'Type: C=Concentration, D=De letion, RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix.
Hydric Soil Indicators: Indicators for Problematic Hydric Soils':
_ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147)
_ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16)
_ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148)
_ Hydrogen Suede (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19)
_ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147)
_ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2)
_ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12)
_ Thick Dark Surface (A12) _ Redox Depressions (178) _ Other (Explain in Remarks)
_ Sandy Mucky Mineral (S1) (LRR N, _ Iron-Manganese Masses (F12) (LRR N,
MLRA 147, 148) MLRA 136)
_ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and
_ Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present,
_ Stripped Matrix (S6) unless disturbed or problematic.
Restrictive Layer (if observed):
Type:
Depth (inches): Hydric Soil Present? Yes No
Remarks:
US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version
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