Ducks Unlimited, Inc. Eddy Road ILF Site Plan · 2019. 3. 27. · The ILF Site is located at...

1 | P a g e

Ducks Unlimited, Inc.

Eddy Road ILF Site PlanWestern St. Lawrence Service Area

Prepared by:Ducks Unlimited New York In-Lieu Fee Program

Sturr, 2017

To be considered by:United States Army Corps of EngineersInteragency Review Team Chairs

Buffalo District New York District1776 Niagara Street 1 Buffington StreetBuffalo, NY 14207-3199 Watervliet Arsenal

ATTN: CENAN-OP-RU, Bldg. 10Watervliet, NY 12189-4000

DATE: 19 March 2019

2 | P a g e


Table of Contents1. Introduction and Objectives........................................................................................................ 7

2. Site Selection .............................................................................................................................. 7

2.1 Site Description..................................................................................................................... 7

3. Site Protection Instrument........................................................................................................... 8

4. Determination of Credits............................................................................................................. 9

5. Baseline Ecological Characteristics .......................................................................................... 11

5.1 Historic and Existing Plant Communities, Including Wetlands ......................................... 11

5.2 Site Land Use History, Including Structures ...................................................................... 12

5.3 Soil Descriptions................................................................................................................. 14

5.4 Animal and Plant Species Including Endangered Species.................................................. 18

6. Mitigation Work Plan ............................................................................................................... 25

6.1 Geographic Boundaries....................................................................................................... 25

6.2 Construction Methods, Timing and Sequencing................................................................. 25

6.3 Grading Plan, Including Elevations and Slopes of Substrate ............................................. 26

6.4 Methods for Establishing Desired Plant Community ......................................................... 26

6.5 Sources of Water, Connections to Existing Waters and Upland Runoff ............................ 28

6.6 Invasive Species.................................................................................................................. 33

6.7 Soil Management and Erosion Control Measures .............................................................. 33

7. Maintenance Plan...................................................................................................................... 33

8. Performance Standards ............................................................................................................. 34

8.1 First Interim Goal Releases 15% of Credits When:............................................................ 34

8.2 Second Interim Goal Releases 15% of Credits When: ....................................................... 35

8.3 Third Interim Goal Releases 15% of Credits When: .......................................................... 35

8.4 Final Goal Releases 25% at The End of The 10-Year Monitoring Period ......................... 36

8.5 Wetland Hydrology and Hydric Soils................................................................................. 36

9. Monitoring Requirements ......................................................................................................... 36

9.1 Monitoring Report Requirements ....................................................................................... 36

9.2 Reporting Schedule............................................................................................................. 37

10. Long-term Management Plan, Including Financial Arrangements......................................... 38

11. Adaptive Management Plan, Including Addressing Invasive Species Control ...................... 39

12. Financial Assurances .............................................................................................................. 41

References..................................................................................................................................... 42

3 | P a g e


List of Figures

Figure 1 Site Location and Service Area. ....................................................................................... 5Figure 2 View of the ILF Site. ........................................................................................................ 6Figure 3 Historical Aerial Photos from Eddy Rd.......................................................................... 13Figure 4 Soils ................................................................................................................................ 17Figure 5 Ground Water Data......................................................................................................... 32

List of Tables

Table 1 Credit Generation............................................................................................................. 10Table 2 Wildlife and Plant Species Identified .............................................................................. 19Table 3 Planting list. ..................................................................................................................... 27Table 4 Reporting Schedule.......................................................................................................... 38

List of Appendices

Appendix A. Wetland Delineation ReportAppendix B. Work Plan, Construction Detail, and Existing Aquatic ResourcesAppendix C. Notice of Mitigation RequirementsAppendix D. Cultural Resources ReviewAppendix E. Threatened and Endangered Species ReviewAppendix F. Default and Closure Provisions

4 | P a g e


Ducks Unlimited’s (DU) mission focuses on protecting and restoring wetland resources critical

to sustaining North America’s waterfowl populations. DU utilizes a scientific approach to

prioritize its conservation and mitigation activities. At a high-level, conservation priorities are

identified by a team of international biologists made up of waterfowl and conservation experts

spanning government, academia, and NGO sectors as described in the North American

Waterfowl Management Plan (NAWAMP; United States Fish and Wildlife Service 1986, 2012).

DU’s applied version of this plan, The International Conservation Plan identifies portions of

New York as priority landscapes for waterfowl conservation (Ducks Unlimited, 2005).

Furthermore, the northeastern United States and adjacent Canada support an estimated 7.6

million breeding waterfowl, 2.7 million wintering waterfowl, and four to five million migrating

waterfowl.

Ducks Unlimited, Inc. (DU) established the Ducks Unlimited, Inc. New York In-Lieu Fee

Program (DU-NY ILF Program) to provide a third-party compensatory mitigation option for

unavoidable wetland impacts in this priority landscape. DU has developed a suite of GIS-

planning tools to aide in the identification of wetland restoration and protection opportunities

within these Service Areas following techniques described by Hunter et al. 2012 and Raney and

Leopold 2018. DU’s top-down prioritization of landscapes and significant wetland features

within those landscapes enables DU to identify priority areas for wetland conservation and

mitigation activities on a watershed-scale. DU thoroughly evaluated wetland restoration

opportunities in the Western St. Lawrence Service Area (SA) (Figure 1) prior to coordinating the

selection of this site with the Interagency Review Team (IRT).

This plan describes an approach to provide mitigation at a 145.61-acre ILF site (Eddy Road)

within a large 441.01-acre property protected by DU (Figure 2) in the Western St. Lawrence

Service Area. The site is located within a regional priority area for waterfowl conservation, and

species of greatest conservation need (e.g., American bittern, northern harrier, eastern

meadowlark). This mitigation plan has been prepared and will be implemented by DU in

accordance with 33 CFR 332.4, the “U.S. Army Corps of Engineers New York District

Compensatory Mitigation Guidelines” and the “Guidelines for Mitigation Banking in Ohio”

(currently used by the U.S. Army Corps of Engineers Buffalo District). A Mitigation Plan for

5 | P a g e


each ILF site is submitted for public comment followed by Interagency Review Team review for

potential approval.

Figure 1 Site Location and Service Area.Approximate coordinates Latitude: 44°9’31.51” N and Longitude: 75°48’30.32” W. The site is accessed from Eddy Road, Theresa, NY. This ILF Site serves the Western St. Lawrence Service Area, comprised of the following 8-digit HUCs: 04150301; 04150302; 04150303; 04150304.

6 | P a g e


Figure 2 View of the ILF Site.The 145.61-acre ILF site is located within a 441-01-acre property owned by Wetlands America Trust.

7 | P a g e


1. Introduction and Objectives

The primary goal of the Eddy Road ILF Site is to provide wetland reestablishment,

rehabilitation, enhancement, and preservation to compensate for wetland loss. More specifically

this site provides an opportunity to:

� Replace wetland functions lost at impact sites

� Reestablish wetland acreage

� Reduce greenhouse emissions through a reduction/elimination of farming activities at the

mitigation site

� Provide new habitat and or foraging opportunities for wildlife including species of

greatest conservation need

� Provide habitat for migratory waterfowl

� Provide greenspace for use by a public use.

2. Site Selection

2.1 Site Description

The ILF Site is located at Latitude: 44°9’31.51” N and Longitude: 75°48’30.32” W off Eddy

Road in the Town of Theresa, Jefferson County, New York in the Indian River 8-digit HUC

(HUC 04150303) lying within DU’s Western St. Lawrence Service Area (Figure 1). This site

was selected because of its unique potential to reestablish a large, diverse wetland complex near

the Indian River (Figure 2). During initial site inspections, evidence of prior drainage activities

indicated suitable conditions for reestablishing wetland acreage; described further in Section 5.2,

in the Wetland Delineation Report (Appendix A), and in the Work Plan (Appendix B). The ILF

site spans 145.61-acres and lies within a larger 441.01-acre property protected by DU. A

conservation easement encompassing 439.81-acres will be established to permanently protect

natural areas on this property, residual areas not incorporated into this initial project phase may

be used for other mitigation activities in the future.

The wetland mitigation plan takes into consideration priorities identified in the New York State

Wildlife Action Plan (SWAP) (NYSDEC, 2015). These include protection and restoration of

central hardwood swamp, northeast floodplain forest, and emergent marsh, as well as the

continuation of grassland breeding bird habitat management. The ILF Site offers the ability to

8 | P a g e


develop several of these critical habitats. In addition to the wetland restoration activities at the

ILF Site, upland buffer areas will be seeded to warm season grasses and managed for grassland

breeding bird species. The ILF Site will also provide important benefits to water quality. The

New York State Department of Environmental Conservation (NYSDEC) identifies aquatic life in

the Indian River as stressed from nutrient and sediment inputs related to agriculture and

development (NYSDEC, 2009). The ILF Site contains approximately 53-acres that has been in

agricultural use as a hayfield, and periodically tilled. The surrounding area has also seen an

influx of residential development in response to housing needs at nearby Fort Drum. Protection

and restoration of this property will improve water quality.

The ILF Site already provides breeding and migration habitat for waterfowl species such as

mallard and wood duck, which is likely to improve through restoration activities. Several species

of greatest conservation need (SGCN) identified in the State Wildlife Action Plan (SWAP,

NYSDEC, 2015) have been observed by DU staff on site including American black duck, olive-

sided flycatcher, bobolink, eastern meadowlark, brown thrasher, and golden-winged warbler.

SWAP recognizes freshwater wetlands as critical habitats in the St. Lawrence Valley. This plan

aims to restore and protect these critical habitats on the ILF Site. Specifically, the objectives of

this mitigation work plan are to:

� re-establish 5.22 acres of palustrine emergent (PEM) wetlands

� re-establish 3.24 acres of palustrine scrub-shrub (PSS) wetlands

� re-establish 4.39 acres of palustrine forested (PFO) wetlands

� rehabilitate 3.59 acres of PEM wetlands

� rehabilitate 1.38 acres of PSS wetlands

� rehabilitate 1.22 acres of PFO wetlands

� rehabilitate 33.41 acres of upland buffer

� preserve 0.23 acres of PEM wetlands

� preserve 43.13 acres of PSS wetlands

� preserve 0.55 acres of PFO wetlands

� preserve 2.14 acres of pond

� preserve 43.40 acres of upland buffer

141.90-acres of credit-producing habitat will be preserved or restored through this project

3. Site Protection Instrument

The ILF Site is owned by Wetlands America Trust, Inc. (WAT). WAT, a wholly owned

subsidiary of DU, is a non-profit conservation organization that is an Accredited Land Trust.

9 | P a g e


Ownership of the ILF Site by WAT meets the site protection requirements of 332.7(a)(1). In

addition to ownership, WAT will record a Notice of Mitigation Requirements (Appendix C) in

the land records of Jefferson County upon approval of this Mitigation Plan. The Notice of

Mitigation Requirements will give the USACE the ability to enforce compliance with the

approved Mitigation Plan. DU has identified the Thousand Islands Land Trust (TILT) as the

long-term steward of the property. DU will donate the property to TILT. Upon transfer of the

property, WAT will retain a perpetual Conservation Easement on the property. DU will also

transfer funds to TILT for the establishment of a stewardship endowment to be used for

monitoring and management of the site in perpetuity (Described further in Section 10).

4. Determination of Credits

The IRT will determine credits based on wetland acres that meet or exceed performance

standards described in Section 8. Credit ratios identified in the ILF Program Instrument are

provided in Table 1. The credit generation table will be modified as monitoring provides specific

information on the size and quality of the wetlands and upland buffers being developed. Should

areas not meet all of the performance criteria described in Section 8 at the end of the 10-year

monitoring period, the program sponsor may request more time to achieve goals, or request that

the IRT consider an appropriate reduction in credit generation.

10 | P a g e


Table 1 Credit Generation The program sponsor anticipates the ILF Site will generate 24.94 credits based on the following ratios and acreages for each mitigation activity.

Mitigation Activity AcresRatio

(Acres:Credits) Credits GeneratedPEM Re-establishment 4.05 1:1 4.05PEM Re-establishment (within 50 m buffer) 1.17 4:1 0.29

PEM Rehabilitation 3.59 4:1 0.90

PFO Re-establishment 4.31 1:1 4.31

PFO Re-establishment (within 50 m buffer) 0.08 4:1 0.02

PFO Rehabilitation 1.22 3:1 0.41

PSS Re-establishment 3.18 1:1 3.18

PSS Re-establishment (within 50 m buffer) 0.06 4:1 0.02

PSS Rehabilitation 1.38 4:1 0.35

Upland Buffer Rehabilitation 33.41 6:1 5.57

Upland Buffer Preservation 43.40 15:1 2.89

Wetland Preservation 43.91 15:1 2.93

Pond Preservation 2.14 20:1 0.11

Permanent Fill (berm) 0.09 -1:1 -0.09

Total 141.99 24.94

In order for the performance standard to be met, re-established and rehabilitated wetlands must

have a VIBI-FQ of 40. We anticipate an ecological lift will be achieved as seed mixes with a

FQAI score >50 will be used. We propose a 1:1 credit ratio for re-established wetlands, 3:1 for

the rehabilitated forested wetlands, 4:1 for the rehabilitated scrub wetlands, and4:1 for the

rehabilitated emergent wetlands.

Agricultural intensification is a threat in the Western St. Lawrence Service Area (NYSDEC,

2015). This ILF Site for instance had been recently tilled and drained in order to increase

production and farming efficiency. Furthermore, recent years have seen a reduction in regulatory

authority over wetlands (SWANCC, Rapanos), and recent studies suggest that further relaxation

of the clean water act may lead to further wetland losses (Raney and Leopold 2018), thus it is

important to permanently protect wetlands when given the opportunity. The existing 42.7-acre

scrub-shrub wetland at the ILF Site contributes the following important, watershed scale

functions; flood-storage value, carbon sequestration, habitat for wildlife (including species of

greatest conservation need), and a role in denitrification. Therefore, we propose a credit

production ratio of 15:1 to preserve existing wetlands at the ILF Site.

11 | P a g e


Preservation of the upland buffer will also maintain habitat continuity and a diverse array of

cover-types to increase wildlife usage. Wetlands without intact upland buffers typically have

lower plant diversity, more invasives, higher nutrients, sediment inputs, and temperatures. Given

the importance buffers to adjacent wetlands, a ratio of 15:1 for upland buffer preservation is

recommended. The existing buffer in the hay field is planted to introduced, cool season species

with limited wildlife habitat value. This area will be planted to native warm season grasses to

provide cover for wildlife. A 6:1 credit-ratio is proposed for upland buffer rehabilitation.

Provided that preservation is documented, and financial assurances are in place (recorded Notice

of Mitigation Requirements on the deed with intention to file a CE) the credit release schedule

will include:

� All of the credits associated with the preservation will be released upon approval of the

plan.

� 10% of the credits for re-establishment and rehabilitation will be released upon approval

of this mitigation plan

� 20% of the credits for re-establishment and rehabilitation will be released at as-built

production and approval by the IRT.

� 15% of the credits for re-establishment and rehabilitation will be released after meeting

the first interim goal.


the second interim goal.


the third interim goal.

� 25% of the credits for re-establishment and rehabilitation will be released after the final

vegetation goals have been met for 10-year monitoring period.

5. Baseline Ecological Characteristics

5.1 Historic and Existing Plant Communities, Including Wetlands

The site has a history of use as agricultural land, with wetter areas remaining in a somewhat

natural state dating back to at least the 1970’s. Vegetation communities were surveyed in May-

12 | P a g e


July 2018, and are further described in the wetland delineation report in Appendix A. Here we

provide a brief summary of the plant communities. The large wetland at the north end of the ILF

Site is dominated by shrubs, including white meadowsweet (��) and gray dogwood

(�� ). Hayfields are dominated by cool season grasses and legumes, including

timothy (�� ) and red clover (�� ). Scattered in the field are pockets

of emergent wetlands dominated by slender spike-rush (�� ), fox sedge (��

�� ), and bristly sedge (��). The northwest portions of the ILF Site consist of

forested uplands and wetlands. The upland forest contains quaking aspen (��),

northern white oak (��), and American basswood (�� ), while the

forested wetlands are dominated by red maple (��).

Cultural Resources

A request for a cultural and historic resources review was submitted to the New York State

Office of Parks, Recreation and Historic Preservation (OPRHP) and a response was received.

According to (OPRHP), no cultural resources will be affected by the wetland mitigation

activities (Appendix D).

5.2 Site Land Use History, Including Structures

There are no structures on the property. From a review of aerial photography dating back to

1977, fields within the ILF Site have been continuously maintained for agricultural production

(Figure 3). On-site reviews in September 2017 provided evidence of hydrological modifications

occuring after the 2014 imagery was taken. Approximately 1,460 feet of an existing drainage

ditch was tiled and buried. Approximately 7-acres of early successional growth was also cleared

in order to facilitate larger scale farming. The field was seeded in 2017 and has been recently

used for hay production. There are no known hazardous material sites located on or within the

vicinity of the ILF Site.

13 | P a g e


Figure 3 Historical Aerial Photos from Eddy Rd. A drainage ditch that cut diagonally across the field from NE to SW appears to have been filled in. Hydrological signatures can also be seen in the 1994 and 2006 images.

14 | P a g e


5.3 Soil Descriptions

Based on the Soil Survey of Jefferson County, New York (USDA Official Soil Series Descriptions) several soil series are mapped on-site including Elmridge and Shaker fine sandyloams, Hollis-Galoo complex, and Rhinebeck silt loam. A soils map is provided in Figure 4. Soil conditions in the field appear to conform to the mapped soil series. Additionally, soil borings were taken throughout areas potentially suitable for restoration work spanning all potential phases. Descriptions of soil borings are provided in the work plans for the ILF Site in Appendix B. Overall soils appear suitable for basin construction and berm construction. Where native soils are unsuitable for berm construction, silty-clay and clay loams will be pulled from nearby areas of planned excavation.

ClA-Chaumont silty clay, 0 to 3 percent slopes. This is a nearly level, moderately deep andsomewhat poorly drained soil on slightly convex, broad flats on lowland plains. Bedrock is at a depth of 20 to 40 inches. Areas range from 10 to 100 acres. Typically, the surface layer is dark grayish brown silty clay about 5 inches thick. The subsoil is mottled and about 22 inches thick. It is grayish brown to dark grayish brown clay in the upper part and dark grayish brown silty clay in the lower part. Limestone bedrock is at a depth of 27 inches.

Cp-Covington silty clay. This is a nearly level, very deep, poorly drained soil in smooth, broad, mostly level areas and partly depressional areas of lowland plains. Areas range from 15 to 100 acres. Slope ranges from 0 to 3 percent, but is predominantly less than 1 percent. Typically, the surface layer is very dark gray silty clay about 6 inches thick. The subsoil is mottled and about 26 inches thick. It is dark gray to grayish brown clay. The substratum is mottled, gray, firm, sticky and plastic silty clay to a depth of 60 inches or more.

ElA-Elmridge fine sandy loam, 0 to 3 percent slopes. This is a nearly level, very deep, moderately well drained soil mainly in smooth, oval or round areas on lowland plains or terraces.Areas range from 15 to 45 acres. Typically, the surface layer is dark brown fine sandy loam about 10 inches thick. The subsoil is mottled and about 24 inches thick. It is strong brown to yellowish brown fine sandy loam in the upper part and dark grayish brown silty clay in the lower part. The substratum is dark grayish brown silty clay to a depth of 60 inches or more.

EIB-Elmridge fine sandy loam, 3 to 8 percent slopes. This is a gently sloping, very deep, moderately well drained soil mainly in smooth, irregular areas and on concave slopes on plains or terraces. Areas range from 10 to 50 acres. Typically, the surface layer is dark brown fine sandy loam about 10 inches thick. The subsoil is mottled and about 24 inches thick. It is strong brown to yellowish brown fine sandy loam in the upper part and dark grayish brown silty clay in the lower part. The substratum is dark grayish brown silty clay to a depth of 60 inches or more.

HpB-Hollis-Galoo, acid, complex, rocky, 0 to 8 percent slopes. This map unit consists of nearly level and gently sloping, shallow and very shallow, well drained to excessively drained soils in mostly flat to undulating areas on the tops of terraces and plains. Rock outcrops make up 0.1 to 2 percent of most areas. Areas range from 15 to 100 acres or more. This unit is about 45 percent shallow Hollis soil, 45 percent very shallow Galoo, acid, soil, and 10 percent areas of rock outcrops and other soils. Typically, the surface layer of the Hollis soil is covered by a thin, organic layer. The surface layer is very dark brown fine sandy loam about 4 inches thick. The

15 | P a g e


subsoil is brown to dark yellowish brown gravelly fine sandy loam to a depth of about 16 inches. Potsdam sandstone and dolomite bedrock is at a depth of 16 inches. Typically, the Galoo, acid, soil has a surface layer of dark brown silt loam about 4 inches thick. The subsoil is reddish brown channery silt loam to a depth of about 7 inches. Dolomite or Theresa sandstone bedrock is at a depth of 7 inches.

HrB-Hollis-Rock outcrop complex, 0 to 8 percent slopes. This map unit consists of shallow, well drained and somewhat excessively drained Hollis soil and areas of Rock outcrop. The Hollis soil makes up about 50 percent of the unit, Rock outcrop makes up about 30 percent, and other soils make up 20 percent. Areas of this soil and Rock outcrop are undulating or flat and on thetops of terraces, and on plains. Areas range from 15 to 80 acres or more. Typically, the surface layer of the Hollis soil is covered by a thin, organic layer. The surface layer is dark brown fine sandy loam about 4 inches thick. The subsoil is brown to dark yellowish brown gravelly fine sandy loam to a depth of 16 inches. Potsdam sandstone and dolomite bedrock is at a depth of 16 inches or more. Typically, Rock outcrop consists of areas of exposed sandstone and dolomite. The sandstone is poorly cemented and buff colored. The dolomite is made up of magnesium carbonate.

Lc-Livingston mucky silty clay. This is a nearly level, very deep and very poorly drained soil mainly in smooth, broad, flat or depressional areas on plains. Areas range from 15 to 70 acres.Slope ranges from 0 to 3 percent, but is dominantly 1 or 0 percent. Typically, the surface layer is black mucky silty clay about 6 inches thick. The subsoil is mottled and about 24 inches thick. It is dark greenish gray to dark gray, very firm, very plastic and very sticky clay. The substratum is mottled, dark gray to gray clay and silty clay to a depth of 60 inches or more.

RhB-Rhinebeck silt loam, 3 to 8 percent slopes. This is a gently sloping, very deep, somewhat poorly drained soil mainly in concave, sloping areas on lowland plains and at the margins of uplands. Areas range from 5 to 100 acres. Typically, the surface layer is dark grayish brown silty loam about 8 inches thick. The subsurface layer is mottled, grayish brown silt loam about 4 inches thick. The subsoil is mottled and about 14 inches thick. It is brown silty clay in the upper part and grayish brown silty clay in the lower part. The substratum is grayish brown silty clay varved with silt and very fine sand, to a depth of 60 inches or more.

Ru-Ruse gravelly loam, rocky. This is a nearly level, shallow, poorly drained and very poorly drained soil mainly in flat areas and depressions. Rock outcrop covers 0.1 to 1.0 percent of the surface. Bedrock is at a depth of 10 to 20 inches. Areas range from 10 to 100 acres. Slope ranges from 0 to 3 percent, but is dominantly less than 2 percent. Typically, the surface layer is very dark grayish brown gravelly loam about 6 inches thick. The subsoil is mottled and 10 inches thick. It is brown very gravelly sandy loam to a depth of 16 inches. Bedrock of Theresa sandstone and dolomite is at a depth of 16 inches or more.

Sh-Shaker fine sandy loam. This is a nearly level, very deep, poorly drained and somewhat poorly drained soil mainly in smooth, gently undulating areas on lowland plains. Areas range from 5 to 60 acres in size. Slope ranges from 0 to 3 percent. Typically, the surface layer is very dark gray fine sandy loam about 12 inches thick. The subsurface layer is mottled, pale brown fine sandy loam about 6 inches thick. The subsoil is mottled and about 16 inches thick. It is

16 | P a g e


grayish brown fine sandy loam in the upper part and grayish brown silty clay loam in the lower part. The substratum is grayish brown, massive silty clay loam to a depth of 60 inches or more.

VeB-Vergennes silty clay loam, 3 to 8 percent slopes. This is a gently sloping, very deep, moderately well drained soil mainly in areas of convex slopes on lake plains. Areas range from 10 to 70 acres. Typically, the surface layer is dark grayish brown silty clay loam about 8 inches thick. The subsoil is mottled and about 21 inches thick. It is dark brown clay in the upper part and dark grayish brown clay in the lower part. The substratum is mottled clay varved with silt, to a depth of 60 inches or more.

Wh-Whately fine sandy loam. This is a nearly level, very deep, very poorly drained soil mainly in depressions on lowland plains. Areas range from 10 to 60 acres. Slope is less than 3 percent. Typically, the surface layer is about 8 inches thick. It is black muck in the upper 2 inches and black fine sandy loam in the lower 6 inches. The subsoil is mottled and about 24 inches thick. It is olive gray sandy loam in the upper part and greenish gray silty clay loam in the lower part. The substratum is mottled, gray silty clay loam to a depth of 60 inches or more.

WoB-Windsor loamy fine sand, O to 8 percent slopes. This is a nearly level to gently sloping, very deep, excessively drained soil mainly in broad or long, undulating areas on terraces and plains. Areas range from 15 to 100 acres. Typically, the surface layer is very dark grayish brownloamy fine sand about 5 inches thick. The subsoil is about 23 inches thick. It is strong brown to yellowish brown loamy fine sand in the upper part and brownish yellow loamy sand in the lower part. The substratum is light yellowish brown sand to a depth of 60 inches or more.

17 | P a g e


Figure 4 Soils Map. Restoration activities will occur primarily in ElA, ElB, Sh, and Cp.

18 | P a g e


5.4 Animal and Plant Species Including Endangered Species

The ILF Site is within the Atlantic Coast Joint Venture (ACJV) Lower Great Lakes/St. Lawrence

Plain Bird Conservation Region’s (BCR 13) St. Lawrence Plain Waterfowl Focus Area and is a

high priority landscape in New York. This area is considered the most important breeding habitat

for mallards in the eastern U.S. (ACJV, 2005; Waterfowl Implementation Plan).

While no federally listed species were observed during site visits, forested portions of the site

potentially contain roosting habitat for northern long-eared bat, and Indiana bat may also be

present (Appendix E). DU will consult with the USFWS to ensure that this project will not

negatively affect any listed species that may be present. DU will not cut any trees as part of this

project as it might have an adverse impact on bat species. We anticipate that the restored

wetlands will improve foraging opportunities for bat species present at the site.

Some state listed species and species of greatest conservation need (SGCN) have been

documented at the site either by DU staff or during past surveys including: American and least

bitterns, northern harrier, bobolink, eastern meadowlark, brown thrasher, golden-winged warbler,

osprey, and ruffed grouse (NYSDEC, 1999; NYS Breeding Bird Atlas 2000–2005 Survey). A

full list of species observed at the property is provided in Table 2.

19 | P a g e


Table 2 Wildlife and Plant Species Identified

Species Common Name Conservation Status NotesBirds

�� red-winged blackbird

�� wood duck

� �� green-winged teal

� �� mallard

� �� American black duck High Priority SGCN

�� great blue heron

�� cedar waxwing

�� ruffed grouse SGCN

�� American bitternSGCN, NY special concern

�� Canada goose

�� red-tailed hawk

�� green heron

�� least sandpiper

�� northern cardinal

�� turkey vulture

�� veery

�� killdeer

�� northern harrier SGCN, NY threatened

�� northern flicker

�� rock dove

�� olive-sided flycatcher High Priority SGCN

�� American crow

�� common raven

�� blue jay

!�� "��bobolink High Priority SGCN

!�� gray catbird

#�� American kestrel

$�� Wilson’s snipe

$�� common yellowthroat

%�� barn swallow

&�� least bittern SGCN, NY threatened

'��hooded merganser

(�� belted kingfisher

(�� wild turkey

�� osprey NY special concern

20 | P a g e


Species Common Name Conservation Status Notes�� rose-breasted grosbeak

�� downy woodpecker

�� hairy woodpecker

�� eastern towhee

�� black-capped chickadee

��)�� common grackle

�� eastern phoebe

�� American woodcock SGCN

�� chestnut sided warbler

�� American yellow warbler

�� American goldfinch

��"�� tree sparrow

�� eastern meadowlark High Priority SGCN

�� European starling

�� tree swallow

�� brown thrasher High Priority SGCN

�� lesser yellowlegs

�� solitary sandpiper

�� house wren

�� American robin

�� eastern kingbird

*�� golden-winged warbler

Hight Priority SGCN,NY special concern

+� �� mourning dove

21 | P a g e


Species Common Name Conservation Status NotesAmphibians

'�� bullfrog

'�� green frog

'�� northern leopard frog

�� spring peeper

�Reptiles

�� snapping turtle SGCN

�� common garter snake

�Mammals

�� coyote

�� North American beaver

��"� �� porcupine

'�� snowshoe hare

,�� white-tailed deer

, ��"�� muskrat

�� deer mouse

�� eastern gray squirrel

�� eastern chipmunk

�� American red squirrel

*�� red fox

�Fish

�� rock bass

#��& �� -��

(NYSDEC, 2019)

�� brown bullhead

�� white sucker

�� northern pike

'�� green sunfish

'�� pumpkinseed

'�� bluegill

(�� smallmouth bass

(�� largemouth bass

(�� silver redhorse

(�� greater redhorse

�� yellow perch

�� walleye

22 | P a g e


Species Common Name Conservation Status NotesPlants

�� red maple

�� rough bentgrass

�� American water plantain

�� swamp milkweed

�� common milkweed

�� garden yellow -rocket

�� gray birch

�� devil's beggartick

�� small-spike false nettle

�� smooth brome

�� marsh marigold

�� bristly sedge

�� nodding sedge

�� bladder sedge

�� lakeside sedge

�� hop sedge

�� shallow sedge

�� broom sedge

�� tussock sedge

�� fox sedge

�� American hornbeam

�� shell-bark hickory

�� Canada thistle

�� field bindweed

�� gray dogwood

�� dotted hawthorn

!�� orchard grass

!�� wild carrot

!�� northern bush honeysuckle

�� autumn olive

�� blunt spike-rush

�� slender spike-rush

�� nodding wild rye

�)�� field horsetail

�)�� woodland horsetail

�� rough boneset

�� grass leaved goldenrod

#�� American beech

#�� red fescue

#�� wild strawberry

#�� Virginia strawberry

23 | P a g e


Species Common Name Conservation Status Notes#�� green ash

$�� stickywilly

$�� false baby’s breath

$�� stiff marsh bedstraw

$�� wild geranium

$�� rattlesnake mannagrass

&�� touch-me-not

&�� blue-flag iris

.� �� Northern green rush

.� �� soft rush

.� �� poverty rush

'��"�� rice cutgrass

'�� bird’s-foot trefoil

'�� /�� ragged robin

(�� alfalfa

, �� sensitive fern

,�� interrupted fern

�� common panic grass

�� )�� )��

Virginia creeper

�� Pennsylvania smartweed

�� reed canary grass �� common timothy

�� broadleaf plantain

�� Kentucky blue grass

��

Christmas fern

�� quaking aspen

�� fire cherry

�� black cherrry

�� northern white oak

�� swamp white oak

�� bur oak

-� � �� tall buttercup

-�� black raspberry

-��0�� black-eyed Susan

-�� curly dock

�� black willow

�� hard stemmed bulrush

��

soft stem bulrush

�� green bulrush

24 | P a g e


Species Common Name Conservation Status Notes�� woolgrass

�� charlock mustard

�� Canada goldenrod

�� roughleaf goldenrod

�� American mountain ash

�� broadfruit bur-reed

�� white meadowsweet

�� rosy meadowsweet

�� dandelion

�� American basswood

�� poison ivy

�� red clover

�� painted trillium

�� eastern hemlock

�� narrowleaf cattail

�� broadleaf cattail

1�� American elm

1�� slippery elm

*�� blue vervain

*�� garden vetch

25 | P a g e


6. Mitigation Work Plan

6.1 Geographic Boundaries

The geographic boundaries of the ILF Site correspond to the property acreage to be placed under

conservation easement within the Phase 1 (heavy black-line) acreage as depicted in Appendix B.

The ILF site lies to the north of Silver Street and is bounded by Eddy Rd to the West. A small

area, excluded from the credit production area, will serve as off-road parking and is accessed

from Eddy Rd just to the north of Silver St.

6.2 Construction Methods, Timing and Sequencing

The hay field within the ILF Site contains several depressions and a long swale that historically

contained wetlands prior to drainage activities. Soil borings there indicate the soils contain a

claypan between the depths of 16” and 25”. The claypan perches groundwater in the above sand

and clay layers. Previous excavations elsewhere on the property outside of the Phase 1 area

provide evidence that shallow depressions will support hydrophytes and wetland hydrology. The

hydrological restoration plan provided in Appendix B includes the disruption of existing drain

tile, combined with shallow scrapes and construction of berms to collect and retain groundwater

and surface runoff. The utilization of berms is necessary to maximize the area of wetlands

restorable through this project.

Prior to any grading or placement of fill, topsoil will be stripped and stockpiled from the work

area. Drain tile disruption, scrapes, and berms will be completed on the site using bulldozers and

tracked excavator. Approximately 8.5 acres will be graded to create wetland topography, this

includes 4 shallow scrapes totaling 6.55 acres and one small pothole. Some of the excavated

material will be used to construct three berms. Agri-Drain water control structures will be

installed in each of the berms, these will allow for the management of hydrology in order to meet

vegetation performance standards. Any soil remaining after constructing the embankments will

be placed in habitat mounds adjacent to the restored wetlands. Once the cut and fill work is

completed, the stockpiled topsoil will be spread across all disturbed areas.

26 | P a g e


Seeding will begin as soon as the earthwork is completed. All wetland areas will receive the

wetland seed mix. Any disturbed upland areas will be stabilized with the standard upland seed

mix; including all berms, spillways, habitat mounds, and access roads. The PSS, PFO, and

upland warm season grass areas specified in the planting plan (Appendix B) will be planted to

the species mixes specified in Table 3. These plantings will likely be delayed until the following

spring, in order to establish plants during an optimum time of year.

6.3 Grading Plan, Including Elevations and Slopes of Substrate

The grading operations with finished elevations are shown in the plan and profile pages of

Appendix B. These include tile drain exploration and removal, scrapes with habitat mounds, and

berm construction in order to collect and retain groundwater and surface runoff. Slopes shall not

exceed 4:1 on the embankments and 6:1 on the habitat mounds. Final grading shall leave the

topsoil in a loose condition conducive to broadcast seeding. Planned wetland areas that are

undisturbed by construction activities will be disked to aid in seeding establishment and to create

microtopography. The erosion and sediment control plan in Appendix B outlines the stormwater

best management practices that will be used.

6.4 Methods for Establishing Desired Plant Community

Establishing the desired plant community will be achieved by active means. During the wetland

delineation, some hydrophytic vegetation was observed in the agricultural field, thus providing

evidence of a hydrophytic seed bank that may reestablish following hydrological restoration.

Moreover, test pits dug on another portion of the property contain native hydrophytes. All

planned wetland areas will be broadcast with a wetland seed mix containing species with

variable shade tolerance (Table 3). Species selection was formulated following a review of

“Ecological Communities of New York State” (Edinger et al., 2014). The planting plan in

Appendix B reflects a goal to reestablish multiple wetland cover types (i.e., PEM, PSS, PFO.

Berms and habitat mounds will be planted to a cool season grass and legume mix in order to

prevent erosion. The addition of water control structure in the site’s design will enable the

project sponsor to manipulate the site’s hydrology in order to achieve target conditions for plant

establishment. For instance, periodic draw-downs are conducive to maintaining plant diversity

through time (Van Der Valk, 1981).

27 | P a g e


Table 3 Planting list.

Target Area Common Name Scientific Name Wetland Indicator Status

Propagule Type Quantity/Acre

All Wetland Areas

fox sedge �� OBL

seed mix2��

��3��

shallow sedge �� OBL

hop sedge �� OBL

fringed sedge �� OBL

bristly sedge �� OBL

rice cutgrass '��"�� OBL

green bulrush �� OBL

swamp smartweed �� FACW

spotted Joe pye weed �� OBL

nodding beggartick �� FACW

soft rush .� �� OBL

PSS

speckled alder � �� FACW

bare root/potted

sum to 4566��3��

buttonbush �� OBL

red osier dogwood �� FACW

silky dogwood �� FACW

spicebush '� �� "�� FACW

swamp rose -�� OBL

white meadowsweet �� FACW

PFO

red maple �� FAC

bare root/potted

sum to 4566��3��


common hackberry �� FAC



American sycamore �� FACW

swamp white oak �� FACW

pussy willow �� FACW

black willow �� OBL


Grasslands

big bluestem � �� FACU

seed mix 15 lbs/acre PLSlittle bluestem ��"�� FACU

switchgrass �� FAC

Indian grass �� FACU

Berms

creeping red fescue #�� FACU

seed mix78��

��3��

tall fescue �� FACU

perennial ryegrass '�� FACU

annual ryegrass '�� FACU

birds-foot trefoil '�� FACU

*�� .

28 | P a g e


6.5 Sources of Water, Connections to Existing Waters and Upland Runoff

Existing wetland features have been identified through an on-site delineation, this report can be

found in Appendix A. The hay field within the ILF Site contains several depressions and a long

swale that collect and convey groundwater and surface runoff. Drainage attempts were

unsuccessful in small portions of these depressions and these areas currently delineate as

wetland. A forested wetland along the eastern boundary of the ILF Site drains westward, through

the long swale, crossing the field towards a culvert under Eddy Road. The northern portion of the

field drains to the north and flattens out adjacent to a large scrub-shrub wetland. The southeast

corner of the field drains to the south, with water ponding adjacent to Silver Street Road.

Groundwater also makes a significant contribution to the hydrology at the ILF Site, as soil

borings indicate that the soils contain a claypan that perches groundwater within the sand and

clay layers located above it. Three groundwater monitoring wells were installed at the ILF Site in

June of 2018. The well locations are shown in Appendix B and data from the wells are shown in

Figure 5. The data indicate that ground water levels approach the surface in the fall and appear to

remain elevated through the winter months. The site characteristics and data collected support

the plan to utilize a combination of grading and embankments to restore wetland hydrology to

the site.

29 | P a g e


Much of the site has a flat or gently sloping topography and evidence of historic drainage activities. Photo taken 11-1-2017. Hydrophytes were present in lower slope positions, and included lake-bank sedge, lamp-rush, and spike-rush.

Some areas in open fields remained in a wetland state, despite prior drainage efforts.Photo taken 11-1-2017.

30 | P a g e


North of Silver Street, a former stream-channel appears to have been lined with tile. This project will result in a restoration of linear stream and wetland features. Taken 9-22-2017.

Evidence of hydrology can be seen surrounding a residual wetland in an agricultural field to the

North of Silver Street. Taken 9-22-2017.

31 | P a g e


Drone shot looking south along Eddy Rd toward intersection with Silver Street. Image credit: Bernie Sturr.

Drone shot looking south along Eddy Rd (right) toward Silver Street. A residual wetland area was identified near Eddy Rd.

32 | P a g e


Figure 5 Ground Water Data.

33 | P a g e


6.6 Invasive Species

The ILF Site has very few invasive plant species. During site visits, a single stand of narrowleaf

cattail (�� ) was identified in wetland 9. This stand constitutes a small percentage

of the total area of the site. DU will continue to monitor and adaptively manage invasive species

on the property through hand pulling, mechanical removal, and through application of herbicide

in accordance with all state and federal regulations. As the site develops, spot herbicide

applications may be necessary. Other appropriate methods for control will be evaluated as

invasive species are encountered. Long-term tasks will include routine inspections in early

summer (late June through mid-July) to determine invasive species presence or absence, and

abundance.

6.7 Soil Management and Erosion Control Measures

All slopes, soils, substrates, and constructed features within and adjacent to the work site will

follow stabilization protocols described in the Eddy Road Erosion and Sediment Control plan

that will be submitted to NYS DEC prior to initiation of those activities. DU will obtain all

necessary permits (e.g., SWPPP) prior to construction.

7. Maintenance Plan

DU will take appropriate measures after initial construction to ensure continued site maturation.

Maintenance activities may be triggered by:

� During yearly monitoring (Section 9), management concerns and appropriate adaptive

management strategies will be reviewed and implemented as necessary.

� Unforeseen environmental conditions may affect the success of the project, but their

effects can generally be managed through early detection. Flooding, drought, invasive

species, site degradation, erosion, and vandalism are examples of some adverse

conditions that can be managed.

� Routine maintenance checks, for example, on plant health and vigor, unwanted plant

species, trash, herbivores, and areas with chronic erosion.

� Deer herbivory will be monitored, but in general densities are lower in this vs. other parts

of New York State.

� Supplemental plantings may be added, especially to overcome adverse weather

34 | P a g e


conditions early within site establishment phases.

� Corrective measures may include adding or removing plants as conditions warrant,

modifying local topography to ensure wetland hydrology and additional mulching and

seeding as needed.

8. Performance Standards

Success within the ILF Site is based on meeting the USACE criteria for the three parameters

described in the 1987 Corps of Engineers Wetland Delineation Manual and Current Regional

Supplement. These parameters require sufficient:

1. 9�� to support adequate

2. �� , ultimately forming

3. ��, all of which describe a functioning wetland.

The performance standards criteria described below will be monitored over a ten-year term that

begins following the submittal of a post-construction as-built; the monitoring term includes three

interim goals, and the final success criteria. When met, each interim goal would release 15% of

the total remaining credits (i.e., credits remaining following mitigation plan and as-built

approval). The final 25% of remaining credits would be released after the final vegetative goals

have been met. The project sponsor may request that areas not meeting full performance at the

end of the 10-year monitoring period as outlined below be evaluated for partial credit release at a

lower credit ratio.

8.1 First Interim Goal Releases 15% of Credits When:

� The areas meeting wetland criteria will have 50% absolute coverage by native perennial hydrophytes.

� The areas meeting wetland criteria are demonstrating progress in vegetative development towards meeting the final VIBI-FQ performance standard and have a minimum VIBI-FQ of 20.

� The areas meeting PSS criteria will have at least 150 shrubs/trees per acre, and those stems will display normal and healthy growth, free of disease and pests. PSS zones will have at least half of the stems growing as shrub species.

� The areas meeting PFO criteria will have at least 150 shrubs/trees per acre, and those stems will display normal and healthy growth, free of disease and pests. PFO zones will have at least half of the stems growing as tree species.

35 | P a g e


� Wetland acreage will have less than 10% relative cover of all non-Typha invasive plant species such as, but not limited to: purple loosestrife ('��), common reed (��), Japanese Knotweed (�� ).

� Due to the difficulty of distinguishing the three species of cattails (��, �� , and �� x ��), as well as the likelihood that at least one of these will be present in many types of New York wetlands, the total relative cover of all invasive species, including �� spp., will be less than 15%.

8.2 Second Interim Goal Releases 15% of Credits When:� The areas meeting wetland criteria will have 60% absolute coverage by native perennial

hydrophytes.

� The areas meeting wetland criteria are demonstrating progress in vegetative development towards meeting the final VIBI-FQ performance standard and have a minimum VIBI-FQ of 32.



� Wetland acreage will have less than 8.5% relative cover of all non-�� invasive plant species such as, but not limited to: purple loosestrife ('��), common reed (��), Japanese Knotweed (�� ).

� Due to the difficulty of distinguishing the three species of cattails (��, �� , and �� x ��), as well as the likelihood that at least one of these will be present in many types of New York wetlands, the total relative cover of all invasive species, including �� spp., will be less than 13.75%.

8.3 Third Interim Goal Releases 15% of Credits When:� The areas meeting wetland criteria will have 75% absolute coverage by native perennial

hydrophytes.

� The areas meeting wetland criteria are demonstrating progress in vegetative development towards meeting the final VIBI-FQ performance standard and have a minimum VIBI-FQof 36.



� Wetland acreage will have less than 6.5 % relative cover of all non-�� invasive plant species such as, but not limited to: purple loosestrife ('��), common reed (��), Japanese Knotweed (�� ).

� Due to the difficulty of distinguishing the three species of cattails (��:�� , and�� x ��), as well as the likelihood that at least one of these will be present in many types of New York wetlands, the total relative cover of all invasive species, including �� spp., will be less than 12.5%.

36 | P a g e


8.4 Final Goal Releases 25% at The End of The 10-Year Monitoring Period

� The wetlands shall have 90% absolute coverage by native perennial hydrophytes.

� The areas meeting wetland criteria have met the final VIBI-FQ performance standard of 40.



� Wetland acreage will have less than 5 % relative cover of all non-�� invasive plant species such as, but not limited to: purple loosestrife ('��aria), common reed (Phra��), Japanese Knotweed (�� ).

� Due to the difficulty of distinguishing the three species of cattails (��, �� , and �� x ��), as well as the likelihood that at least one of these will be present in many types of New York wetlands, the total relative cover of all invasive species, including �� spp., will be less than 10%.

8.5 Wetland Hydrology and Hydric Soils

The goal is to maintain soil saturation within 12 inches of the surface for 15% of the growing

season, determined through an analysis of water-well data, visual inspections, and review of

permanently located water-level gauges. The growing season can be approximated as the period

of time between the average date of the last killing frost in the spring to the average date of the

first killing frost in the fall. We will use a temperature threshold of 28 degrees F or lower at a

frequency of 5 years in 10, and will draw from weather station records at Theresa, NY to

determine the typical growing season-length.

9. Monitoring Requirements

9.1 Monitoring Report Requirements

Annual site monitoring will begin after construction is completed and will continue for ten (10)

years. Monitoring reports will be submitted as outlined in Table 4. Monitoring locations are

shown in Appendix B. Monitoring will consist of the following.

� Post construction, monitoring report complete with photographs, baseline ecological

descriptions, as-builts that describe the actual constructed features with 0.5’ contours,

37 | P a g e


wetland delineation maps with habitat type breakdowns, delineation data forms, and

estimates of absolute cover of invasive plant species.

� Descriptions of the monitoring inspection protocols used.

� Water depths will be reported from throughout the site from permanent locations, and as

well as hydrology information derived from Wetland Determination Data Forms

completed throughout the site. Locations of each water depth monitoring location and

data point will be indicated on the survey map(s). Currently two permanent monitoring

wells are installed in the site, and a third will be installed post-construction.

� Concisely describe remedial actions completed during the monitoring year to meet the

three success standards – actions such as, replanting, controlling invasive plant species

(with biological, herbicidal, or mechanical methods), re-grading the site, adjusting site

hydrology, etc.

� Description of other remedial actions taken.

� Report on the status of all erosion control measures on the mitigation site. Identify

whether they are functioning. Descriptions of the necessity of any planned additional

temporary measures.

� Review of all information collected to meet all performance goals (8.1, 8.2, 8.3, 8.4, 8.5)

as appropriate.

� Photographs taken from permanent photo points shown on a site plan.

� List of wildlife observed and other interesting biological occurrences.

� A qualitative description of the general arboreal plant health, vigor and mortality,

including a prognosis for their future survival will be included along with photos

illustrating tree growth.

� All areas >0.1 acre that are dominated by invasives will be mapped and reported.

� VIBI-FQ scores will be recorded for all reestablishment and rehabilitation areas

generating credits.

9.2 Reporting Schedule

Monitoring reports, including an As-Built Report will be submitted no later than February 28 and

will describe conditions in the prior growing season. The As-Built will be submitted following

the completion of construction and planting. The As-Built survey will include a detailed contour

38 | P a g e


map and any deviations from the construction plans. Each report cover sheet shall indicate the

year and report number. All reports described in this section will be submitted to the Wetland

IRT, and (two hard copies) to the District Engineer at the Department of the Army, at the Buffalo

District Corps of Engineers 1776 Niagara Street, Buffalo, NY 14207-3199 and to 1 Buffington

Street, Watervliet Arsenal Building 10, Watervliet, New York 12189. All monitoring, reporting,

requests and adaptive management implementation will be the responsibility of DU. Measures

requiring additional soil manipulation or changes in hydrology will be undertaken only after

written approval from the Buffalo District Engineer has been obtained.

Table 4 Reporting Schedule

Activity Description Year

As-built Report To be submitted in February, the year following completion of construction and planting

0

1st Monitoring Report First monitoring report / no credit release requested 1

2nd Monitoring Report 1st Interim Credit Release Request 3

3rd Monitoring Report 2nd Interim Credit Release Request 5

4rth Monitoring Report 3rd Interim Credit Release Request 7

Final Monitoring Report Final Credit Release Request 10

*Credit release are anticipated to coincide with a given year, but they may deviate based onperformance. Reports will be submitted by no later than February of the calendar year following monitoring activities.

10. Long-term Management Plan, Including Financial Arrangements

In order to provide for a more sustainable approach to long-term management, WAT will

transfer ownership of the site to the Thousand Islands Land Trust (TILT) following construction

activities. DU will provide written notice to the USACE when ownership of the ILF Site is

transferred to TILT at which time a conservation easement will be recorded to the deed. Funds

for a long-term stewardship endowment will be set aside to provide funds for ongoing site

maintenance and adaptive management of the site once it enters the long-term management

phase. The endowment will be large enough that a conservative 5% annual growth will be

sufficient for fee title-monitoring. Following satisfaction of the mitigation requirements and or

ILF site closure, whichever comes first, TILT will provide for long-term management of the site

consistent with the USACE approved stewardship agreement (e.g., mowing the berms once a

39 | P a g e


year, water control structure inspection and maintenance). Prior to execution of the stewardship

agreement, it will be provided to the USACE for review.

As part of long-term stewardship, water control structures, and berms will be maintained to

achieve water levels conducive to wetland hydrology. Prior to closure of the ILF site, and

entrance into long-term management, DU staff will continue to be responsible for adaptive

management and site maintenance. A long-term management strategy will be implemented after

the site has successfully completed its initial monitoring and review period. The strategy will

advocate a sustainable approach, minimizing active management activities, opting for natural

wetland processes to prevail. The adaptive management plan in Section 11 describes the

approach to ensure the site is sustainable.

11. Adaptive Management Plan, Including Addressing Invasive Species Control

Every wetland site has its own unique characteristics that should be addressed with an adaptive

management plan for long-term viability. Proper monitoring of the site will ensure adaptive

management activities are implemented as new information is gathered. Regular maintenance

activities such as mowing of berms, inspection of water control structures, invasive species

control and trash removal during routine monitoring trips will reduce the need for larger

intervention. DU will regularly review the status of this site to confirm that all necessary

activities have been implemented and that adequate hydrology and hydrophytic plant cover has

become established. Eddy Road provides access and parking for wetland observation or

maintenance. Unforeseen environmental conditions can also affect a wetland’s viability.

Flooding, prolonged drought, invasive species, site degradation (i.e., trash dumping, illegal

logging, ATV travel), erosion and vandalism are examples of some adverse conditions that with

early detection and proper management can be overcome.

Rehabilitation efforts will focus on enhancing wetland function. Techniques will include but are

not limited to, invasive plant species control, and planting native vegetation to improve the VIBI-

FQ score. Invasive species control methods include, but are not limited to, water level

management, spraying, hand pulling, and mechanical removal. When monitoring indicates that a

performance standard is not being met, the causes for failure will be evaluated to determine if

simply more time is needed or whether a remedial action may be required. Remedial actions may

40 | P a g e


include, but are not limited to: seeding or planting, non-native plant control, and erosion control

measures.

Provided this site has water control structures, DU staff will have the ability to adaptively

regulate water-levels to maximize vegetation diversity, and plant growth. We anticipate raising

water-levels annually in the early fall and dropping water levels in late spring. This hydrological

regime will create hydric conditions in the soil while allowing annual hydrophytes to germinate,

thereby providing an abundant food source that will be readily available to migrating waterfowl

and other wildlife. This management strategy has also been shown to provide greater plant

diversity than flooding at other times (Keddy 2010). The water control structures may also be

used to manipulate water levels, as needed, to control invasive species. DU staff will be regularly

monitoring water levels throughout the year. Remedial actions requiring earth movement or

changes in hydrology will not be implemented without written approval from the USACE.

If USACE in consultation with the IRT, determines that the site (or any portion thereof) is failing

to make satisfactory progress towards meeting any performance goal within the monitoring

period, DU must develop a remedial action plan to correct the deficiencies, or alternately a

reduction of credits may be levied against underperforming areas. In the prior case, the remedial

action plan shall be submitted to the IRT within three months of receipt of written notification of

deficiencies from USACE. Remedial action plans may include suggested modifications to

improve hydrology (e.g., regrading, addition of water control structures, ditch plugs,

groundwater dams), and or additional plantings. The IRT shall in a timely manner provide

written acceptance of the submitted plan or a modified plan acceptable to the IRT. The IRT-

accepted remedial action plan (as submitted by DU or as modified by the IRT) will then be

returned to DU and DU shall implement the measures specified in the remedial action plan

within six months or along a timeline as otherwise provided in the remedial action plan. Once the

monitoring period is over, the completed wetland will be managed by the long-term steward and

managed only as needed and specified in the long-term stewardship plan.

If USACE in consultation with the IRT, determines that the DU is in material default of any

provision of the Instrument or an approved mitigation plan, the IRT, acting through the USACE,

shall provide notice of the specific circumstances or actions which constitute a default(s) in

41 | P a g e


writing to the DU and providing a reasonable period of time to cure the default. If the DU does

not remedy the default or provide a remedial action plan acceptable to the IRT in a timely

manner, the USACE may take appropriate action. Such actions may include, but are not limited

to, suspending credit sales, decreasing available credits, directing funds to alternate locations,

taking enforcement actions, calling upon financial assurances, or terminating the Instrument. The

default and closure provisions are further described in Appendix F.

12. Financial Assurances

Financial assurances for the construction and performance of the ILF Site will be provided by

DU in the form of a “performance bond or letter of credit.” Financial assurances will be

established following mitigation plan approval and prior to release of credits from the site. The

financial assurances will extend sufficient financial resources to completely cover the full cost of

construction and replanting of the project if necessary to achieve success. We estimate

construction, planting and associated staffing costs at $269,395. Financial assurances shall be

phased out once the compensatory mitigation project has been determined by the district

engineer to be successful in accordance with its performance standards. The financial assurances

will not be called upon unless DU has exhausted the existing project budget, including all money

set aside for contingency and wetland maintenance.

42 | P a g e


References

Ducks Unlimited, Inc. 2005. International Conservation Plan. Memphis, TN.

Edinger, G.J., D.J. Evans, S. Gebauer, T.G. Howard, D.M. Hunt, and A.M. Olivero (editors).

2014. �� ;�9�<��0��= Second Edition. A revised and expanded

edition of Carol Reschke's Ecological Communities of New York State. New York Natural

Heritage Program, New York State Department of Environmental Conservation, Albany,

NY.

Environmental Laboratory, 1987. Corps of Engineers Wetland Delineation Manual (Technical

Report Y-87-1) U.S. Army Corps of Engineers, Waterways Experiment Station, Vicksburg,

MS.

Hunter, E.A., Raney, P.A., Gibbs, J.P., and Leopold, D.J. 2012. Improving wetland mitigation

site identification through community distribution modeling and a patch-based ranking

scheme. Wetlands 32:841–850

Keddy, P.A. 2010. Wetland Ecology Principles and Conservation, Second Edition. Cambridge

University Press, New York, New York.

New York State Department of Environmental Conservation (1999). Environmental

Conservation Law of New York, Section 11-0535 and 6 NYCRR Part 182.

Retrieved from: https://www.dec.ny.gov/animals/7494.html

New York State Department of Environmental Conservation. 2009. Waterbody

inventory/priority waterbodies list: Indian River, middle, and minor tribs (0906-0005).

Retrieved from https://www.dec.ny.gov/docs/water_pdf/wistlawottercr.pdf

New York State Department of Environmental Conservation. 2015. State wildlife action plan.

Retrieved from http://www.dec.ny.gov/docs/wildlife_pdf/swapfinaldraft2015.pdf

New York State Department of Environmental Conservation. 2019. Fishing and canoeing the

Indian River in Lewis, Jefferson and St. Lawrence Counties. Retrieved from

http://www.dec.ny.gov/outdoor/55733.html

Raney, P.A., Leopold, D.J. 2018. Fantastic wetlands and where to find them: Modeling rich fen

distribution in New York State with maxent. Wetlands. 38, 81-93.

Soil Survey Staff, Natural Resources Conservation Service, United States Department of Agriculture. Web Soil Survey. Available online at http://websoilsurvey.nrcs.usda.gov/. Accessed Feb 2014.

United States Fish and Wildlife Service. 1986. North American Waterfowl Management Plan.

Department of the Interior, Washington, D.C., USA.

43 | P a g e


United States Fish and Wildlife Service. 2012. North American Waterfowl Management Plan.

Department of the Interior, Washington, D.C., USA.

Van der Valk, A.G., 1981. Succession in wetlands: a Gleasonian Approach. Ecology, 62(3) 688-

696.

�

Appendix A. Wetland Delineation Report

Ducks Unlimited, Inc. (DU) staff investigated site conditions at the Eddy Road site ILF Site in

the summer of 2018. Onsite data collection and wetland boundary delineation of the +441.01-

acre property was performed between May 11 and July 18, 2018. The boundaries were

delineated following the protocols 1987 USACE Wetland Delineation Manual and Northeast

Region Regional Supplement Version 2.0. Prior to the delineation survey, the property was

walked to identify general topography, drainage patterns, major plant communities, and potential

areas of disturbance. LiDAR data, and on-site topographic survey were also used to help identify

drainage patterns and areas of hydrological accumulation. Evidence of ditching and tiling was

found within the hay fields. Disruption of these drainage systems will be a key component in the

restoration of the ILF Site.

Because it was not immediately evident at the time of the delineation which areas of this large

protected property were most suited for hydrologic restoration activities, the entire 441.01-acre

site was delineated. During the delineation, DU staff noted areas with impaired hydrological

functioning where wetlands could be reestablished. The largest wetland delineated at the portion

of the site reserved for ILF in this phase was a palustrine scrub-shrub wetland (42.70-acres)

wetlands. Delineated wetlands are shown on pages 12 - 15 of Appendix B. The following section

in this appendix includes representative photographs and descriptions that correspond to the

datasheets attached hereto. It was a somewhat, but not unusually dry period during the

delineation. DU consulted aerial imagery from several years, and also visited the site during

wetter than usual periods in the spring and fall of 2018. Therefore, we are confident that weather

conditions had no adverse effect on making wetland boundary determinations.

Wetland and Aquatic Resource Features at Eddy Rd

PSS Wetland (W-1 42.70 Acres, DPW1, DPW31) �� .��>6?8=�The largest wetland on the site is a scrub/shrub wetland dominated by white meadowsweet (��) and gray dogwood (�� ). Common herbaceous plants included sedges (��spp.), sensitive fern (, �� ), and giant bur-reed (�� ). There is a small portion of open water present that is listed as a separate wetland. Data points collected indicate surface water table or saturation present at both. Evidence of aquatic animal activity, especially beaver and muskrat, was found at many points in this wetland.

PEM Wetland (W-2 0.08 Acres, DPW2) �� (��>6?8=�This emergent wetland is dominated by soft rush (.� ��), fox sedge (�� ), and marsh marigold (��). This wetland is located immediately northwest of County Route 46. Wetland trees, specifically American elm (1�� ), were in the wetland, but they were less than five percent of the total wetland coverage. Soil was saturated at the surface, and there was microtopography consistent with wetland hydrology as well. Hummocks and hollows were present across most of this small wetland.

PSS Wetland (W-3 0.08 Acres, DPW3) �� (��>6?8=Wetland W-3 is a scrub/shrub wetland that consists of the shrub gray dogwood (�� ) and small trees such as American elm (1�� ). The herbaceous stratum is dominated by species such as tussock sedge (��), marsh marigold (��), and fox sedge (�� ).

PSS Wetland (W-4 0.22 Acres, DPW4) �� (��>6?8=Wetland W-4 is a PSS wetland dominated by gray dogwood (�� ) in the shrub stratum. Herbaceous plants such as sensitive fern (, �� ) and tussock sedge (��) dominate the herb stratum. Upon inspection of the soils, a shallow water table at a depth of six inches was discovered, as well as oxidized rhizospheres along the root channels of the plants.

PFO Wetland (W-5 1.71 Acres, DPW5) �� (��>6?8=This wetland is forested, with red maple (��) and eastern hemlock (�� ) dominating the canopy. The understory is dominated by giant burred (�� ), an obligate wetland species. Other common understory plants include wetland plants such as sensitive fern (, �� ), wood horsetail (�)��), and seedling red maple. In addition to hydrophytic vegetation, there was surface water present in the wetland, clearly indicating hydrology. The soil consisted of clay that exhibited a depleted matrix.

PFO Wetland (W-6 4.12 Acres, DPW6) �� .� ��>6?8=�Looking into a small canopy opening.Wetland W-6 is located immediately to the south of wetland W-5. It has a similar plant community, with red maple (��) and eastern hemlock (�� ) dominating, but American hornbeam (�� caroliniana) is an additional dominant tree species in this wetland. Tussock sedge (��) dominates the herbaceous stratum, but species such as blue flag (&��) and witchgrass (�� ) are also common. Surface water is present in this wetland as well, which has led to water stained leaves across much of the wetland. The clay soil also exhibits a depleted matrix.

PFO Wetland (W-7 0.85 Acres, DPW7) �� (��>6?8=This wetland is another forested wetland in the same section of woods as W-5 and W-6. The dominant trees species in this wetland are gray birch (��) and red maple (��). Black willow (�� ) is another common tree species in this wetland. Blue flag (&��) and sensitive fern (, �� ) are the dominant herbaceous plants in the understory. Other common understory plants are soft rush (.� ��), wood horsetail (�)��), lake sedge (��), and interrupted fern (,�� ). Surface water is present in places in this wetland and in the areas where it was not visible, water stained leaves were present.

PEM Wetland (W-8 0.24 Acres, DPW8) �� .� ��>6?8=This emergent wetland is in a small depression adjacent to Eddy Road. Herbaceous hydrophytes dominate the vegetation community. Several different sedges (��spp.) are found in the wetland, as well as soft rush (.� ��), broadleaf cattail (��), and Pennsylvania smartweed (�� ). Unvegetated spots are present in the wetland, but do not dominate. The soil is made up of heavy clay, and it was cracked throughout much of the wetland during data collection.

PEM Wetland (W-9 3.61 Acres, DPW9) �� .� ��>6?8=�This wetland consists of a depression and associated swale in a hay field that collects water, allowing a wetland to form. The vegetation is dominated by emergent plants such as narrowleaf cattail (�� ) and soft rush (.� ��). Other common plants found in the wetland include several sedge species (��spp.), yellow rocket (��), and softstem bulrush (�� ). Soil cracks were present during data collection, and the geomorphic position of this swale/depression indicate wetland hydrology. The soil also exhibited a depleted matrix indicative of hydric soils.

PEM Wetland (W-10 2.57 Acres, DPW10) �� .� ��>6?8=�This wetland is in a low swale that runs through a hay field north of Silver Street Road. The vegetation is dominated by slender spikerush (�� ). Other common plants in this wetland are sensitive fern (, �� ), sedges (��spp.), and curly dock (-��). Slender spikerush is a facultative wetland plant, as are broom sedge (��) and sensitive fern. Upon inspection of the soil, surface cracks were present, and oxidized rhizospheres were present as well. Depleted matrix in the soil also indicated the presence of soil formed in anoxic conditions.

PFO Wetland (W-11 0.55 Acres, DPW11) �� .� ��>6?8=�The forested wetland W-11 is a continuation of wetland W-10 that shifts from PEM to PFO. The tree community is dominated by red maple (��), and other common tree species in the wetland are swamp white oak (��) and slippery elm (1��). The understory is dominated by bladder sedge (�� ), with small swamp white oak seedlings and poison ivy (�� ) also being common in the wetland. The leaf litter on the forest floor exhibited water staining, which indicated hydrology. The soil inspection exhibited a depleted matrix, which is indicative of hydric soil.

PEM Wetland (W-12 0.26 Acres, DPW12) �� .� ��>6?8=�This emergent wetland runs along a low swale immediately west of Eddy Road. The swale runs through a hay field. The dominant plants in this wetland are reed canary grass (�� ) and narrowleaf cattail (�� ). There were many other emergent plant species present, such as soft rush (.� ��), fox sedge (�� ), and water plantain (��), among others. The surface of the soil in this wetland was cracked, and it exhibited sandy redox that indicates it was formed in hydric conditions. Oxidized rhizospheres were also present during the soil inspection, indicating the presence of wetland hydrology.

PEM Wetland (W-13 0.12 Acres, DPW13) �� .� ��>6?8=�A concave depression in the hay field north west of Eddy Road formed emergent wetland W-13. The dominant herbaceous plant species in this wetland consists of slender spikerush (�� ) and fox sedge (�� ). Several other species are present as well, including sensitive fern (, �� ) and curly dock (-��). Some plant species are indicative of the wetland’s presence in a hay field, such as red clover (�� ) and orchard grass (!��). The soil inspection uncovered oxidized rhizospheres and a depleted matrix.

PEM Wetland (W-14 0.15 Acres, DPW14) �� .� ��>6?8=�The rolling topography of the hay field formed another depression that pools water, which created wetland W-14. The wetland is dominated by soft rush (.� ��) and rice cut grass ('��"��). Fox sedge (�� ), curly dock (-��), and field horsetail (�)�� ) are present as well, among other species. Oxidized rhizospheres were present along living root channels, showing wetland hydrology, and the soil exhibited a depleted matrix.

PEM Wetland (W-15 1.29 Acres, DPW15) �� .� ��>6?8=�A long, shallow swale running from east to west across the hay field north west of Eddy Road concentrates water flow and lead to the formation of this wetland. Northern green rush (.� �� ), rough bent (��) dominate this wetland, while species such as fox sedge (�� ) and narrowleaf cattail (�� ) are also present. The presence of oxidized rhizospheres in the soil indicates wetland hydrology. The soil inspection showed a depleted matrix that indicates hydric nature of the soils.

PEM Wetland (W-16 2.96 Acres, DPW16) �� .� ��>6?8=�At the western corner of the hay field northwest of Eddy Road, there is a flat area that slows water flow and an emergent wetland is located there. The wetland has a diverse plant community that is dominated by rough bent (��) and fox sedge (�� ). There are also several other sedge species present, such as nodding sedge (�� ), bladder sedge (�� ), and broom sedge (��), among others. Additionally, plant species such as boneset (��), swamp milkweed (�� ), and green bulrush (�� ) are also present. The soil in this wetland is a mucky loamy clay with prominent oxidized rhizospheres along the living root channels.

PEM Wetland (W-17 0.77 Acres, DPW17) �� .� ��>6?8=�This wetland is characterized by emergent vegetation, with broom sedge (��&@:�fox sedge (�� ), and sensitive fern (, �� ) dominating the vegetation community. Boneset (��), devil’s beggartick (�� ), and broad leaf cattail (��) are also present in this wetland. The soil data point uncovered sandy soil underneath a mucky, loamy clay. In the top fifteen inches of soil, oxidized rhizospheres are present along the living root channels, indicating hydrology.

PEM Wetland (W-18 0.04 Acres, DPW18)�� .� ��>6?8=�This wetland is located in a small hayfield depression. The dominant vegetation consists of slender spikerush (�� ) and fox sedge (�� ). Other common plants in this wetland are sensitive fern (, �� ) and red clover (�� ). The presence of oxidized rhizospheres on living roots indicates the presence of wetland hydrology. The soil also exhibits the redox depression hydric soil indicator.

PEM Wetland (W-19 0.04 Acres, DPW19)�� .� ��>6?8=�This wetland is on the edge of the hay field in a slight concave depression. Slender spikerush (�� ) and fox sedge (�� ) dominate the vegetation, with soft rush (.� ��) also being present, among other species. The geomorphic position indicates wetland hydrology, especially in conjunction with the oxidized rhizospheres found in the soil test pit. The soil in this wetland has a depleted matrix, an indicator for hydric soils. The soil is also of a mucky, loamy clay texture.

PSS Wetland (W-20 0.02 Acres, DPW20)�� .��>6?8=�Another small depressional wetland, it is found just northeast of the large beaver pond east of Eddy Road. Smallshrubs grow in this wetland, dominated by black willow (�� ) and white meadowsweet (��). The herbaceous vegetation is dominated by seedlings of those species as well, with broom sedge (��) and wool grass (�� ) also present. Oxidized rhizospheres are present on the root channels in the soil. The soil also exhibited a depleted matrix, and it had a clay texture.

PEM Wetland (W-21 0.53 Acres, DPW21)�� .��>6?8=�This wetland is in a channelized swale that drains the hay field east of Eddy Road. The dominant vegetation consists of blunt spikerush (��) and fox sedge (�� ). Other common plants in this wetland are curly dock (-��) and soft rush (.� ��). The soil test pit showed a sandy soil layer over a denser clay layer at a depth of ten inches. The soil exhibited a depleted matrix, and the root linings showed oxidized rhizospheres. Purple vetch (*��) and red clover (�� ) are also found in parts of this wetland, which exhibits the proximity of this wetland to the hay field.

PEM Wetland (W-22 1.06 Acres, DPW22)�� .��>6?8=�Another swale runs across the hay field east of Eddy Road and forms this wetland. The swale drains water from across the field. This has helped species such as fox sedge (�� ) and slender spikerush (�� ) to dominate. Other dominant species in this wetland are curly dock (-��) and yellow rocket (��). Sensitive fern (, �� ) is also common in the wetland, as is orchard grass (!��). The presence of orchard grass is likely due to the proximity to the hay field. The soil exhibits oxidized rhizospheres, which indicate wetland hydrology, and a dark surface layer of soil indicates the hydric nature of the soil in this wetland.

PEM Wetland (W-23 3.83 Acres, DPW23) �� .� ��>6?8=�This wetland consists of a large swale that ties in to several depressions forming one large emergent wetland. The geomorphic position that results indicates hydrology, as does the presence of oxidized rhizospheres on the root linings. Blue vervain, (*�� ) and broom sedge (��) are both dominant plants. Additionally, fox sedge (�� ), shallow sedge (��), and blunt spikerush (��) dominate this wetland as well. In addition to the plants and hydrology indicating that this is a wetland, the soil is a wetland soil,exhibiting a depleted matrix.

PEM Wetland (W-24 0.24 Acres, DPW24) �� .��>6?8=�This emergent wetland occurs in a concave depression immediately to the east of wetland W-23. The dominant plant species include blunt spikerush (��) and soft rush (.� ��). Other common plants in this wetland are white meadowsweet (��), fox sedge (�� ), and green bulrush (�� ). The soil test pit uncovered oxidized rhizospheres that indicate wetland hydrology and a depleted matrix in the soil that is an indicator for hydric soils.

PSS Wetland (W-25 1.29 Acres, DPW25) �� .��>6?8=�This scrub/shrub wetland is in a scrubby swale that helps drain the hay field. The dominant shrubs in this wetland are black willow (�� ), and there are some trees, mainly green ash (#�� ). The understory is dominated by rattlesnake mannagrass ($�� ) and shallow sedge (��). Hop sedge (�� ) and green bulrush (�� ) are also found in this wetland. The root channels in the upper layer of the soil exhibit oxidized rhizospheres, showing wetland hydrology. The soil itself has a depleted matrix indicative of hydric soils.

PEM Wetland (W-26 0.93 Acres, DPW26) �� .��>6?8=This wetland drains to the north, where it eventually connects to wetland W-7, at which point the wetland transitions from an emergent wetland into a forested wetland. The dominant plants in this wetland consist of fox sedge (�� ), sensitive fern (, �� ), and poverty rush (.� �� ). Other plants that occur in this wetland are tall buttercup (-� � ��), black willow seedlings (�� ), and broom sedge (��). There is a strong hydrogen sulfide odor in the wetland soils, as well as oxidized rhizospheres along the living root channels. This indicates wetland hydrology is present, and that the soil in this wetland is hydric.

PEM Wetland (W-27 0.22 Acres, DPW27) �� .� ��>6?8=This wetland is a small depressional wetland at the northern edge of the property, located along the East side of Eddy Road. Poverty rush (.� �� ) and fox sedge (�� ) are the dominant plant species found in this wetland. A wide variety of other plant species are also found in the wetland, including devil’s beggartick (�� ), tall buttercup (�� ), and broom sedge (��), among others. Oxidized rhizospheres along living roots indicate wetland hydrology, and a depleted matrix in the soil indicates hydric soils are present.

PFO Wetland (W-28 12.48 Acres, DPW28) �� .��>6?8=�This wetland is a floodplain forest found in the floodplain of the Indian River. The dominant tree species that make up the canopy are black willow (�� ) and red maple (��). Other tree species found in the forest are American elm (1�� ), gray birch (��), and burr oak (��). The understory of the forest is very diverse, with jewel weed (&�� ) and sensitive fern (, �� )as the dominant species, but many other species are very common, including nodding sedge (�� ), Pennsylvania smartweed (�� ), and water plantain (��). This area is located at the toe of a slope that leads down into the floodplain of the Indian River, and surface soil cracks were present while data was collected. Additionally, oxidized rhizospheres were another hydrologic indicator. The soil exhibited a redox dark surface, a hydric soil indicator.

PEM Wetland (W-29 0.64 Acres, DPW29) �� .��>6?8=�This wetland is in a swale that is separated from wetland W-12 by Eddy Road. The wetland is dominated by the invasive species reed canary grass (�� ), with some fox sedge (�� ) in places. The oxidized rhizospheres on the living root channels indicate wetland hydrology, and the presence of a dark soil surface indicates the presence of hydric soil.

PSS Wetland (W-30 16.7 Acres, DPW30) �� .��>6?8=�Wetland W-30 is located south of Silver Street Road, along a drainage way that is a scrub/shrub wetland. The dominant shrubs are white meadowsweet (��) and black willow (�� ). The herbaceous vegetation is characterized by nodding sedge (�� ), small white meadowsweet, and purple vetch (*��). Wetter areas of this wetland have slightly more emergent, including some giant burreed (�� )and others in places. The oxidized rhizospheres indicate wetland hydrology, and the depleted matrix of the soil indicates that the soil is hydric.

Ponded Wetland (W-31 2.14 Acres)�� (��>6?8�This wetland is the open water pond W-31. Beavers impounded enough water that most vegetation was drowned out in this open area. The main vegetation remaining is submerged aquatic vegetation.

Table 1 – Summary of Aquatic Features and Sampling Locations for Eddy Rd

Wetland FeaturesWetland

Name Type Acre Datapoints Latitude Longitude Photo No.

W-1 PSS 42.70 DPW1, DPW31 44.16306 -75.80319 1

W-2 PEM 0.08 DPW2 44.16605 -75.78838 2

W-3 PSS 0.08 DPW3 44.16654 -75.78921 3

W-4 PSS 0.22 DPW4 44.16759 -75.79058 4

W-5 PFO 1.71 DPW5 44.16955 -75.79704 5

W-6 PFO 4.12 DPW6 44.16893 -75.79542 6

W-7 PFO 0.85 DPW7 44.17022 -75.79854 7

W-8 PEM 0.24 DPW8 44.16142 -75.80874 8

W-9 PEM 3.61 DPW9 44.15659 -75.80806 9

W-10 PEM 2.57 DPW10 44.15813 -75.80756 10

W-11 PFO 0.55 DPW11 44.15851 -75.80549 11

W-12 PEM 0.26 DPW12 44.16831 -75.80441 12

W-13 PEM 0.12 DPW13 44.17181 -75.8046 13

W-14 PEM 0.15 DPW14 44.17181 -75.80311 14

W-15 PEM 1.29 DPW15 44.17062 -75.8055 15

W-16 PEM 2.96 DPW16 44.17133 -75.80871 16

W-17 PEM 0.77 DPW17 44.17400 -75.80591 17

W-18 PEM 0.04 DPW18 44.17324 -75.80698 18

W-19 PEM 0.04 DPW19 44.17231 -75.80111 19

W-20 PSS 0.02 DPW20 44.1657 -75.80109 20

W-21 PEM 0.53 DPW21 44.1653 -75.80098 21

W-22 PEM 1.06 DPW22 44.16661 -75.80328 22

W-23 PEM 3.83 DPW23 44.16755 -75.79963 23

W-24 PEM 0.24 DPW24 44.16634 -75.80039 24

W-25 PSS 1.29 DPW25 44.16764 -75.80128 25

W-26 PEM 0.93 DPW26 44.16911 -75.79977 26

W-27 PEM 0.22 DPW27 44.17076 -75.79968 27

W-28 PFO 12.48 DPW28 44.16519 -75.78605 28

W-29 PEM 0.64 DPW29 44.16894 -75.80243 29

W-30 PSS 16.70 DPW30 44.15035 -75.80941 30

W-31 Pond 2.14 44.16306 -75.80542 31

Datapoints dpu1, dpu2, dpu3, dpu4, dpu5, dpu6, dpu7, dpu8, dpu9, dpu10, dpu11, dpu12, dpu13, dpu14, dpu15, dpu16, dpu17, dpu18, dpu19, dpu20, dpu21 were placed in upland locations to fully describe conditions within the site.

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

""

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12223

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 841

0,�9��' �( �� 0� 2

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

.�9��5��'&�� '

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>1?2@ �� AB1438111C 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.�� C

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� 2

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� @ � �

-��,�=��!�0�� @ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Spiraea alba C8 (�� 5 +

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

?18

�� 8 8

5 +�� 8

K-��+��

?18

��'�6��K�H �K ?488

2?1 � �

� �H��

�,��&�=&�

5 + �� 2?1

8

C8 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Spiraea alba ?8 (�� 5 + @�A��'�6��M@482

Onoclea sensibilis 21 (�� 5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

'��*��9��.��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4@1 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� 2

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

2@A?? B41(*�1>

��&+��&�&

��? -�6�,�� *��9�

� ��'&>8 B41(*�;? ;8 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A2@ B41(*�@? C1 B41(*�1> 1 *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

""

""

""

" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12223

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 2

0,�9��' �( �� 0� ?

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>2;8 �� AB14B33;28 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Ulmus americana 1 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Prunus serotina 2 �� 5 +�

.��-��'�1��0��+

5 +�� 28 @8

C8 C8

-��7�+��!�

28

�� 8 8

5 +�� 2

1 K-��+��

2@;

��'�6��K�H �K 24?>

28> � �

� �H��

�,��&�=&�

5 + �� 1

;

2 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Juncus effusus B8 (�� H� @�A��'�6��M@482

Carex vulpinoidea 21 �� H�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Euthamia graminifolia 28 �� 5 + '��*��9��.��

Caltha palustris 1 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

BA?2 B41(*�;2

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&;1 1(*�;> 11 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AB B41(*�;2 C3 1(*�;@ ? *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

""

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;23

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 41

0,�9��' �( �� 0� @

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>>>? �� AB14B3C2;3 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.�� C

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� @

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Ulmus americana 1 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +� @ � �

-��,�=��!�0�� @ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Cornus racemosa 1 (�� 5 +

.��-��'�1��0��+

5 +�� 1 21

C8 C8

-��7�+��!�

28

�� 8 8

5 +�� 8

1 K-��+��

221

��'�6��K�H �K 2421

288 � �

� �H��

�,��&�=&�

5 + �� 1

8

1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex stricta 38 (�� H� @�A��'�6��M@482


��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex vulpinoidea 1 �� H� '��*��9��.��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C8 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� @

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

��&+��&�&

��? -�6�,�� *��9�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?8 B41(*�;? ;1 1(*�1; 11 *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

"

""

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;

��'!��.��'�$��$��4�� 5�� !��$��6$�� +�� 7� ?

0,�9��' �( �� 0� ;

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>B1?C �� AB14BC81;C 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.�� >

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ;

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ; � �

-��,�=��!�0�� ; �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Cornus racemosa ?1 (�� 5 +

.��-��'�1��0��+

5 +�� @1 281

18 18

-��7�+��!�

>8

�� 8 8

5 +�� 28

K-��+��

?11

��'�6��K�H �K ?48;

2?1 � �

� �H��

�,��&�=&�

5 + �� @8

;8

?1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Onoclea sensibilis @8 (�� 5 + @�A��'�6��M@482

Carex stricta ?8 (�� H�

��=��%&'��.&��#��2��)6��

Poa 28 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Caltha palustris @8 (�� H� '��*��9��.��

Equisetum arvense 28 �� 5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ;

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?? B41(*�@2

�,�9&��+��&

��? -�6�,�� *��9�

� �,�9&��+��&38 28(*�@> ?8 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�@? C> B41(*�@; ; *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

"

""

�� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

8 ��-�=��< (�� 0��.��.�� 8

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;O28P2?4@?>Q�� B1O;BP;@4C13Q� 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;23

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 41

0,�9��' �( �� 0� 1

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Acer rubrum 1 �� 5 +

5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Equisetum sylvaticum 28 �� 5 + '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Sparganium eurycarpum B1 (�� H� @�A��'�6��M@482

Onoclea sensibilis 28 ��

C8 K-��+��

;18

��'�6��K�H �K ?4@B

2C8 � �

� �H��

�,��&�=&�

5 + �� ?8

?88

�� 8 8

5 +�� 18

.��-��'�1��0��+

5 +�� ;1 2@1

B1 B1

-��7�+��!�

;8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� >>4B7

?1 (�� 5 + ? � �

Betula populifolia 21 �� 5 + -��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 1

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Tsuga canadensis 18 (�� 5 +� �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?8 28(*�12 31 B41(*�1> 21 *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

��&+��&�&

��? -�6�,�� *��9�

��& 0� 1

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

" ""

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

8 ��-�=��< (�� 0��.��.�� 8

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>CBC? �� AB14BC12?? 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >B23

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 41

0,�9��' �( �� 0� >

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Onoclea sensibilis 1 �� 5 +

5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Equisetum sylvaticum 1 �� 5 + '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex stricta 38 (�� H� @�A��'�6��M@482

Panicum capillare 28 ��

288 K-��+��

;18

��'�6��K�H �K ?4?1

?88 � �

� �H��

�,��&�=&�

5 + �� 28

38

�� 8 8

5 +�� ?8

.��-��'�1��0��+

5 +�� C8 ?B8

38 38

-��7�+��!�

?8

; �H�

��!�0��-.�� H�$�5 + $��5 +� B1487

18 (�� 5 + @ � �

Tsuga canadensis ?8 (�� 5 +� -��,�=��!�0��

/$�$%�%�� J��!��!��4 0� >

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Carpinus caroliniana @8 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?2 28(*�;2 >8 28(*�;> ;8 *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

��&+��&�&

��? -�6�,�� *��9�

��& 0� >

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

" ""

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >B23

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 8

0,�9��' �( �� 0� B

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

+��9��&�!��'$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8;B? �� KAB14BC3>B; 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

8 ��-�=��< (�� 0��.��.�� 8

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� B

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Betula populifolia ;1 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum @8 (�� 5 + > � �

Salix nigra 28 �� H� -��,�=��!�0�� > �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Salix nigra 28 (�� H�

.��-��'�1��0��+

1 (�� 5 + 5 +�� 31 ?11

B8 B8

-��7�+��!�

C8

Betula populifolia

�� 8 8

5 +�� 8

31 K-��+��

;21

��'�6��K�H �K ?483

?88 � �

� �H��

�,��&�=&�

5 + �� ;1

8

21 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Onoclea sensibilis ;8 (�� 5 + @�A��'�6��M@482

Iris versicolor @1 (�� H�

��=��%&'��.&��#��2��)6��

Equisetum sylvaticum 1 �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus effusus 28 �� H� '��*��9��.��

Osmunda claytoniana 1 �� 5 +

Carex lacustris 1 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

<

"

��& 0� B

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��

�

��.�� +�� 7 +�� 7 -&��2

28A2B B41(*�;@

��'&

��? -�6�,�� *��9�

��'&

��&+��&�&2BA?@ 28(*�12 >8 B41(*�1; ;8 *�

288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�@2 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >B23

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 8

0,�9��' �( �� 0� 3

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

+��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>2@@; �� AB143833;1 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� 3

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 8 8

>1 >1

-��7�+��!�

28

�� 8 8

5 +�� 8

K-��+��

B1

��'�6��K�H �K 248B

B8 � �

� �H��

�,��&�=&�

5 + �� 1

8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex comosa @8 (�� H� @�A��'�6��M@482

Juncus effusus ?8 (�� H�

��=��%&'��.&��#��2��)6��

Persicaria pensylvanica 1 �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex lurida 28 �� H� '��*��9��.��

Typha latifolia 1 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4B8 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� 3

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?2 28(*�;?

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&C1 28(*�;> 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�@? C3 B41(*�;; ? *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 841

0,�9��' �( �� 0� C

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

)��'��!��'&��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;421>8>1 �� AB14383C1@ 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� C

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 1 21

BB BB

-��7�+��!�

18

�� 8 8

5 +�� 8

K-��+��

2;?

��'�6��K�H �K 24@@

28B � �

� �H��

�,��&�=&�

5 + �� ?1

8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Juncus effusus ?8 (�� H� @�A��'�6��M@482

Typha angustifolia ;8 (�� H�

��=��%&'��.&��#��2��)6��

Carex vulpinoidea ? �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Barbarea vulgaris 1 �� 5 + '��*��9��.��

Carex scoparia 1 �� 5 +

Schoenoplectus tabernaemontani 1 �� H�

Eleocharis tenuis 21 �� 5 +

5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

Carex lurida 28 �� H� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Persicaria pensylvanica 1 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��428B K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� C

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

BA?; 28(*�@?

��&+��&�&

��? -�6�,�� *��9�

� �,�9&��+��&C1 28(*�@> 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AB 28(*�;2 C1 B41(*�?41@ 1 *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 841

0,�9��' �( �� 0� 28

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

.�9��!��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;4213>@@ �� AB14381>23 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� 28

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 2 � �

-��,�=��!�0�� 2 �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 1 21

21 21

-��7�+��!�

218

�� 8 8

5 +�� 1

K-��+��

?88

��'�6��K�H �K ?488

288 � �

� �H��

�,��&�=&�

5 + �� B1

?8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Eleocharis tenuis >8 (�� 5 + @�A��'�6��M@482


��=��%&'��.&��#��2��)6��

Vicia sativa 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex vulpinoidea 28 �� H� '��*��9��.��

Galium tinctorium 1 �� H�

Eupatorium perfoliatum 1 �� 5 +

Rumex crispus 1 �� 5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� 28

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

>A?2 28(*�;?

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&C1 28(*�;> 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A> 28(*�@? C1 28(*�@> 1 *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;4213;12 �� AB14381@@@ 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 2

0,�9��' �( �� 0� 22

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C1 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Toxicodendron radicans 1 �� 5 +

5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Acer rubrum 1 �� 5 + '��*��9��.��

@8 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex intumescens 38 (�� 5 + @�A��'�6��M@482

Quercus bicolor 1 ��

281 K-��+��

>?1

��'�6��K�H �K ?4B?

?@8 � �

� �H��

�,��&�=&�

5 + �� 281

38

Prunus serotina

�� 28 18

5 +�� ?8

��

.��-��'�1��0��+

?8 (�� 5 +� 5 +�� C1 ?31

8 8

-��7�+��!�

?28

5 + ; �H�

��!�0��-.�� H�$�5 + $��5 +� 18487

Crataegus punctata 28 (��

28 �� 5 + ? � �

Quercus bicolor 28 �� 5 + -��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 22

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Acer rubrum B1 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +�Carya laciniosa

Ulmus rubra 28 ��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

""

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC 28(*�?2 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

2CA?? B41(*�;? B8 B41(*�;> @8 *�

288

��&+��&�&

��? -�6�,�� *��9�

��'&

��'&

��& 0� 22

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��

�

��.�� +�� 7 +�� 7 -&��2

CA2C 1(�>2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��'��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>3;?; �� AB1438;288 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?823

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� ?

0,�9��' �( �� 0� 2?

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

Ranunculus acris 2 �� 5 + )��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

Schoenoplectus tabernaemontani ; �� H� ��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4Leersia oryzoides 1 �� H�

� �� /��+

Rumex crispus @ �� 5 + %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Alisma subcordatum 2 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Equisetum arvense ? �� 5 +


�H�

�H�

��=��%&'��.&��#��2��)6��

Vicia sativa ? �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus effusus 28 �� H� '��*��9��.��

Trifolium pratense ? �� 5 +�

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Phalaris arundinacea 18 (�� 5 + @�A��'�6��M@482

Typha angustifolia 21 (��

K-��+��

2B;

��'�6��K�H �K 24B;

288 � �

� �H��

�,��&�=&�

5 + �� 18

2>

�� 8 8

5 +�� ;

.��-��'�1��0��+

5 +�� > 23

;8 ;8

-��7�+��!�

288

? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

? � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2?

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 28(*�@? C3 28(*�;; ? *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

2;A?2 28(*�@? 18 28(*�;; 18 *�

B1 28(*�;; ?1 *�

�,�9&��+��&

��? -�6�,�� *��9�

� ��'&

��&+��&�&

��& 0� 2?

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��

�

��.�� +�� 7 +�� 7 -&��2

3A2; 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B2B �� AB1438;1 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?823

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 2@

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4221 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

Dactylis glomerata 21 �� 5 +� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Trifolium pratense ? �� 5 +�

Rumex crispus 1 �� 5 +

�H�

��=��%&'��.&��#��2��)6��

Fragaria vesca 1 �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Onoclea sensibilis 1 �� 5 + '��*��9��.��

Plantago major @ �� 5 +�

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Eleocharis tenuis 18 (�� 5 + @�A��'�6��M@482

Carex vulpinoidea @8 (��

K-��+��

?>8

��'�6��K�H �K ?4?>

221 � �

� �H��

�,��&�=&�

5 + �� 11

38

�� 1 ?1

5 +�� ?8

.��-��'�1��0��+

5 +�� 1 21

@8 @8

-��7�+��!�

228

? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

? � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2@

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�?? C3 28(*�@@ ? *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C1 28(*�;; 1 *�

��&+��&�&

��? -�6�,�� *��9�

� �,�9&��+��&

��& 0� 2@

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?2 28(*�;?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B2C �� AB1438@@ 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?823

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 2;

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��42?@ K-��+��

Rumex crispus 1 �� 5 + ��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4Eleocharis obtusa 21 �� H�

� �� /��+

Dactylis glomerata 1 �� 5 +� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Vicia sativa ? ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Bidens frondosa 2 �� 5 +

Phleum pratense 28 �� 5 +�

5 +�

�H�

��=��%&'��.&��#��2��)6��

Carex vulpinoidea 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex scoparia 28 �� 5 + '��*��9��.��

Equisetum arvense 1 �� 5 +

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Leersia oryzoides ;8 (�� H� @�A��'�6��M@482

Juncus effusus ?1 (��

K-��+��

?81

��'�6��K�H �K 24>B

2?@ � �

� �H��

�,��&�=&�

5 + �� 22

>3

�� 8 8

5 +�� 2B

.��-��'�1��0��+

5 +�� 28 @8

31 31

-��7�+��!�

??

? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

? � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2;

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 28(*�;? C1 28(*�@> 1 *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C3 28(*�@; ? *�

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0� 2;

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

3A?; 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8C �� AB1438@C 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 21

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C8 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Typha angustifolia 1 �� H�

5 +

��=��%&'��.&��#��2��)6��

Rumex crispus 28 �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex vulpinoidea ?8 (�� H� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Juncus alpinoarticulatus ?1 (�� H� @�A��'�6��M@482

Agrostis scabra @8 (��

K-��+��

2B8

��'�6��K�H �K 243C

C8 � �

� �H��

�,��&�=&�

5 + �� 8

8

�� 8 8

5 +�� 8

.��-��'�1��0��+

5 +�� ;8 2?8

18 18

-��7�+��!�

8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

@ � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 21

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�;? C@ 28(*�@; B *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

CB 28(*�@> @ *�

��'&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0� 21

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?; 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��,�9&��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8? �� AB1438C? 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 5�� !��$��6$�� +�� 7� 841

0,�9��' �( �� 0� 2>

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

Asclepias incarnata 1 �� H� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Carex scoparia 1 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4


Carex lurida 1 �� H�

5 +

�H�

��=��%&'��.&��#��2��)6��

Carex intumescens ? �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex vulpinoidea ?8 (�� H� '��*��9��.��

Carex gynandra @ �� H�

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Agrostis scabra ;1 (�� 5 + @�A��'�6��M@482

Scirpus atrovirens 1 ��

K-��+��

?8B

��'�6��K�H �K ?48B

288 � �

� �H��

�,��&�=&�

5 + �� 2B

8

�� 8 8

5 +�� 8

.��-��'�1��0��+

5 +�� ;1 2@1

@3 @3

-��7�+��!�

@;

? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

? � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2>

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A> 28(*�@2 C1 28(*�@> 1 *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C3 28(*�@> ? *�

�,�9&��+��&

��? -�6�,�� *��9�

� �,�9&��+��&

��& 0� 2>

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

>A?; 28(*�@2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��!��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B@3 �� AB14381; 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 2B

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4


5 +

��=��%&'��.&��#��2��)6��

Onoclea sensibilis ?8 (�� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Bidens frondosa 28 �� 5 + '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex vulpinoidea @1 (�� H� @�A��'�6��M@482

Carex scoparia @8 (��

K-��+��

2>1

��'�6��K�H �K 24>1

288 � �

� �H��

�,��&�=&�

5 + �� >1

8

�� 8 8

5 +�� 8

.��-��'�1��0��+

5 +�� 8 8

@1 @1

-��7�+��!�

2@8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

@ � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2B

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A21 28(*�?? C1 28(*�@; 1 *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

288

�,�9&��+��&

��? -�6�,�� *��9�

��'&

��& 0� 2B

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

21A?; B41(*�1;

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 23

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

.�9��!��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B@? �� AB1438B8 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� 23

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 8 8

?8 ?8

-��7�+��!�

2@8

�� B @1

5 +�� 1

K-��+��

?81

��'�6��K�H �K ?422

CB � �

� �H��

�,��&�=&�

5 + �� >1

?8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Eleocharis tenuis >8 (�� 5 + @�A��'�6��M@482

Carex vulpinoidea ?8 (�� H�

��=��%&'��.&��#��2��)6��

Fragaria vesca 1 �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Onoclea sensibilis 1 �� 5 + '��*��9��.��

Asclepias syriaca ? ��

Trifolium pratense 1 �� 5 +�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4CB K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� 23

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A@C B41(*�;;

�,�9&��+��&

��? -�6�,�� *��9�

� ��'&C1 B41(*�;> 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�?? C8 28(*�@; 28 *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B?@ �� AB14382? 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� 2C

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Phleum pratense 28 �� 5 +�

�H�

��=��%&'��.&��#��2��)6��

Dactylis glomerata 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus effusus 28 �� H� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Eleocharis tenuis 18 (�� 5 + @�A��'�6��M@482

Carex vulpinoidea ?1 (��

K-��+��

2C1

��'�6��K�H �K 24C1

288 � �

� �H��

�,��&�=&�

5 + �� 18

>8

�� 8 8

5 +�� 21

.��-��'�1��0��+

5 +�� 8 8

@1 @1

-��7�+��!�

288

? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

? � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� 2C

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC 28(*�@? CB 28(*�@> @ *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C@ 28(*�@> B *�

�,�9&��+��&

��? -�6�,�� *��9�

� �,�9&��+��&

��& 0� 2C

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

CA?8 28(*�;?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� ?

0,�9��' �( �� 0� ?8

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>1B �� AB143822 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?8

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� @ � �

-��,�=��!�0�� @ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Salix nigra @1 (�� H�

.��-��'�1��0��+

5 +�� 8 8

>1 >1

-��7�+��!�

2;8

�� 8 8

5 +�� 8

K-��+��

?81

��'�6��K�H �K 241?

2@1 � �

� �H��

�,��&�=&�

5 + �� B8

8

@1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Spiraea alba >8 (�� 5 + @�A��'�6��M@482

Salix nigra ?1 (�� H�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Carex scoparia 28 �� 5 + '��*��9��.��

Scirpus cyperinus 1 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?8

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

22A?? 28(*�@?

��&+��&�&

��? -�6�,�� *��9�

� �,�9&��+��&C3 28(*�@> ? *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A22 28(*�;? CB 28(*�@> @ *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� !��$��6$�� +�� 7� ?

0,�9��' �( �� 0� ?2

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>1C �� AB14388@ 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?2

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 21 ;1

B1 B1

-��7�+��!�

8

�� 8 8

5 +�� 28

K-��+��

2>8

��'�6��K�H �K 24>8

288 � �

� �H��

�,��&�=&�

5 + �� 8

;8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex vulpinoidea ;8 (�� H� @�A��'�6��M@482

Eleocharis obtusa ?8 (�� H�

��=��%&'��.&��#��2��)6��

Vicia sativa 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Rumex crispus 21 �� 5 + '��*��9��.��


Juncus effusus 21 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?2

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?@ 28(*�;?

��'&

��? -�6�,�� *��9�

� �,�9&��+��&C8 28(*�@> 28 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�?? C; 28(*�@; > *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� !��$��6$�� +�� 7� 241

0,�9��' �( �� 0� ??

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

*.��=��9��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>3 �� AB1438@8 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ??

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ; � �

-��,�=��!�0�� ; �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� @8 C8

@8 @8

-��7�+��!�

;8

�� 8 8

5 +�� 1

K-��+��

238

��'�6��K�H �K ?42?

31 � �

� �H��

�,��&�=&�

5 + �� ?8

?8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex vulpinoidea @8 (�� H� @�A��'�6��M@482

Eleocharis tenuis 21 (�� 5 +

��=��%&'��.&��#��2��)6��

Dactylis glomerata 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Rumex crispus 21 (�� 5 + '��*��9��.��

Onoclea sensibilis 1 �� 5 +

Barbarea vulgaris 21 (�� 5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��431 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ??

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

CA?8 28(*�??

��&+��&�&

��? -�6�,�� *��9�

� ��'&CB 28(*�@> @ *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC 28(*�?? B8 28(*�@> @8 *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� ?@

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>B8 �� AB143883 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?@

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 1 � �

-��,�=��!�0�� 1 �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 1 21

11 11

-��7�+��!�

38

�� 8 8

5 +�� 8

K-��+��

218

��'�6��K�H �K 2418

288 � �

� �H��

�,��&�=&�

5 + �� ;8

8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex vulpinoidea 21 (�� H� @�A��'�6��M@482

Carex scoparia 21 (�� 5 +

��=��%&'��.&��#��2��)6��

Agrostis scabra 1 �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Verbena hastata 21 (�� 5 + '��*��9��.��

Eleocharis obtusa 21 (�� H�


Carex lurida 21 (�� H�

5 +

Asclepias incarnata ? �� H� ��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4Galium tinctorium @ �� H�

� �� /��+

Juncus effusus 1 �� H� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Onoclea sensibilis 1 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?@

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

3A?8 28(*�;?

��&+��&�&

��? -�6�,�� *��9�

� ��'&38 28(*�@> ?8 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 28(*�?? C3 28(*�@> ? *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� ?;

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>; �� AB14388; 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?;

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 8 8

31 31

-��7�+��!�

?8

�� 8 8

5 +�� 8

K-��+��

281

��'�6��K�H �K 2422

C1 � �

� �H��

�,��&�=&�

5 + �� 28

8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Eleocharis obtusa ;8 (�� H� @�A��'�6��M@482

Scirpus atrovirens 21 �� H�

��=��%&'��.&��#��2��)6��

Carex scoparia 1 �� 5 + 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus effusus ?8 (�� H� '��*��9��.��

Spiraea alba 1 �� 5 +


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C1 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?;

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

��&+��&�&

��? -�6�,�� *��9�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?8 28(*�;2 CB 28(*�@; @ *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 41

0,�9��' �( �� 0� ?1

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>B> �� AB143821 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?1

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Fraxinus pennsylvanica 28 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum 1 (�� 5 + 1 � �

-��,�=��!�0�� 1 �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Salix nigra @1 (�� H�

.��-��'�1��0��+

5 +�� 28 @8

2@8 2@8

-��7�+��!�

?8

�� 8 8

5 +�� 8

21 K-��+��

238

��'�6��K�H �K 24?8

218 � �

� �H��

�,��&�=&�

5 + �� 28

8

@1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex lurida @1 (�� H� @�A��'�6��M@482

Glyceria canadensis ;1 (�� H�

��=��%&'��.&��#��2��)6��

Carex lupulina 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Scirpus atrovirens 28 �� H� '��*��9��.��

Agrostis scabra 1 �� 5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?1

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?1 B41(*�;?

��'&

��? -�6�,�� *��9�

��'&288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 B41(*�;? C@ B41(*�@; B *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 241

0,�9��' �( �� 0� ?>

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>3C �� AB14388? 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?>

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� @ � �

-��,�=��!�0�� @ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� ?1 B1

@8 @8

-��7�+��!�

B8

�� 8 8

5 +�� 1

K-��+��

2C1

��'�6��K�H �K ?481

C1 � �

� �H��

�,��&�=&�

5 + �� @1

?8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex vulpinoidea ?1 (�� H� @�A��'�6��M@482

Onoclea sensibilis ?8 (�� 5 +

��=��%&'��.&��#��2��)6��

Salix nigra 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus tenuis ?8 (�� 5 + '��*��9��.��

Ranunculus acris 1 �� 5 +

Trifolium pratense @ �� 5 +�


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

Plantago major ? �� 5 +� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C1 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?>

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

3A?8 B41(*�;>

��'&

��? -�6�,�� *��9�

��'&288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 28(*�?? CB 28(*�@> @ *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 2

0,�9��' �( �� 0� ?B

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

+��9��&�5��'$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8B �� AB14BCC> 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?B

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� ?1 B1

18 18

-��7�+��!�

@8

�� 8 8

5 +�� 28

K-��+��

2C1

��'�6��K�H �K 24C1

288 � �

� �H��

�,��&�=&�

5 + �� 21

;8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Juncus tenuis 21 (�� 5 + @�A��'�6��M@482

Carex vulpinoidea ;8 (�� H�

��=��%&'��.&��#��2��)6��

Salix nigra 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Galium tinctorium 1 �� H� '��*��9��.��

Bidens frondosa 28 �� 5 +


Taraxacum officinale 1 �� 5 +�

5 +

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

Ranunculus acris 28 �� 5 + %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Carex scoparia 1 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?B

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

3A?2 28(*�@?

��'&

��? -�6�,�� *��9�

� ��&+��&�&CB 28(*�@> @ *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 B41(*�;? CB B41(*�@; @ *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

5�,��F,��A�'�!�,��+��6$�!��F,��&�!��'�' ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>? �� AB14B3B8 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� 5��'�� !��$��6$�� 7� 2

0,�9��' �( �� 0� ?3

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

Scirpus atrovirens ? �� H� ��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4Galium tinctorium @ �� H�

� �� /��+

Juncus effusus ? �� H� %��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4Caltha palustris 28 ��

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Alisma subcordatum @ �� H�

Solidago rugosa 1 �� 5 +

�H�

5 +

��=��%&'��.&��#��2��)6��

Carex gynandra 21 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Boehmeria cylindrica ? �� H� '��*��9��.��

Persicaria pensylvanica @ �� 5 +

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Onoclea sensibilis ?1 (�� 5 + @�A��'�6��M@482

Impatiens capensis @8 (��

11 K-��+��

?C@

��'�6��K�H �K 243C

211 � �

� �H��

�,��&�=&�

5 + �� >@

?8

�� 8 8

5 +�� 1

.��-��'�1��0��+

5 +�� @8 C8

1B 1B

-��7�+��!�

2?>

�H� ; �H�

Betula populifolia 1 �� 5 + ��!�0��-.�� H�$�5 + $��5 +� 288487

?8 (�� 5 + ; � �

Ulmus americana 1 �� 5 + -��,�=��!�0��

/$�$%�%�� J��!��!��4 0� ?3

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Quercus macrocarpa 1 �� 5 +� �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum

Salix nigra ?8 (��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A2@ 28(*�?? C1 28(*�@> 1 *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

288

�,�9&��+��&

��? -�6�,�� *��9�

��'&

��& 0� ?3

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

2@A?? B41(*�;;

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 841

0,�9��' �( �� 0� ?C

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

+��9��&�5��'$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>3B �� AB1438@2 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� ?C

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 2 � �

-��,�=��!�0�� 2 �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

.��-��'�1��0��+

5 +�� 8 8

1 1

-��7�+��!�

2C8

�� 8 8

5 +�� 8

K-��+��

2C1

��'�6��K�H �K 24C1

288 � �

� �H��

�,��&�=&�

5 + �� C1

8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Phalaris arundinacea C1 (�� 5 + @�A��'�6��M@482


��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

'��*��9��.��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� ?C

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

2;A?8 28(*�;?

��'&

��? -�6�,�� *��9�

� ��&+��&�&C1 28(*�@> 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A2; B41(*�?412 C1 B41(*�@; 1 *� ��

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

"

"

"

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;4218> �� AB1438C2 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2323

��'!��.��'�$��$��4�� 0�� !��$��6$�� +�� 7� 841

0,�9��' �( �� 0� @8

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C1 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Salix nigra 1 �� H�

5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Vicia sativa 1 �� 5 +� '��*��9��.��

>8 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Carex gynandra 38 (�� H� @�A��'�6��M@482

Spiraea alba 1 ��

K-��+��

?21

��'�6��K�H �K 24@C

211 � �

� �H��

�,��&�=&�

5 + �� ;1

?8

Salix nigra

�� 8 8

5 +�� 1

5 +

.��-��'�1��0��+

?8 (�� H� 5 +�� 8 8

281 281

-��7�+��!�

C8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Spiraea alba ;8 (��

@ � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0� @8

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A3 28(*�@? CB 28(*�;> @ *� ��

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C@ 28(*�;> B *�

�,�9&��+��&

��? -�6�,�� *��9�

� �,�9&��+��&

��& 0� @8

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

3A?@ 28(*�;?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

" ��" �� "" ��

""

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2323

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 8

0,�9��' �( �� 0� @2

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��,�9&��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>?B �� AB1438>1 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

8 ��-�=��< (�� 0��.��.�� 8

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� 8 #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I�� "

24 "

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0� @2

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� ; � �

-��,�=��!�0�� ; �H�

��!�0��-.�� H�$�5 + $��5 +� 288487

Spiraea alba 21 (�� 5 +

.��-��'�1��0��+

5 +�� 8 8

38 38

-��7�+��!�

@8

�� 8 8

5 +�� 8

K-��+��

228

��'�6��K�H �K 242>

C1 � �

� �H��

�,��&�=&�

5 + �� 21

8

21 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Schoenoplectus acutus 21 (�� H� @�A��'�6��M@482

Typha latifolia ?8 (�� H�

��=��%&'��.&��#��2��)6��

Alisma subcordatum 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Juncus effusus 21 (�� H� '��*��9��.��


Carex comosa 28 �� H�

Carex gynandra 28 �� H�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��438 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0� @2

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

2?A?B 28(*�1@

��&+��&�&

��? -�6�,�� *��9�

��'&288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A2? 28(*�?? 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12223

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��2

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

)��'��5��'&��$�@A37�� '

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>1122 �� AB14381>2? 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C3 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

5 +�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Galium aparine @ �� 5 +� '��*��9��.��

21 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Bromus inermis C8 (�� @�A��'�6��M@482

Phleum pratense 1 ��

K-��+��

1?B

��'�6��K�H �K ;4>>

22@ � �

� �H��

�,��&�=&�

5 + �� 28

@?

Diervilla lonicera

�� C1 ;B1

5 +�� 3

5 +

.��-��'�1��0��+

1 (�� 5 +�� 8 8

8 8

-��7�+��!�

?8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� @@4@7

Spiraea alba 28 (��

2 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��2

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A2; 28(*�@@ 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

11 B41(*�>? ;1 *�

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0��2

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

2;A?@ B41(*�1>

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "" �� "

�� "

�� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37�� '

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>?>? �� AB14B331@@ 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12223

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� @

0,�9��' �( �� 0��?

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

5 +�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

'��*��9��.��

B1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Solidago canadensis 31 (�� 5 +� @�A��'�6��M@482

Taraxacum officinale 21 ��

1 K-��+��

>18

��'�6��K�H �K @4>2

238 � �

� �H��

�,��&�=&�

5 + �� 8

;88

�� 1 ?1

5 +�� 288

5 +

.��-��'�1��0��+

5 +�� B1 ??1

8 8

-��7�+��!�

8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� @@4@7

Cornus racemosa B1 (��

2 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��?

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Crataegus punctata 1 (�� ,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC B41(*�@? C3 1(*�@@ ? *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

;1 1(*�1; 11 *�

��&+��&�&

��? -�6�,�� *��9�

� �,�9&��+��&

��& 0��?

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

CA?? B41(*�;?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37�� '

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>B>1 �� AB14B3C@>C 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;23

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��@

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Parthenocissus quinquefolia 28 �� 5 +�

5 +�

��=��%&'��.&��#��2��)6��

Carex vulpinoidea 1 �� H� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Fragaria virginiana 21 �� 5 +� '��*��9��.��

Geranium maculatum 28 �� 5 +�

@1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Solidago canadensis @1 (�� 5 +� @�A��'�6��M@482

Taraxacum officinale ?1 (��

K-��+��

;C8

��'�6��K�H �K @4>@

2@1 � �

� �H��

�,��&�=&�

5 + �� 8

@38

�� 8 8

5 +�� C1

5 +

.��-��'�1��0��+

5 +�� @1 281

1 1

-��7�+��!�

8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� @@4@7

Cornus racemosa @1 (��

2 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��@

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A22 28(*�@? 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

>8 B41(*�;; ;8 *�

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0��@

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

22A?? 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;

��'!��.��'�$��$��4�� *�� !��$��6$�� 7� @

0,�9��' �( �� 0��;

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%,'��$�@A37�� '

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>BB1B �� AB14BC811? 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��;

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 2 � �

-��,�=��!�0�� @ �H�

��!�0��-.�� H�$�5 + $��5 +� @@4@7

Cornus racemosa ?8 (�� 5 +

.��-��'�1��0��+

5 +�� ?8 >8

8 8

-��7�+��!�

8

�� >1 @?1

5 +�� @1

K-��+��

1?1

��'�6��K�H �K ;4@3

2?8 � �

� �H��

�,��&�=&�

5 + �� 8

2;8

?8 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Bromus inermis >8 (�� @�A��'�6��M@482

Geranium maculatum ?8 (�� 5 +�

��=��%&'��.&��#��2��)6��

Fragaria vesca 1 �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Solidago canadensis 28 �� 5 +� '��*��9��.��


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��;

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?8 28(*�;?

��&+��&�&

��? -�6�,�� *��9�

� �,�9&��+��&;1 B41(*�;; 11 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�@? 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

<

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>CC1? �� AB14BC1@3; 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� 12;23

��'!��.��'�$��$��4�� '� ��!��$��6$�� 7� @

0,�9��' �( �� 0��1

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

'��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

@�A��'�6��M@482

288 K-��+��

@C1

��'�6��K�H �K @4C1

288 � �

� �H��

�,��&�=&�

5 + �� 8

@38

�� 8 8

5 +�� C1

.��-��'�1��0��+

5 +�� 1 21

8 8

-��7�+��!�

8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

1 �� 5 + 8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��1

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Tsuga canadensis C1 (�� 5 +� �,�=��!�0��-.�� H�$�5 + $��5 +�Acer rubrum

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?@ B41(*�;> 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

��'&

��? -�6�,�� *��9�

��& 0��1

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

<

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

+��9��&�!��'$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8@>? �� AB14BC38>1 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >B23

��'!��.��'�$��$��4�� '� ��!��$��6$�� 7� ?

0,�9��' �( �� 0��>

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

'��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

@�A��'�6��M@482

288 K-��+��

@38

��'�6��K�H �K @438

288 � �

� �H��

�,��&�=&�

5 + �� 8

@?8

�� 8 8

5 +�� 38

.��-��'�1��0��+

5 +�� ?8 >8

8 8

-��7�+��!�

8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

1 �� 5 + 8 � �

Acer rubrum 21 �� 5 + -��,�=��!�0��

/$�$%�%�� J��!��!��4 0��>

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Tsuga canadensis 38 (�� 5 +� �,�=��!�0��-.�� H�$�5 + $��5 +�Betula populifolia

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC 28(*�@? 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

288

��'&

��? -�6�,�� *��9�

��'&

��& 0��>

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

CA?> B41(*�;;

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

"

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

+��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>2@>? �� AB14383183 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >B23

��'!��.��'�$��$��4�� *�� !��$��6$�� 7� @

0,�9��' �( �� 0��B

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Trifolium pratense @ �� 5 +�

5 +�

��=��%&'��.&��#��2��)6��

Galium mollugo ? �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Sinapis arvensis 28 �� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Festuca rubra B1 (�� 5 +� @�A��'�6��M@482

Lychnis flos-cuculi 28 ��

K-��+��

;28

��'�6��K�H �K ;428

288 � �

� �H��

�,��&�=&�

5 + �� 8

@>8

�� 28 18

5 +�� C8

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��B

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?2 28(*�;@ CC B41(*�;; 2 *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

��&+��&�&

��? -�6�,�� *��9�

��& 0��B

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

)��'��5��'&��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;421>231 �� AB1438C@88 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� *�� !��$��6$�� 7� @

0,�9��' �( �� 0��3

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��43B K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Cirsium arvense 1 �� 5 +�

5 +�

��=��%&'��.&��#��2��)6��

Plantago major 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Medicago sativa B �� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Phleum pratense >8 (�� 5 +� @�A��'�6��M@482

Trifolium pratense 28 ��

K-��+��

@11

��'�6��K�H �K ;483

3B � �

� �H��

�,��&�=&�

5 + �� 8

@?8

�� B @1

5 +�� 38

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��3

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A; B41(*�?41@ 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

?8A?; 28(*�;? 288 ��&+��&�&

22A?8 28(*�@; 288

288

��&+��&�&

��? -�6�,�� *��9�

��'&

��'&

��& 0��3

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

;A22 B41(*�;;

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "" �� "

�� "

"

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� *�� !��$��6$�� 7� ?

0,�9��' �( �� 0��C

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;4213CB8 �� AB14381C@? 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��C

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� ?8 288

5 +�� B1

K-��+��

;88

��'�6��K�H �K ;4?2

C1 � �

� �H��

�,��&�=&�

5 + �� 8

@88

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+


Daucus carota ?8 (��

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Plantago major 1 �� 5 +� '��*��9��.��


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4C1 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

"

��& 0��C

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

BA?2 28(*�;?

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&C1 28(*�;; 1 *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AB 28(*�@? C3 28(*�@; ? *� �

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42132>3 �� AB143811C8 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >2C23

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 2

0,�9��' �( �� 0��28

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��418 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Carya laciniosa 1 �� 5 +

5 +�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Quercus bicolor 1 �� 5 + '��*��9��.��

@8 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Fragaria vesca 21 (�� @�A��'�6��M@482

Polystichum acrostichoides ?1 (��

>8 K-��+��

1@8

��'�6��K�H �K @4BC

2;8 � �

� �H��

�,��&�=&�

5 + �� 28

@>8

Sorbus americana

�� 21 B1

Betula populifolia 1 �� 5 + 5 +�� C8

5 +�

.��-��'�1��0��+

1 �� 5 + 5 +�� ?1 B1

8 8

-��7�+��!�

?8

Tilia americana 21 (�� 5 +�

5 + > �H�

Quercus alba 28 (�� 5 +� ��!�0��-.�� H�$�5 + $��5 +�Betula populifolia 1 �� 5 + 8487

Prunus serotina ?8 (��

21 (�� 5 +� 8 � �

Acer rubrum 1 �� 5 + -��,�=��!�0��

/$�$%�%�� J��!��!��4 0��28

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Fagus grandifolia 1 �� 5 +� �,�=��!�0��-.�� H�$�5 + $��5 +�Populus tremuloides

Sorbus americana 1 ��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8AC 28(*�@@ 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

288

��&+��&�&

��? -�6�,�� *��9�

��'&

��& 0��28

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

CA?8 B41(*�;>

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?823

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��22

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

.�9��5��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>31B2 �� AB1438;8>B 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��22

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� 28 18

5 +�� C8

K-��+��

;28

��'�6��K�H �K ;428

288 � �

� �H��

�,��&�=&�

5 + �� 8

@>8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Trifolium pratense 18 (�� 5 +� @�A��'�6��M@482

Phleum pratense @8 (�� 5 +�

��=��%&'��.&��#��2��)6��

Plantago major 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Taraxacum officinale 1 �� 5 +� '��*��9��.��

Daucus carota 28 ��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��22

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

��'&

��? -�6�,�� *��9�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?? 28(*�1? 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B21 �� AB1438;? 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?823

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� 1

0,�9��' �( �� 0��2?

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Daucus carota ? ��

5 +�

��=��%&'��.&��#��2��)6��

Asclepias syriaca ? �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Phalaris arundinacea 1 �� 5 + '��*��9��.��

Galium aparine 2 �� 5 +�

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Elymus canadensis >1 (�� 5 +� @�A��'�6��M@482

Dactylis glomerata ?1 (��

K-��+��

@C;

��'�6��K�H �K @4C;

288 � �

� �H��

�,��&�=&�

5 + �� 1

@>;

�� ; ?8

5 +�� C2

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

28

? �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��2?

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 B41(*�@@ 288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

288

��&+��&�&

��? -�6�,�� *��9�

��'&

��& 0��2?

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?1 B41(*�;>

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��,�9&��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8? �� AB14383> 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� @

0,�9��' �( �� 0��2@

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Fragaria vesca 1 ��

5 +

��=��%&'��.&��#��2��)6��

Plantago major 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Trifolium pratense 28 �� 5 +� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+


Phalaris arundinacea 21 ��

K-��+��

@B1

��'�6��K�H �K @4B1

288 � �

� �H��

�,��&�=&�

5 + �� 21

@?8

�� 1 ?1

5 +�� 38

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

@8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��2@

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A22 28(*�?? CC 28(*�@> 2 *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

C1 28(*�@> 1 *�

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0��2@

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

22A?2 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

.�9��!��'&��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B@C �� AB14381B 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� 2

0,�9��' �( �� 0��2;

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Elymus canadensis 1 �� 5 +�

5 +

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Asclepias syriaca 1 �� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Phleum pratense 38 (�� 5 +� @�A��'�6��M@482

Phalaris arundinacea 28 ��

K-��+��

@31

��'�6��K�H �K @431

288 � �

� �H��

�,��&�=&�

5 + �� 28

@;8

�� 1 ?1

5 +�� 31

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

?8

2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��2;

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A22 28(*�?? C3 28(*�@> ? *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

2?A?? 28(*�;? 18 28(*�@> 18 *�

288

��&+��&�&

��? -�6�,�� *��9�

��'&

��&+��&�&

��& 0��2;

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��

�

��.�� +�� 7 +�� 7 -&��2

22A2? 28(*�12

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� >?123

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��21

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%,'��$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B?? �� AB14382@ 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��21

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� 8 8

5 +�� 288

K-��+��

;88

��'�6��K�H �K ;488

288 � �

� �H��

�,��&�=&�

5 + �� 8

;88

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Dactylis glomerata ?8 (�� 5 +� @�A��'�6��M@482

Poa pratensis B8 (�� 5 +�

��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Taraxacum officinale 1 �� 5 +� '��*��9��.��


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��21

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A23 28(*�;@

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&C3 28(*�;> ? *�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�;? 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� 1

0,�9��' �( �� 0��2>

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>1B �� AB14388C 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��2>

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� ? �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� ?8 288

5 +�� 38

K-��+��

;?8

��'�6��K�H �K ;4?8

288 � �

� �H��

�,��&�=&�

5 + �� 8

@?8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Lotus corniculatus @1 (�� 5 +� @�A��'�6��M@482

Trifolium pratense ?1 (�� 5 +�

��=��%&'��.&��#��2��)6��

Daucus carota 1 �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Fragaria vesca 21 �� '��*��9��.��

Plantago major 1 �� 5 +�

Dactylis glomerata 21 �� 5 +�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��2>

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

��&+��&�&

��? -�6�,�� *��9�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?2 28(*�;@ 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>> �� AB1438?@ 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2823

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� ?41

0,�9��' �( �� 0��2B

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4


5 +�

��=��%&'��.&��#��2��)6��

Daucus carota 21 �� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Lotus corniculatus ?8 (�� 5 +� '��*��9��.��

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Dactylis glomerata @1 (�� 5 +� @�A��'�6��M@482

Trifolium pratense ?8 (��

K-��+��

;21

��'�6��K�H �K ;421

288 � �

� �H��

�,��&�=&�

5 + �� 8

@;8

�� 21 B1

5 +�� 31

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

@ �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��2B

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A?8 28(*�;@ C3 28(*�@> ? *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

�,�9&��+��&

��? -�6�,�� *��9�

��& 0��2B

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� 1

0,�9��' �( �� 0��23

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

��'��&�5��'$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>31 �� AB143883 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��23

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� 2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� 1 ?1

5 +�� C1

K-��+��

;81

��'�6��K�H �K ;481

288 � �

� �H��

�,��&�=&�

5 + �� 8

@38

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Dactylis glomerata B8 (�� 5 +� @�A��'�6��M@482


��=��%&'��.&��#��2��)6��

2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Daucus carota 1 �� '��*��9��.��


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��23

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?8 B41(*�@;

��'&

��? -�6�,�� *��9�

��'&288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 B41(*�@@ 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��2C

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

+��9��&�5��'$�@A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42B8@ �� AB143888 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��2C

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +� 8 � �

-��,�=��!�0�� 2 �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

.��-��'�1��0��+

5 +�� 8 8

8 8

-��7�+��!�

8

�� 28 18

5 +�� C8

K-��+��

;28

��'�6��K�H �K ;428

288 � �

� �H��

�,��&�=&�

5 + �� 8

@>8

K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Dactylis glomerata >1 (�� 5 +� @�A��'�6��M@482


��=��%&'��.&��#��2��)6��

Lotus corniculatus 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Daucus carota 28 �� '��*��9��.��


��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��2C

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?1 B41(*�;>

��'&

��? -�6�,�� *��9�

��'&288

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 B41(*�?41? 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2223

��'!��.��'�$��$��4�� %��'� ��!��$��6$�� 7� ;

0,�9��' �( �� 0��?8

/�.��5��$�)'�5��& ��$�-��.��$�*��

:�3;

%��*��9��,��+��6$�8A37��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42>>? �� AB14B3B> 0��,��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

��'��%&'��<� (�� #��'( ��

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

/$�$%�%�� J��!��!��4 0��?8

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

Fraxinus pennsylvanica 1 (�� 5 + �,�=��!�0��-.�� H�$�5 + $��5 +� ? � �

-��,�=��!�0�� 1 �H�

��!�0��-.�� H�$�5 + $��5 +� ;8487

Prunus pensylvanica 21 (�� 5 +�

.��-��'�1��0��+

1 �� 5 +�� 21 ;1

8 8

-��7�+��!�

28

Elaeagnus umbellata

�� 11 ?B1

Cornus racemosa 21 (�� 5 + 5 +�� >1

1 K-��+��

1C8

��'�6��K�H �K ;4?2

2;8 � �

� �H��

�,��&�=&�

5 + �� 1

?>8

@1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Rubus occidentalis 18 (�� @�A��'�6��M@482

Solidago canadensis ?1 (�� 5 +�

��=��%&'��.&��#��2��)6��

Elymus canadensis 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Phleum pratense 21 �� 5 +� '��*��9��.��

Parthenocissus quinquefolia 1 �� 5 +�

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

)*'��*��/��.��( ��

*��9��,'��.��,�=��.��.��4�

K-��+��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"

��& 0��?8

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

��'&

��? -�6�,�� *��9�

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4 ��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A? 28(*�?2 288

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&�� *��9��,��

0��.��.�� ? )*'��.��(

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��

��

��

�� !��

"

��#�� $�� $��%&'��& (�� "

��#�� $�� $��%&'��&

�� !��"

�� "�� " "�� "

""" �� "

*��9��

��,'��&�!��0��=��*��'�'�0��,��$��$��.��$��,��$��!��=��

��,��< (�� 0��.��.�� #��'�)*'��*�.��( ��-�=��< (�� 0��.��.��

��&�#��'�+��,�!��H3� 5 +A��,��-��01�

��'�,��-��+,�!�� < (�� 0��.��.��

��0��H1� -.��,�9�,�!��+B� .�� F,��'��0@��,�'��#��=�� &��HB� ��.��)6��*��9�� .��*��!��0;�

0��!��0��H@� ��!�*�',��'��+;� �,��'��'��02� ��+�,��H;� *��*�',��-��'��+>� :��.��0?�

*��9��)6��',��.��4�

)� �&��#��'�)*'��*��'��+ ��'��&��'��,��!��F,��'��&��'��,��!��F,��'G��.��9��.��&�� ,�!��+��9��H>�,�!�� 2�

��9��H2� %&'��,�!�'��'��+2� +��&!��.�H,��+3��'��0��H?� �6�'�I�'�*.�I��.��*��+@� ��,��#��=�� &��+C�

��A��'��HC� 0��H28�%��.� ��-�=�� ?� F,��5�,��H2@� ��-��H2>��,�� @� ��0��H21� 0�&A�� -�=��+?�

��'��%&'��<� (�� #��'( ��

��!��&�'��,�=�'< ��D��+��,��E��< ��

��,��&��=��< ��!��'�'$��6��&��*��9�4�

%&'��.&��#��< (��

��'�%&'��&��< (�� !�&��$�� '��0�

:�3;

��,�9&��&�+��& ��

��.&'��'��.��&��!��.��!�&��< (�� !��$��6��*��9�4��

,=��**��* �� **�* ;;42122 �� AB1438C1 0��,��

#$%&�� $%$��%�� %��'��

)''&�*��' +��&+�,��&� -.��/�!!�� 0�� B2323

��'!��.��'�$��$��4�� 5�� !��$��6$�� 7� ?

0,�9��' �( �� 0��?2

/�.��5��$�)'�5��& ��$�-��.��$�*��

�� &�+��!�)�� .��'��.��*��J�#��?48

��

��I��

24

?4

@4

;4

14

>4 � H�

B4

��.�,=��,� ��I�� 6�2�K

24 6�?�K

?4 6�@�K

@4 6�;�K

;4 6�1�K

14 +��,��-�� H�

>4

B4

%��=��,� ��I��

24

?4 ;�A��.�� '��2��'��,��

@4

;4

14

>4

B4

34

C4

284

224

2?4

��I��

24

?4

@4

;4 "

*��9��,'��.��,�=��.��.��4�

K-��+��

)*'��*��/��.��( ��

)��,�J� ��.��=��,��A��'&��$��'��!��I�$��'��'&��.��@4?3�!��4288 K-��+��

��2��!,�J� ��'&��.��@��4�0H%��'��.��F,��@4?3�!��2��4

� �� /��+

%��J� ��'&��@��4��B4>��'��=��.��.��0H%�$��'��!�.��.�4

��'&�#��,� � #��'*�-��J� ��'&��.��@4?3�!��.��.�4

Lotus corniculatus 28 �� 5 +�

��

��=��%&'��.&��#��2��)6��

Trifolium pratense 1 �� 5 +� 2��'��!�.&'��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

Asclepias syriaca 21 (�� '��*��9��.��

Cornus racemosa 1 �� 5 +

1 K-��+�� 2�A�*��'�-��!��%&'��.&��#��

� ?�A�0��-��L187

)*'��*��/��'��+

Phleum pratense 18 (�� 5 +� @�A��'�6��M@482

Daucus carota 21 (��

K-��+��

;18

��'�6��K�H �K ;4?C

281 � �

� �H��

�,��&�=&�

5 + �� 8

?>8

�� @1 2B1

5 +�� >1

��

.��-��'�1��0��+

5 +�� 1 21

8 8

-��7�+��!�

8

; �H�

��!�0��-.�� H�$�5 + $��5 +� 8487

Elaeagnus umbellata 1 (��

8 � �

-��,�=��!�0��

/$�$%�%�� J��!��!��4 0��?2

-��,� � =��,��7�+��

0��<

��'��,� ��%��0��+

�,�=��!�0��-.�� H�$�5 + $��5 +�

�� &�+��!�)�� .��'��.��*��J�#��?48

��

"��

*��9��-.��'��!��'�!��.��'��.��*��,��#��?48��,'��.��*+�5��'��'��!�%&'��$�#��B48$�?821�)��4��.��4��4,�'�4��5)N0�+��)�-��2;?�?N812?C@4'��6�

��-��&�*��3� ��,��-�'4+-&��

0��.��.�� )*'��.��(

��'��6��>� ��528��&��6��&� ��.��)6��*��9��0��9�,�!��B�

@��'��!�.&'��.&��'��'�.&'��&��,��=��$�,��'��,�=�'��=��4

��'&�:��&�'��6��;� 0��'�0��9�,�!��5B� *�'��5?2��'&�*�'�6��1� *�'�6�0��53� #��&�.��0��9�,�!��5??�

��&��,��H��,�!��3��&��6��&�

2-&��+K+��$�0K0��$�*�K*�',��'��6$��K��9�'��'�:��4 ?��K��$��K��64

-.��9�0��9�,�!�� 2?� 0��'��6��5@� ��'��5��'��52C��&��789:��'&��,�9&��2� *�'�6�0��9�,�!��5>� ��'��- >��&��788��78;��789:�

��!��'��&�� 1� ��&��,�9&��52��&��6��&� -.��0��9�,�!��C��&��6��&�0��'�H��0��9�,�!�� 22� ��&�:��&�'��6��5?� ��A��52?��&��6��&��

8A28 28(*�@@ CC 28(*�@> 2 *� �

)*'��'��+ ��'�� .��,��)*'��5+%�� 2� ��&��,��H��,�!��3��&�� ?��,�9�� 28��&��6��&��&��789:�%��)��'�� ?� �&��789:� +��*�'�6�� 2>��&��6��&��H��9�%�� @� -.��0��9�,�!��C��&��&��789:� 1��,�9&��@��&��6��&��%&'��,�!�'�� ;� %��.�+.��'��22��&��6��&4

CB 28(*�@> @ *�

��&+��&�&

��? -�6�,�� *��9�

� ��&+��&�&

��& 0��?2

.�� +��3 ��,��'��'�'��'��!��'�� ,�� '��"40��. ��6 *�'�6�5��,��.�� +�� 7 +�� 7 -&��2

28A?? 28(*�@?

�� &�+��!�)�� .��'��.��*��J�#��?48

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:

NOTICE: Construction site safety is the sole responsibility of the contractor. Ducks Unlimited, Inc. shall not assume anyresponsibility for the safety of the work performed, persons engaged in the work, nearby structures, or of other personson-site.

This material, data and information is the property of Ducks Unlimited, Inc. It may not be used or reproduced for anypurpose without the prior written consent of an authorized agent of Ducks Unlimited, Inc. Ducks Unlimited, Inc. makesno representation or warranty of any kind regarding this material, data and information, including, but not limited to,the accuracy of the material, data and information or its suitability for any purpose. All use of the material, data andinformation is at the users sole risk. By using any of this material, data and information, user agrees that DucksUnlimited, Inc. is not responsible for their use of the material, data and information or the results thereof.

Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-Q

1-C

over

.dw

g L

AYO

UT:

1

SAVE

D: 3

/8/2

019

9:59

AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

9:59

AM

BY

: KAM

BLE,

DEV

ESH

Professional Engineer's No.

Professional Engineer's Name

083972State

ARCADISOne Lincoln Center110 West Fayette Street, Suite 300Syracuse NY 13202Tel: 315.446.9120

JANUARY 2019

ARCADIS Project No.

NO ALTERATIONS PERMITTED HEREON EXCEPT ASPROVIDED UNDER SECTION 7209 SUBDIVISION 2 OF THE

NEW YORK STATE EDUCATION LAW

ARCADIS OF NEW YORK, INC.

NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-1

RD-Q1-Cover.dwg

B0010930.0000.00004

FOR PERMIT

DUCKS UNLIMITEDPROJECT

EDDY ROADIN-LIEU FEE SITE - PHASE 1

WESTERN ST. LAWRENCE SERVICE AREAJEFFERSON COUNTY, NEW YORK

SHEET INDEX

1. COVER SHEET

2. ESTIMATED QUANTITIES, SPECIFICATIONS, & NOTES

3. PHASING PLAN

4. SITE PLAN

5. UNIT WR-1 AND WR-6 PLAN & PROFILE

6. UNIT WR-2 PLAN & PROFILE




10. DETAILS-1

11. DETAILS-2

12. WETLAND DELINEATION-OVERALL

13. WETLAND DELINEATION-1



16. PLANTING PLAN

17. PLANTING DETAILS AND NOTES

18. CREDIT GENERATION

19. MONITORING PLAN

20. EROSION AND SEDIMENT CONTROL PLAN

21. EROSION CONTROL DETAILS AND NOTES

R

��

PROJECT LOCATION

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

CO

VER

SH

EET

NEW YORKJOB SITE

PHASE 1

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

PROJECTLOCATION

Appendix B. Work Plan, Construction Detail, and Existing Aquatic Resources

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig2-

Not

es a

nd L

egen

d.dw

g L

AYO

UT:

2

SAVE

D: 3

/8/2

019

9:59

AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

--PL

OTS

TYLE

TABL

E: --

-- P

LOTT

ED: 3

/8/2

019

9:59

AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-2

RD-Fig2-Notes and Legend.dwg

B0010930.0000.00004

FOR PERMIT

ESTI

MATE

D Q

UAN

TITI

ES,

SPE

CIF

ICATI

ON

S A

ND

NO

TES

PAY QUANTITIESSPEC. # ITEM UNIT QUANTITY

201 MOBILIZATION LS 1

202 SITE PREPARATION CY-P 10,670

204 EMBANKMENT CONSTRUCTION: WR-1, WR-2� AND WR-5 CY-P 2,920

205 CONSTRUCTED TOPOGRAPHY: WR-1, WR-3, WR-4,�AND WR-6 CY-P 7,700

301 WATER CONTROL STRUCTURES EA 3

302 STRUCTURE AND CULVERT APPURTENANCES EA 3

305 RIPRAP (AT PIPE OUTLETS) TN 25

312 TILE DRAIN LOCATION LF 1,550

312 TILE DRAIN REMOVAL LF 200

401 SOIL EROSION AND POLLUTION CONTROL LS 1

402SEEDING AND MULCHING - STANDARD SEED MIX:�ALL EMBANKMENTS, SPILLWAYS 1, 2 & 3, ��

�� AND�TEMPORARY ACCESSAC-P ��

402SEEDING AND MULCHING - WETLAND SEED MIX:

PEM, PSS & PFO AC-P 19.88

CONSTRUCTION NOTES:�� BID ITEMS INCLUDED IN THE TABLE ARE DESCRIBED IN DETAIL IN THE STANDARD CONSTRUCTION SPECIFICATIONS FOR�

WETLAND RESTORATION, PROVIDED WITH THE BID DOCUMENTS. CONSTRUCTION NOTES HEREIN ARE NOT ALL INCLUSIVE;�REFER TO THE STANDARD CONSTRUCTION SPECIFICATIONS.

�� ELEVATIONS PROVIDED IN THESE PLANS ARE REFERENCED TO THE NORTH AMERICAN VERTICAL DATUM OF 1988 (NAVD88),�FEET.

�� HORIZONTAL COORDINATES PROVIDED IN THESE PLANS ARE REFERENCED TO THE NEW YORK STATE PLANE COORDINATE�SYSTEM, CENTRAL ZONE, NORTH AMERICAN DATUM OF 1983 (NAD83), U.S. SURVEY FEET.

�� CONTRACTOR SHALL UTILIZE SAME VERTICAL AND HORIZONTAL COORDINATE SYSTEMS AS REFERENCED IN THE PLANS.

�� BID ITEM FOR MOBILIZATION SHALL INCLUDE THE SUPPLY OF ALL LABOR, MATERIAL AND EQUIPMENT TO TRANSPORT ALL�NEEDED LABOR, MATERIAL AND EQUIPMENT TO AND FROM A PROJECT SITE TO SUCCESSFULLY COMPLETE THE PROJECT AS�SHOWN ON THE PLANS OR DESCRIBED BY THE ENGINEER. REFER TO MOBILIZATION SPECIFICATION 201. PAYMENT FOR THIS�LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� SITE PREPARATION BID ITEM SHALL INCLUDE STRIPPING BENEATH EMBANKMENT FOOTPRINTS, EMERGENCY SPILLWAYS, &�SCRAPE/EXCESS CUT MATERIAL PLACEMENT AREAS. TOPSOIL SHALL BE STOCKPILED AND REPLACED OVER COMPLETED�EMBANKMENTS, EMERGENCY SPILLWAYS, & SCRAPE/EXCESS CUT MATERIAL PLACEMENT AREAS. BID ITEM SHALL ALSO INCLUDE�ANY TREE/BRUSH CLEARING WITHIN CONSTRUCTION AREA. REFER TO SITE PREPARATION SPECIFICATION 202. PAYMENT FOR�THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� BID ITEM FOR EMBANKMENT CONSTRUCTION SHALL INCLUDE ALL WORK REQUIRED TO EXCAVATE, HAUL, PLACE AND COMPACT�FILL MATERIAL TO CONSTRUCT �� AND CLAY KEYS TO THE LINES AND GRADES AS SHOWN ON THE PLANS. ALL�MATERIAL SHALL BE PLACED AND COMPACTED IN LOOSE LIFTS NOT EXCEEDING EIGHT (8) INCHES IN THICKNESS. CLAY KEY�DEPTH OF 2 FEET USED FOR PAY QUANTITY CALCULATION. REFER TO EMBANKMENT CONSTRUCTION SPECIFICATION 204.�PAYMENT FOR THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� BID ITEM FOR CONSTRUCTED TOPOGRAPHY SHALL INCLUDE ALL WORK REQUIRED TO EXCAVATE THE SCRAPE/EXCESS CUT�MATERIAL PLACEMENT AREAS & ��!��, HAULING AND SPREADING MATERIALS, AND SHAPING OF SLOPES TO�THE LINES AND GRADES AS SHOWN ON THE PLANS. PLACEMENT OF BORROWED MATERIAL IN THE EXCESS CUT MATERIAL�PLACEMENT AREAS IS CONSIDERED INCIDENTAL TO THE CONSTRUCTED TOPOGRAPHY ITEM. ALL MATERIAL SHALL BE PLACED�AND COMPACTED IN LOOSE LIFTS NOT MORE THAN SIXTEEN (16) INCHES IN THICKNESS. REFER TO CONSTRUCTED�TOPOGRAPHY SPECIFICATION 205. PAYMENT FOR THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS�SHEET.

"� BID ITEMS FOR WATER CONTROL STRUCTURES 1, 2, & 3 AND APPURTENANCES SHALL INCLUDE THE PURCHASE AND�INSTALLATION OF EACH STRUCTURE, COUPLERS, PIPE, PIPE ANCHORS, SEALANTS, AND ALL APPURTENANCES NECESSARY TO�COMPLETE THE INSTALLATION AS SHOWN ON THE PLANS. REFER TO WATER CONTROL STRUCTURES SPECIFICATION 301,�STRUCTURE AND CULVERT APPURTENANCES SPECIFICATION 302, AND CULVERT AND PIPE INSTALLATION SPECIFICATION 303.�PAYMENT FOR THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�$� BID ITEM FOR RIPRAP DU CLASS I IS AS SHOWN ON THE PLANS. NON-WOVEN FILTER FABRIC IS REQUIRED BENEATH ALL ROCK�RIPRAP AND SHALL BE SECURED TO SLOPES AND BOTTOM USING PINS AS NOTED IN SPECIFICATION 305. CONTRACTOR SHALL�PROVIDE SCALE TICKETS WITH WEIGHTS INCLUDING TARE WEIGHTS, GROSS WEIGHTS, AND NET WEIGHTS OF MATERIAL�DELIVERED. PAYMENT FOR THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� THE TILE DRAIN LOCATION BID ITEM IS FOR THE EXPLORATION OF EXISTING TILES (SPECIFICATION 312). EXCAVATION SHALL�BE PERFORMED AS SHOWN ON THE PLANS, AND ALL TILES FOUND SHALL BE REPORTED TO THE ENGINEER BY THE CONTRACTOR.�THE PAYMENT FOR THIS LINE ITEM IS BASED ON LINEAR FEET OF EXPLORATION AS NOTED ON THE PLANS. EXPLORATION�EXCAVATIONS SHALL BE BACKFILLED WITH ORIGINAL SOILS AND TAMPED FIRM AFTER EXPLORATION. PAYMENT FOR THIS LINE�ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� THE TILE REMOVAL BID ITEM IS FOR THE REMOVAL OF EXISTING TILES (SPECIFICATION 312). REMOVAL OF TILE SHALL BE�PERFORMED AS SHOWN ON THE PLANS AND SHALL ABIDE BY SPECIFICATION 312.23. ALL TILE MATERIAL SHALL BE REMOVED�FROM THE SITE. THE PAYMENT FOR THIS LINE ITEM IS BASED ON LINEAR FEET OF TILE REMOVED; DUCKS UNLIMITED WILL PAY�FOR ACTUAL LINEAR FEET OF TILE REMOVED.

�� THE BID ITEM FOR SOIL EROSION AND POLLUTION CONTROL SHALL INCLUDE THE SUPPLY, INSTALLATION AND MAINTENANCE OF�THE EROSION AND SEDIMENT CONTROLS SHOWN AND DESCRIBED ON THE DESIGN DRAWINGS AND ANY ADDITIONAL�CONTROLS NEEDED TO MAINTAIN COMPLIANCE WITH NEW YORK STATE REGULATIONS UNTIL VEGETATION IS FULLY�ESTABLISHED, REPAIR OF ANY DAMAGES RESULTING FROM EROSION OR SEDIMENTATION DURING THIS TIME PERIOD, AND�REMOVAL OF TEMPORARY EROSION AND SEDIMENT CONTROLS IMMEDIATELY FOLLOWING FULL VEGETATIVE ESTABLISHMENT.�EXACT LOCATION AND QUANTITY MAY VARY DEPENDING UPON ACTUAL SITE CONDITIONS. EROSION CONTROL MEASURES SHALL�BE INSTALLED PRIOR TO THE START OF WORK AND WILL BE MAINTAINED UNTIL FINAL STABILIZATION OF THE SITE. THE�CONTRACTOR SHALL BID A LUMP SUM FOR SOIL EROSION AND POLLUTION CONTROL. IT IS THE CONTRACTOR'S RESPONSIBILITY�TO INSTALL, INSPECT AND MAINTAIN ALL BEST MANAGEMENT PRACTICES REQUIRED TO PREVENT SILT AND POLLUTION RUNOFF�FROM THE WORK AREA. THE CONTRACTOR SHALL PREPARE AND MAINTAIN ON-SITE ALL REQUIRED INSPECTION FORMS AND�UP-TO-DATE DOCUMENTATION ACCORDING TO THE PERMIT REGULATIONS. PAYMENT FOR THIS LINE ITEM WILL BE BASED ON�THE PAY QUANTITY LISTED ON THIS SHEET.

�� BID ITEM SEEDING AND MULCHING - "STANDARD SEED MIX" (THE THREE EMBANKMENTS, SPILLWAYS 1, 2 & 3, EXCESS SOIL FILL�AREAS AND TEMPORARY ACCESS) SHALL INCLUDE THE MATERIAL, EQUIPMENT, AND LABOR REQUIRED TO LEVEL AND PREPARE�(DRAGGING/DISK) TOPSOIL FOR SEEDING AND MULCHING; APPLICATION OF SEED, MULCH, AND FERTILIZER, AS REQUIRED BY�THE DESIGN DOCUMENTS; AND ESTABLISHMENT OF A UNIFORM, PERENNIAL VEGETATIVE COVER WITH A DENSITY OF EIGHTY*�$+ PERCENT, INCLUDING RESEEDING, REMULCHING, AND/OR REFERTILIZING OF BARE AREAS, AS NEEDED. APPROVED MULCH�SHALL BE APPLIED TO ALL AREAS SEEDED AS DIRECTED BY THE DU FIELD ENGINEER. REFER TO DU SPECIFICATION 402.�PAYMENT FOR THIS LINE ITEM WILL BE BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

�� BID ITEM SEEDING AND MULCHING - WETLAND SEED MIX: PEM, PSS & PFO SHALL INCLUDE THE MATERIAL, EQUIPMENT, AND�LABOR REQUIRED TO PREPARE, SEED, AND STABILIZE THE AREAS SPECIFIED ON THE PLANTING PLAN (SHEET 16). REFER TO�SHEET 17 AND DU SPECIFICATION 402 FOR ADDITIONAL NOTES AND REQUIREMENTS. PAYMENT FOR THIS LINE ITEM WILL BE�BASED ON THE PAY QUANTITY LISTED ON THIS SHEET.

R

��

SPECIFICATIONS

101 GENERAL CONDITIONS

102 SUPPLEMENTAL CONDITIONS

201 MOBILIZATION

202 SITE PREPARATION

203 EXCAVATION

204 EMBANKMENT CONSTRUCTION

205 CONSTRUCTED TOPOGRAPHY

206 WATER

301 WATER CONTROL STRUCTURES

302 STRUCTURE AND CULVERT APPURTENANCES

303 CULVERT AND PIPE INSTALLATION

305 RIPRAP, REVETMENT AND AGGREGATE PLACEMENT

312 TILE DRAIN LOCATION AND REMOVAL

401 SOIL EROSION AND POLLUTION CONTROL

402 SEEDING AND MULCHING

404 TRAFFIC MAINTENANCE AND CONTROL

SEQUENCE OF CONSTRUCTION:1. HOLD PRE-CONSTRUCTION MEETING.

2. NOTIFY SEDIMENT CONTROL INSPECTOR 24 HOURS PRIOR TO START OF CONSTRUCTION.

3. INSTALL STABILIZED CONSTRUCTION ACCESS.

4. PERFORM GRUBBING REQUIRED FOR INSTALLATION OF PERIMETER CONTROLS.

5. INSTALL PERIMETER CONTROLS, NOTIFY SEDIMENT CONTROL INSPECTOR, AND OBTAIN APPROVAL BEFORE

PROCEEDING FURTHER.

6. PERFORM SITE PREPARATION WORK AND CLEARING, STOCKPILE TOPSOIL TO BE USED LATER.

7. COMPLETE TILE EXPLORATION AND REMOVE DRAINAGE TILES WHERE ENCOUNTERED.

8. COMPLETE EXCAVATIONS AND CONSTRUCTION OF EMBANKMENTS, EMERGENCY SPILLWAYS, AND AGRI-DRAIN

STRUCTURES.

9. COMPLETE EXCAVATIONS IN SCRAPE AREAS AND PLACE EXCAVATED MATERIAL IN EXCESS CUT MATERIAL

PLACEMENT AREAS.

10. SPREAD TOPSOIL BACK ACROSS ALL DISTURBED AREAS.

11. COMPLETE PLANTING AND STABILIZATION.

12. NOTIFY SEDIMENT CONTROL INSPECTOR AFTER COMPLETION OF PLANTING AND STABILIZATION. OBTAIN

APPROVAL TO REMOVE TEMPORARY SEDIMENT AND EROSION CONTROL FOR PROJECT AFTER ESTABLISHMENT

OF AT LEAST 80% UNIFORM DENSITY OF PERMANENT VEGETATION.

13. CONTRACTOR WILL REMOVE ALL TEMPORARY EROSION CONTROL MEASURES UPON APPROVAL FROM

DESIGNATED INSPECTOR.

NOTE: NOTIFY THE ENGINEER IMMEDIATELY OF ANY SEDIMENT AND EROSION CONTROL CONCERNS THAT ARISE

(E.G., INADEQUATE MEASURES, DAMAGED MEASURES, MAJOR STORM EVENTS, OFF-SITE EROSION OR

SEDIMENTATION POTENTIALLY ASSOCIATED WITH SITE ACTIVITIES).

IT IS A VIOLATION OF LAW FOR ANY PERSON, UNLESS THEY ARE ACTING UNDER THE DIRECTION OF A

LICENSED PROFESSIONAL ENGINEER, ARCHITECT, LANDSCAPE ARCHITECT, OR LAND SURVEYOR, TO ALTER

THIS DOCUMENT IN ANY WAY. IF AN ITEM BEARING THE STAMP OF A LICENSED PROFESSIONAL IS ALTERED,

THE DOCUMENT AND INCLUDE THE NOTATION "ALTERED BY" FOLLOWED BY THEIR SIGNATURE, THE DATE OF

SUCH ALTERATION, AND A SPECIFIC DESCRIPTION OF THE ALTERATION.

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

BENCHMARK NORTHING (FT) EASTING (FT) ELEVATION (FT)TBM 1 1516376.83 1022908.96 436.50

TBM 2 1520981.21 1024995.28 429.60

TBM 3 1520000.83 1026448.42 445.00

TBM 4 1513627.71 1023312.85 417.50

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

3-Ph

asin

g Pl

an.d

wg

LAY

OU

T: 3

SA

VED

: 3/8

/201

9 12

:46

PM

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 12

:46

PM

BY: S

ARTO

RI,

KATH

ERIN

E



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-3

RD-Fig3-Phasing Plan.dwg

B0010930.0000.00004

FOR PERMIT

PHASIN

G P

LAN

GRAPHIC SCALE

1 inch = feet

0 2400600 1200300

600

600

405

LEGEND

REFERENCE MAPS

BOUNDARY LINES SHOWN HEREON ARE BASED ON THE FOLLOWING

LOT LINE ADJUSTMENT MAP PREPARED FOR DUCKS UNLIMITED, INC.DATED: 12/27/2017; LAST REVISED: 2/28/2018

PREPARED BY: LAFAVE, WHITE & McGIVERN, L.S., P.C.RECORDED IN THE JEFFERSON COUNTY CLERK'S OFFICE

ON MARCH 26, 2018 AS MAP NO. 6969

MAP OF LAND SURVEYED FOR DUCKS UNLIMITED, INC.DATED: 12/27/2017; REVISED: 1/23/2018

PREPARED BY: LAFAVE, WHITE & McGIVERN, L.S., P.C.

PROTECTEDLAND

PHASE 1


LICENSED PROFESSIONAL ENGINEER, ARCHITECT, LANDSCAPE ARCHITECT, OR LAND SURVEYOR, TO

ALTER THIS DOCUMENT IN ANY WAY. IF AN ITEM BEARING THE STAMP OF A LICENSED PROFESSIONAL IS

ALTERED, THE DOCUMENT AND INCLUDE THE NOTATION "ALTERED BY" FOLLOWED BY THEIR SIGNATURE,

THE DATE OF SUCH ALTERATION, AND A SPECIFIC DESCRIPTION OF THE ALTERATION.

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

PROTECTEDLAND

EXISTING MAJOR CONTOUR (5' INTERVAL)

PROPERTY BOUNDARY

PHASE 1 LIMIT (APPROXIMATE; ACTUAL LIMIT IS

COINCIDENT WITH CONSERVATION EASEMENT)

CONSERVATION EASEMENT BOUNDARY

(COINCIDENT WITH PROPERTY LINE EXCEPT AT

EXCLUSION AREAS)

MW-3

MW-1

MW-2

1A

5

3

4

8

7

6

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig4-

Site

Pla

n.dw

g L

AYO

UT:

4

SAVE

D: 3

/8/2

019

9:59

AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

9:59

AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-4

RD-Fig4-Site Plan.dwg

B0010930.0000.00004

FOR PERMIT

SIT

E PL

AN

GRAPHIC SCALE

1 inch = feet

0 1000250 500125

250

250

NOTES

1. BASEMAP AND TOPOGRAPHIC INFORMATION BASED ON A COMBINATION OF STATE AERIAL LIDARDATA AND FIELD SURVEY PERFORMED BY LAFAVE, WHITE & MCGIVERN, L.S., P.C. AUGUST 8TH2018 THROUGH AUGUST 16TH 2018.

2. THE HORIZONTAL AND VERTICAL ORIENTATION FOR THIS PROJECT WAS ESTABLISHED BYUTILIZING REAL-TIME GPS EQUIPMENT REFERENCED TO THE NEW YORK STATE DEPARTMENT OFTRANSPORTATION CONTINUAL OPERATING REFERENCE STATION NETWORK (NYSNET),WATERTOWN CORS ARP.

3. CONTOURS SHOWN HEREON WERE GENERATED FROM A COMBINATION OF FIELD SURVEY INCERTAIN AREAS AND NEW YORK STATE LIDAR DATA IN OTHERS. THE LIDAR WAS DOWNLOADEDFROM NEW YORK STATE AND WAS UTILIZED TO GENERATE A 25-FOOT GRID THAT WAS USED TOCREATE THE CONTOURS SHOWN HEREON. IN THE AREAS WHERE THE CONTOURS WEREGENERATED EXCLUSIVELY FROM LIDAR DATA, NO PLANIMETRIC FEATURES WERE TAKEN INTOCONSIDERATION AND THEREFORE THE CONTOURS SHOULD BE CONSIDERED AS APPROXIMATE.

4. SEE DETAIL 4 ON SHEET 10 FOR TILE DRAIN EXPLORATION DETAIL AT DIKE LOCATIONS. FOROTHER LOCATIONS WHERE TILE IS ENCOUNTERED, A MINIMUM OF TEN LINEAR FEET OF TILESHALL BE REMOVED, EXTENDING 5 FEET UPSLOPE AND 5 FEET DOWNSLOPE OF THE POINTWHERE IT WAS ENCOUNTERED.

EXCLUSION AREA/PARKING AREA

��

WELL NO. NORTHING EASTINGELEVATION(EXISTING GRADE)

AVERAGE WATERLEVEL (ft.)

MW 1 1,516,251.71 1,023,932.94 439.60 437.50MW 2 1,515,863.19 1,023,394.35 436.20 434.56MW 3 1,517,295.21 1,023,698.49 413.30 409.71

UNIT WR-4(SCRAPE)

UNIT WR-3(SCRAPE)

UNIT WR-2(EMBANKMENT)



UNIT WR-1(SCRAPE)






UNIT WR-6(POTHOLE)

LEGEND

MW-1

401

405 EXISTING MAJOR CONTOUR (5' INTERVAL)

EXISTING MINOR CONTOUR (1' INTERVAL)

PROPOSED FINAL GRADE CONTOUR (1' INTERVAL)

PROPOSED GRADE BREAK

EXISTING TREE LINE

EXISTING FENCE

LIMIT OF FIELD SURVEY

CONSERVATION EASEMENT BOUNDARY (COINCIDENT WITH�

PROPERTY LINE EXCEPT AT EXCLUSION AREAS)

PROPERTY BOUNDARY

ROAD CENTERLINE

PHASE 1 LIMIT (APPROXIMATE; ACTUAL LIMIT IS COINCIDENT�

WITH CONSERVATION EASEMENT)

UTILITY POLE

EXISTING MONITORING WELL

OVERHEAD UTILITY LINES

APPROXIMATE SUSPECTED FIELD TILE LOCATION

SOIL BORING LOCATION

FULL SERVICE LEVEL (FSL)

��*��!��$+

GRADING AREA

APPROXIMATE EXCESS CUT MATERIAL PLACEMENT LOCATION�

PROPOSED WATER CONTROL STRUCTURE

EXISTING DELINEATED WETLAND

TILE DRAIN EXPLORATION TRENCH (SEE DETAIL 4 ON SHEET 10)

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

OPENWATER

SOIL BORINGSSOIL BORING #1A ELEV. 410.40"-8" CLAY LOAM (10YR 3/2;REDOX ~5% -10YR 3/2) [TOPSOIL]8"-16" CLAY (10YR 5/2; REDOX ~20% - 10 YR 3/2)16" HAND AUGER REFUSAL ON CLAY LAYER

SOIL BORING #3 ELEV. 412.20"-7.5" SILTY LOAM (10YR 3/2; REDOX 0%) [TOPSOIL]7.5"-24" CLAY (10YR 5/2 ; REDOX ~5% - 5YR 4/6)24" HAND AUGER REFUSAL ON CLAY LAYER

SOIL BORING #4 ELEV. 440.30"-7" CLAY LOAM (10YR 3/2; REDOX~5% - 5YR 4/6) [TOPSOIL]7"-20" CLAY (10YR 5/2; REDOX ~15% - 5YR 4/6)20" HAND AUGER REFUSAL ON CLAY LAYER

SOIL BORING #5 ELEV. 437.10"-6" CLAYEY LOAM (10YR 4/2; REDOX ~1% - 5YR 4/6) [TOPSOIL]6"-24" CLAY (10YR 5/2; TRACE MOTTLING)24" HAND AUGER REFUSAL ON CLAY LAYER

SOIL BORING #6 ELEV. 437.90"-8" SANDY LOAM (10YR 3/2; REDOX ~10% - 5YR 4/6) [TOPSOIL]8"-25" SAND (10YR 4/3; REDOX ~3-% - 5YR 4/6)25" HAND AUGER REFUSAL ON CLAY LAYER

SOIL BORING #7 ELEV. 437.10"-8.5" CLAY LOAM (10YR 3/2; REDOX ~5% - 5YR 4/6) [TOPSOIL]8.5"-20" CLAY (10YR 4/3; REDOX ~15% - 5YR 4/6)20" HAND AUGER REFUSAL

SOIL BORING #8 ELEV. 437.40"-8" LOAMY CLAY(10YR 3/2; REDOX ~7% - 5YR 4/6) [TOPSOIL]8"-24" SAND (10YR 6/6; REDOX ~20% - 5YR 4/6)24" HAND AUGER REFUSAL ON CLAY LAYER

BORINGS WERE PROGRESSED WITH A HAND AUGER. MATERIAL CLASSIFICATIONS ANDOBSERVATIONS WERE MADE DURING THE SUBSURFACE EXPLORATION AT THE SITE ANDARE NOT BASED ON LABORATORY TEST DATA. CONDITIONS BETWEEN LOCATIONSEXPLORED MAY DIFFER FROM THE CONDITIONS DESCRIBED ON THESE PLANS.

TILE EXPLORATION TRENCHES(SEE NOTE 4)

025

0+000+

250+500+

751+001+

251+501+

752+002+

252+502+

753+00

3+25

MW-1

UNIT WR-1 (EMBANKMENT)TOP OF DIKE ELEV. = 440.5LENGTH = 303 FT.FSL ELEVATION = 439.5FSL AREA = 7.67 AC

PROPOSED BORROW,14" TOTAL CUT (TOP 6"TOPSOIL TO BEREPLACED), 6:1 SIDESLOPE TO EXISTINGGRADE

5

4

8

7

SRR-1PROPOSED WATER CONTROL STRUCTURE(INSTALL AGRI-DRAIN AND PIPESEE SHEETS 10 & 11)

PROPOSED SPILLWAY # 1ELEV. 440.0(SEE DETAIL 2 SHEET 11)

0+00 1+00 2+00 3+00

440 440

435 435

STA: 0+00.00ELEV: 440.5

STA: 3+03.11ELEV: 440.5

PROPOSED AGRI-DRAINWATER CONTROL STRUCTURE (STR-1)

PROPOSEDTOP OF DIKE

EXISTING GRADE

STRIP 6" OF TOPSOIL ANDSTOCKPILE FOR REUSE.PROOF ROLL CUT SURFACE PRIORTO EMBANKMENT CONSTRUCTION.

NOTE: STRIP 6" OF TOPSOIL ANDSTOCKPILE. RESPREAD 4-6" THICK.

ELEV. 440.0

12'

14

BOTTOM CLAY KEY(SEE NOTE 3)

-40 -20 CL 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480 500 520 540 560 580 600 620 640 660 680 700 720 740 760 780 800 820 840 860 880 900 920 940 960 980 1000 1020 1040 1060 1080 1100

436 436

440 440

444 444

EXISTING GRADE

PROPOSEDFINAL GRADE FSL ELEV. 439.5

12'FSL ELEV. 439.5

6

448 448

1

14

RELOCATEDCUT MATERIAL PROPOSED

BOTTOM OF CUT

PROPOSEDBOTTOM OF CUT

PROPOSEDFINAL GRADE

RELOCATEDCUT MATERIAL

STRIP 6" TOPSOIL AND STOCKPILE (STRIPONLY TO FINAL GRADE WHERE FINAL GRADE

IS LESS THAN 6" BELOW EXISTING GRADE)

TYPICAL DIKE DETAIL(SEE DETAIL � ON SHEET 10)

CLAY KEY(SEE NOTE 3)

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig5-

Parti

al P

lans

.dw

g L

AYO

UT:

5

SAVE

D: 3

/8/2

019

11:1

2 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-5

RD-Fig5-Partial Plans.dwg

B0010930.0000.00004

UN

IT W

R-1

AN

D W

R-6

PLAN

AN

D P

RO

FILE

UNIT WR-1 EMBANKMENT PROFILE

WR-1

WR-1

10X VERTICAL EXAGGERATION

UNIT WR-1 SECTION10X VERTICAL EXAGGERATION

UNIT WR-1 (SCRAPE)BOTTOM OF SCRAPE ELEV. = VARIESMAXIMUM SCRAPE DEPTH = 2.02 FTBOTTOM OF SCRAPE AREA = 3.56 AC






LEGEND

MW-1

401



PROPOSED FINAL GRADE CONTOUR (1' INTERVAL)�


EXISTING TREE LINE

EXISTING FENCE



PROPERTY BOUNDARY






�� (SEE DETAIL 3 ON SHEET 10)

GRADING AREA

APPROXIMATE EXCESS CUT MATERIAL PLACEMENT LOCATION

UNIT WR-6(POTHOLE, SEE DETAIL 5ON SHEET 10)BOTTOM OF POTHOLEELEV. 435.5(TOP ELEVATION VARIES)

APPROXIMATE EXCESS CUTMATERIAL PLACEMENT AREA(SEE NOTE 1)

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

GRAPHIC SCALE

1 inch = feet

0 400100 20050

100

100

1 inch = feet

0 30 6015

30

30

HORIZONTAL SCALE

1 inch = feet

0 3 61.5

3

3

VERTICAL SCALE

1 inch = feet

0 40 8020

40

40

HORIZONTAL SCALE

1 inch = feet

0 4 82

4

4

VERTICAL SCALE

NOTES�� TOP ELEVATION OF EXCESS PLACEMENT AREAS IS�

APPROXIMATE AND ALLOWED TO VARY IN FIELD. EXCESS�CUT MATERIAL AND POTHOLE AREAS ONLY.

�� ACTUAL CUT DEPTH IN PROPOSED BORROW AREA MAY�VARY AS NEEDED TO OBTAIN NECESSARY MATERIAL�QUANTITY FOR EMBANKMENT CONSTRUCTION. ESTIMATED�CUT DEPTH ASSUMES 20% VOLUME REDUCTION DURING�COMPACTION.

�� DEPTH OF CLAY KEY SHOWN ON THIS SHEET IS�APPROXIMATE. ACTUAL DEPTH TO BE DETERMINED IN�FIELD BASED ON DEPTH TO CLAY SOILS AND DETAIL 2 ON�SHEET 10.

�� LOCALIZED GRADING, NOT DEPICTED ON THIS DRAWING,�MAY BE NECESSARY TO FACILITATE AGRIDRAIN PIPE�OUTLET CONFIGURATION. SEE DETAIL 1 ON SHEET 10 FOR�REQUIRED OUTLET CONFIGURATION.

401

405

APPROXIMATE EXCESS CUTMATERIAL PLACEMENTAREA (SEE NOTE 1)

LOCALIZED GRADINGAT AGRIDRAIN OUTLETS(SEE NOTE 4)

FOR PERMIT

PROPOSED WATER CONTROL STRUCTURE(SEE SHEETS 10 AND 11)


TILE DRAIN EXPLORATION TRENCH(SEE DETAIL 4 ON SHEET 10)

CUT

FILL

TOPSOIL

CLAY KEY

0+00

0+25

0+50

0+75

1+00

1+25

1+50

1+75

2+00

2+25

2+502+75

MW-2

UNIT WR-2 (EMBANKMENT)TOP OF DIKE ELEV. = 437.0

LENGTH = 257 FTFSL ELEVATION = 436.0

FSL AREA = 0.55 AC

PROPOSED BORROW, 14" TOTALCUT (TOP 6" TOPSOIL TO BEREPLACED), 6:1 SIDE SLOPE TOEXISTING GRADE

8

7

PROPOSED SPILLWAY # 2ELEV. 436.5

(SEE DETAIL 2 SHEET 11)

0+00 1+00 2+00 3+00

435 435

440 440

STA: 0+00.00ELEV: 437.0

STA: 2+57.42ELEV: 437.0

PROPOSED AGRI-DRAINWATER CONTROL STRUCTURE (STR-2) PROPOSED

TOP OF DIKE

EXISTING GRADE STRIP 6" OF TOPSOIL ANDSTOCKPILE. PROOF ROLL CUTSURFACE PRIOR TOEMBANKMENT CONSTRUCTION.

NOTE: STRIP 6" OF TOPSOIL AND STOCKPILE. RESPREAD 4-6" THICK.

ELEV. 436.5

12'

14

430 430

BOTTOM CLAY KEY(SEE NOTE 2)

-40 -20 CL 20 40 60 80 100 120 140 160 180 200 220 240

432 432

436 436

440 440

4:1 4:1

EXISTING GRADE

6:1

12'

PROPOSEDFINAL GRADE FSL ELEV. 436.0



STRIP 6" OF TOPSOILAND STOCKPILE



Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig5-

Parti

al P

lans

.dw

g L

AYO

UT:

6

SAVE

D: 3

/8/2

019

11:1

2 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-6


B0010930.0000.00004

UN

IT W

R-2

PLAN

AN

D P

RO

FILE

GRAPHIC SCALE

1 inch = feet

0 24060 12030

60

60


WR-2

WR-2








LEGEND

401

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

GRAPHIC SCALE

1 inch = feet

0 12030 6015

30

30

1 inch = feet

0 15 307.5

15

15

HORIZONTAL SCALE

1 inch = feet

0 7.5 153.75

7.5

7.5

VERTICAL SCALE

1 inch = feet

0 30 6015

30

30

HORIZONTAL SCALE

1 inch = feet

0 3 61.5

3

3

VERTICAL SCALE

STR-2PROPOSED WATER CONTROL STRUCTURE(INSTALL AGRI-DRAIN AND PIPESEE SHEETS 10 & 11)

401








��*SEE DETAIL 3 ON SHEET 10)

GRADING AREA



TILE DRAIN EXPLORATION TRENCH (SEE DETAIL 4 ON SHEET 10)�

CUT

FILL

TOPSOIL

CLAY KEY

NOTE1. ACTUAL CUT DEPTH IN PROPOSED BORROW AREA MAY

VARY AS NEEDED TO OBTAIN NECESSARY MATERIALQUANTITY FOR EMBANKMENT CONSTRUCTION.ESTIMATED CUT DEPTH ASSUMES 20% VOLUMEREDUCTION DURING COMPACTION.

2. DEPTH OF CLAY KEY SHOWN ON THIS SHEET ISAPPROXIMATE. ACTUAL DEPTH TO BE DETERMINED INFIELD BASED ON DEPTH TO CLAY SOILS AND DETAIL 2ON SHEET 10.

3. LOCALIZED GRADING, NOT DEPICTED ON THISDRAWING, MAY BE NECESSARY TO FACILITATEAGRIDRAIN PIPE OUTLET CONFIGURATION. SEE DETAIL 1ON SHEET 10 FOR REQUIRED OUTLET CONFIGURATION.

LOCALIZED GRADINGAT AGRIDRAIN OUTLETS(SEE NOTE 3)

FOR PERMIT

MW-2

6

0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 380 400 420 440 460 480 500 520 540 560 580 600

432 432

436 436

440 440

444 444

448 448


PROPOSEDFINAL GRADE


EXISTING WETLAND


STRIP 6" OF TOPSOIL AND STOCKPILE(STRIP ONLY TO FINAL GRADE WHEREFINAL GRADE IS LESS THAN 6" BELOWEXISTING GRADE)

EXISTINGGRADE

620 640

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig5-

Parti

al P

lans

.dw

g L

AYO

UT:

7

SAVE

D: 3

/8/2

019

11:1

2 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-7


B0010930.0000.00004

UN

IT W

R-3

PLAN

AN

D P

RO

FILE

GRAPHIC SCALE

1 inch = feet

0 24060 12030

60

60

APPROXIMATE EXCESSCUT MATERIAL

PLACEMENT AREA(SEE NOTE 1)


UNIT WR-3B (SCRAPE)BOTTOM OF SCRAPE ELEV. = VARIESMAXIMUM SCRAPE DEPTH = 1.75 FTBOTTOM OF SCRAPE AREA = 1.40 AC

UNIT WR-3A (SCRAPE)BOTTOM OF SCRAPE ELEV. = VARIESMAXIMUM SCRAPE DEPTH = 2.40 FTBOTTOM OF SCRAPE AREA = 0.91 AC

WR-3

WR-3






LEGEND

MW-1

401





EXISTING TREE LINE

EXISTING FENCE

CONSERVATION EASEMENT BOUNDARY (COINCIDENT WITHPROPERTY LINE EXCEPT AT EXCLUSION AREAS)

PROPERTY BOUNDARY

UTILITY POLE



WATER SURFACE


GRADING AREA



ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

NOTE: STRIP 6" OF TOPSOIL ANDSTOCKPILE. RESPREAD 4-6" THICK.

1 inch = feet

0 30 6015

30

30

HORIZONTAL SCALE

1 inch = feet

0 6 123

6

6

VERTICAL SCALE

401

405

NOTES1. TOP ELEVATION OF EXCESS PLACEMENT AREAS IS

APPROXIMATE AND ALLOWED TO VARY IN FIELD. EXCESSCUT MATERIAL AND POTHOLE AREAS ONLY.

CUT

FILL

TOPSOIL

FOR PERMIT

MW-2

0 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300

436 436

440 440

444 444

448 448

16

EXISTING WETLAND Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig5-

Parti

al P

lans

.dw

g L

AYO

UT:

8

SAVE

D: 3

/8/2

019

11:1

2 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-8


B0010930.0000.00004

UN

IT W

R-4

PLAN

AN

D P

RO

FILE

WR-4

WR-4

UNIT WR-4 SECTION








LEGEND

MW-1

401





EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY

UTILITY POLE






GRADING AREA




PROPOSEDFINAL GRADE

EXISTING GRADE

STRIP 6" OF TOPSOIL AND STOCKPILE(STRIP ONLY TO FINAL GRADE WHEREFINAL GRADE IS LESS THAN 6" BELOWEXISTING GRADE)

APPROXIMATE EXCESS CUTMATERIAL PLACEMENT AREA

(SEE NOTE 1)

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y


GRAPHIC SCALE

1 inch = feet

0 24060 12030

60

60

1 inch = feet

0 15 307.5

15

15

HORIZONTAL SCALE

1 inch = feet

0 7.5 153.75

7.5

7.5

VERTICAL SCALE

401

405

UNIT WR-4 (SCRAPE)BOTTOM OF SCRAPE ELEV. = VARIESMAXIMUM SCRAPE DEPTH = 2.90 FTBOTTOM OF SCRAPE AREA = 0.68 AC

NOTES1. TOP ELEVATION OF EXCESS PLACEMENT AREAS IS

APPROXIMATE AND ALLOWED TO VARY IN FIELD. EXCESSCUT MATERIAL AND POTHOLE AREAS ONLY.

CUT

FILL

TOPSOIL

FOR PERMIT

0+00

0+25

0+50

0+75

1+00

1+25

1+50

1+75

2+00

2+25 2+50

2+75

3+00

3+25

3+50

3+75

4+00

4+25

4+50

4+75

5+00

5+25

5+50

5+75

6+00

MW-3

PROPOSED BORROW, 16" TOTAL CUT(TOP 6" TOPSOIL TO BE REPLACED),6:1 SIDE SLOPE TO EXISTING GRADE

1A

3

STR-3PROPOSED WATER CONTROL STRUCTURE(INSTALL AGRI-DRAIN AND PIPESEE SHEETS 10 & 11)

PROPOSED SPILLWAY # 3ELEV. 411.0(SEE DETAIL 2 SHEET 11)

0+00 1+00 2+00 3+00 4+00 5+00 6+00

410 410

415 415STA: 0+00.00ELEV: 411.5

STA: 5+73.68ELEV: 411.5

PROPOSED AGRI-DRAINWATER CONTROL STRUCTURE (STR-3)

PROPOSEDTOP OF DIKE

EXISTING GRADE

STRIP 6" OF TOPSOIL AND STOCKPILE.PROOF ROLL CUT SURFACE PRIOR TOEMBANKMENT CONSTRUCTION.


ELEV:411.0

BOTTOM CLAYKEY (SEE NOTE 2)

-20 CL 20 40 60 80 100 120 140 160 180 200 220 240 260 280

408 408

412 412

416 416

EXISTING GRADE

6:1

12' PROPOSEDFINAL GRADE FSL ELEV. 410.5



STRIP 6" OF TOPSOIL AND STOCKPILE (STRIPONLY TO FINAL GRADE WHERE FINAL GRADEIS LESS THAN 6" BELOW EXISTING GRADE)4 (TYP.)

1



Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig5-

Parti

al P

lans

.dw

g L

AYO

UT:

9

SAVE

D: 3

/8/2

019

11:1

2 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-9


B0010930.0000.00004

UN

IT W

R-5

PLAN

AN

D P

RO

FILE

GRAPHIC SCALE

1 inch = feet

0 24060 12030

60

60


WR-5

WR-5

UNIT WR-5 (EMBANKMENT)TOP OF DIKE ELEV. = 411.5LENGTH = 574 FTFSL ELEVATION = 410.5FSL AREA = 1.27 AC







LEGEND

MW-1

401

401

405

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

1 inch = feet

0 15 307.5

15

15

HORIZONTAL SCALE

1 inch = feet

0 7.5 153.75

7.5

7.5

VERTICAL SCALE

1 inch = feet

0 50 10025

50

50

HORIZONTAL SCALE

1 inch = feet

0 5 102.5

5

5

VERTICAL SCALE






EXISTING TREE LINE



PROPERTY BOUNDARY

EDGE OF PAVEMENT

UTILITY POLE





�� (SEE DETAIL 3 ON SHEET 10)

GRADING AREA

PROPOSED WATER CONTROL STRUCTURE (SEE SHEETS 10 AND 11)�


TILE DRAIN EXPLORATION TRENCH (SEE DETAIL 4 ON SHEET 10)�

CUT

FILL

TOPSOIL

CLAY KEY

NOTE1. ACTUAL CUT DEPTH IN PROPOSED BORROW

AREA MAY VARY AS NEEDED TO OBTAINNECESSARY MATERIAL QUANTITY FOREMBANKMENT CONSTRUCTION. ESTIMATEDCUT DEPTH ASSUMES 20% VOLUMEREDUCTION DURING COMPACTION.

2. DEPTH OF CLAY KEY SHOWN ON THIS SHEETIS APPROXIMATE. ACTUAL DEPTH TO BEDETERMINED IN FIELD BASED ON DEPTH TOCLAY SOILS AND DETAIL 2 ON SHEET 10.

12'

FOR PERMIT

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig10

-Det

ails

1.dw

g L

AYO

UT:

10

SAV

ED: 3

/8/2

019

11:1

3 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-10

RD-Fig10-Details1.dwg

B0010930.0000.00004

FOR PERMIT

DET

AIL

S-1






ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

1

3

7

6

2

4

5

R

STRUCTURE SIZING CHART

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig10

-Det

ails

1.dw

g L

AYO

UT:

11

SAV

ED: 3

/8/2

019

11:1

3 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-11


B0010930.0000.00004

FOR PERMIT

DET

AIL

S-2






ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

1

2

OPENWATER

WETLAND 23

WETLAND 1

WETLAND 10

WETLAND 9

WETLAND 30

WETLAND 8

WETLAND 15

WETLAND 13

WETLAND 14WETLAND 16

WETLAND 18

WETLAND 29

WETLAND 22

WETLAND 25

WETLAND 26

WETLAND 7

WETLAND 5

WETLAND 6

WETLAND 23

WETLAND 20

WETLAND 4

WETLAND 3

WETLAND 28

WETLAND 31

DPU14

DPU12

DPU15

DPU19DPU6DPU13

DPU11 DPU18

DPU17

DPU16

DPU1

DPU5

DPU4

DPU3

DPU2DPU20

DPU7

DPU9

DPU10

DPU8

DPU21

DPW18

DPW17

DPW13DPW14

DPW19

DPW16

DPW15DPW27

DPW7 DPW5DPW6

DPW4

DPW3

DPW2 DPW28

DPW26DPW29

DPW12

DPW22

DPW25

DPW23

DPW24

DPW21DPW20

DPW1

DPW31

DPW8

DPW10

DPW11

DPW9

DPW30

WETLAND 11

WETLAND17

WETLAND27

WETLAND19

WETLAND2

WETLAND24

WETLAND 21

WETLAND 12

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

12-W

L D

elin

eatio

n.dw

g L

AYO

UT:

12

SAV

ED: 3

/8/2

019

12:5

0 PM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

12:5

0 PM

BY

: SAR

TOR

I, KA

THER

INE



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-12

RD-Fig12-WL Delineation.dwg

B0010930.0000.00004

FOR PERMIT






LEGEND

401




EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY


PHASE 1 LIMIT (APPROXIMATE; ACTUAL LIMIT IS COINCIDENTWITH CONSERVATION EASEMENT)

UTILITY POLE

UPLAND DATA POINT

WETLAND DELINEATION DATA POINT


X

WET

LAND

DEL

INEA

TIO

N-�

?� �

E

DD

Y RO

AD I

N-LI

EU F

EE S

ITE

-�PH

ASE

1W

ESTE

RN S

T. L

AWRE

NCE�

��

SERV

ICE

AREA

THER

ESA,

JEF

FERS

ON

COUN

TY, N

Y

401

GRAPHIC SCALE

1 inch = 600 feet

600 120060 6003001200

DPU10

DPW11

OPENWATER

WETLAND 23

MW-3

MW-1

MW-2

WETLAND 1

WETLAND 10

WETLAND 9

WETLAND 8

WETLAND 20

WETLAND 31

DPU1

DPU7

DPU9

DPU10

DPU8

DPW1

DPW31

DPW8

DPW10

DPW11

DPW9

WETLAND 11

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig12

-WL

Del

inea

tion.

dwg

LAY

OU

T: 1

3 S

AVED

: 3/8

/201

9 2:

24 P

M

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 2:

25 P

M

BY: K

AMBL

E, D

EVES

H



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-13


B0010930.0000.00004

FOR PERMIT

WET

LAN

D D

ELIN

EATI

ON

-1






LEGEND

401



PROPOSED FINAL GRADE CONTOUR (1' INTERVAL)�

EXISTING TREE LINE

EXISTING FENCE



PROPERTY BOUNDARY


PHASE 1 LIMIT (APPROXIMATE; ACTUAL LIMIT IS COINCIDENT�

WITH CONSERVATION EASEMENT)


UTILITY POLE

UPLAND DATA POINT



X

GRAPHIC SCALE

1 inch = feet

0 800200 400100

200

200

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

WETLANDS EXTENDING OFF OF THE PAGE

WETLANDS 20, 21� AND 23 EXTEND ONTO SHEET 13.

WETLANDS EXTENDING OFF OF THE PROPERTY

WETLANDS 1, 9, AND 11 CONTINUE OFF OF THE PROPERTY ACROSS THE�

SOUTHEASTERN BORDER.

401

MW-3

DPU10

DPW11

�� AREA CLASS

WETLAND 1 42.70 AC PSSWETLAND 8 0.24 AC PEMWETLAND 9 3.61 AC PEM

WETLAND 10 2.57 AC PEMWETLAND 11 0.55 AC PFOWETLAND 20 0.02 AC PSSWETLAND 21 0.53 AC PEMWETLAND 23 3.83 AC PEMWETLAND 31 2.14 AC PONDED

OPENWATER

WETLAND 23

WETLAND 1

WETLAND 15

WETLAND 13

WETLAND 14WETLAND 16

WETLAND 18

WETLAND 29

WETLAND 22

WETLAND 25

WETLAND 26

WETLAND 7

WETLAND 5

WETLAND 6

WETLAND 23

WETLAND 20

WETLAND 4

WETLAND 3

WETLAND 28

WETLAND 31

DPU14

DPU12

DPU15

DPU19DPU6

DPU13

DPU11DPU18

DPU17

DPU16

DPU1

DPU5

DPU4

DPU3

DPU2

DPU20

DPW18

DPW17

DPW13DPW14

DPW19

DPW16

DPW15

DPW27

DPW7

DPW5

DPW6

DPW4

DPW3

DPW2 DPW28

DPW26

DPW29

DPW12

DPW22

DPW25

DPW23

DPW24

DPW21

DPW20

DPW1

DPW31

WETLAND 17

WETLAND 27

WETLAND 19

WETLAND 2WETLAND 24

WETLAND 21

WETLAND 12

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

12-W

L D

elin

eatio

n.dw

g L

AYO

UT:

14

SAV

ED: 3

/8/2

019

12:5

0 PM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

12:5

1 PM

BY

: SAR

TOR

I, KA

THER

INE



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-14


B0010930.0000.00004

FOR PERMIT

WET

LAN

D D

ELIN

EATI

ON

-2






LEGEND

401



EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY


UTILITY POLE

UPLAND DATA POINT



X

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

GRAPHIC SCALE

1 inch = feet

0 1000250 500125

250

250

WETLANDS EXTENDING OFF OF THE PAGEWETLAND 1 IS SHOWN IN FULL ON SHEET 12.WETLANDS 21 AND 23 EXTEND ONTO SHEET 12.

WETLANDS EXTENDING OFF OF THE PROPERTYWETLANDS 5, 6, 7, AND 19 CONTINUE OFF OF THE PROPERTY ACROSS THENORTHERN BORDER.WETLAND 15 EXTENDS INTO THE EXCLUSION ZONE.WETLAND 28 CONTINUES OFF OF THE PROPERTY IN THE NORTHERN ANDSOUTHERN DIRECTIONS.WETLANDS 12 AND 16 EXTEND OFF OF THE PROPERTY LINE ACROSS THESOUTHERN BORDER.

AD

DED

WET

LAN

DS

She

etRev

isio

n

DPU10

DPW11

WETLAND 9

WETLAND 30

DPU8

DPU21

DPW9

DPW30

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig12

-WL

Del

inea

tion.

dwg

LAY

OU

T: 1

5 S

AVED

: 3/8

/201

9 1:

54 P

M

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 2:

21 P

M

BY: K

AMBL

E, D

EVES

H



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-15


B0010930.0000.00004

FOR PERMIT

WET

LAN

D D

ELIN

EATI

ON

-3






LEGEND

401



EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY

ROAD CENTERLINE


UTILITY POLE

UPLAND DATA POINT



X

GRAPHIC SCALE

1 inch = feet

0 800200 400100

200

200

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

WETLANDS EXTENDING OFF OF THE PAGE

WETLAND 9 IS SHOWN IN FULL ON SHEET 12.

WETLANDS EXTENDING OFF OF THE PROPERTY

WETLAND 30 CONTINUES OFF OF THE PROPERTY ACROSS

THE SOUTHWESTERN AND NORTHEASTERN BORDERS.

DPU10

DPW11

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

16-M

onito

ring

Plan

.dw

g L

AYO

UT:

16

SAV

ED: 3

/8/2

019

2:08

PM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

2:09

PM

BY

: SAR

TOR

I, KA

THER

INE



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-16

RD-Fig16-Monitoring Plan.dwg

B0010930.0000.00004

FOR PERMIT

PLAN

TIN

G P

LAN






LEGEND

401

401





EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY


UTILITY POLE


DIKE


PEM

PSS

PFO

UPLAND WARM SEASON GRASS

STANDARD SEED MIX

GRAPHIC SCALE

1 inch = feet

0 600150 30075

150

150


UNIT WR-4

UNIT WR-3

UNIT WR-2

UNIT WR-1

UNIT WR-5

UNIT WR-1

UNIT WR-6

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

OPENWATER

�� PEM 8.86

PSS 4.62

PFO 5.62

Standard Seed Mix 4.61Upland Warm Season Grass 33.07

��

Standard Upland Seed Mix March 1 toNovember 1 48 lbs / acre TBD TBD

Upland Warm Season Grass Mix April 1 to June 1 15 lbs / acre NA NA

Wetland Seed Mix March 1 toNovember 1 3 lbs / acre NA NA

Temporary Seed Mix March 1 - Nov 1 30 lbs / acre NA NA

NOTES:

1. NA = NOT APPLICABLE; TBD = TO BE DETERMINED.

2. CONTRACTOR RESPONSIBLE TO PROVIDE STANDARD UPLAND SEED MIX AND TEMPORARY

SEED CONSISTENT WITH NOTES ON SHEET 16.

3. DU TO PROVIDE UPLAND WARM SEASON GRASS MIX AND WETLAND SEED MIX.

4. SPECIES COMPOSITION FOR ALL SEED MIXES NOTED ABOVE ARE PROVIDED ON SHEET 16.

5. EXCESS SOIL FILL PLACEMENT AREAS SHALL BE SEEDED WITH STANDARD SEED MIX FOR

STABILIZATION PRIOR TO PLANTING UPLAND WARM SEASON GRASS MIX.

SEEDING SUMMARY

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig16

-Mon

itorin

g Pl

an.d

wg

LAY

OU

T: 1

7 S

AVED

: 3/8

/201

9 2:

07 P

M

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 2:

09 P

M

BY: K

AMBL

E, D

EVES

H



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-17


B0010930.0000.00004

FOR PERMIT

PLAN

TIN

G D

ETAIL

S A

ND

NO

TES

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

NOTES: SEEDING PEM, PSS, & PFO1. DUCKS UNLIMITED WILL PROVIDE THE WETLAND SEED MIX (MATERIAL SEED) FOR THE THE PEM, PSS, AND PFO AREAS TO BE SEEDED. THE APPLICATION RATE IS 3 LB/AC. IN DISTURBED AREAS

(AREAS REQUIRING GRADING), THE SEED MIX PROVIDED BY DU SHALL BE MIXED WITH ANNUAL RYE GRASS SEED AT A RATE OF 30 LB/AC. IN UNDISTURBED AREAS, THE SEED MIX MAY BE MIXEDWITH SAWDUST OR OTHER INERT FILLER APPROVED BY THE ENGINEER FOR EASE OF APPLICATION. DU WILL NOT PROVIDE THE RYE GRASS SEED OR INERT FILLER.

2. UNDISTURBED PEM, PSS, AND PFO AREAS TO BE SEEDED SHALL BE PREPARED BY HEAVY DISKING. ALL AREAS REQUIRING GRADING SHALL BE FINISHED TO THE GRADES SHOWN ON THE PLANSWITH TOPSOIL AS SPECIFIED, AND A MINIMUM OF 3 INCHES OF SURFACE SOIL SHALL BE IN A LOOSE CONDITION. THE COST OF HEAVY DISKING SOIL SHALL BE CONSIDERED INCIDENTAL ANDWILL BE INCLUDED IN THE COST BID FOR BID ITEM 402 SEEDING AND MULCHING.

3. UNDER ITEM 402 FOR PEM, PSS, AND PFO AREAS, THE CONTRACTOR IS RESPONSIBLE FOR PREPARING THE SOIL SURFACE, PROVIDING THE ANNUAL RYE GRASS SEED, BROADCASTING ALLSEED MATERIAL, AND STABILIZING DISTURBED SURFACES WITH MULCH (MULCH 2 TONS PER ACRE). REFER TO DU SPECIFICATION 402 FOR ADDITIONAL REQUIREMENTS. MULCH WILL NOT BEREQUIRED FOR AREAS RECEIVING ONLY HEAVY DISKING UNLESS ORDERED BY THE ENGINEER. WETLAND SEED MIX MUST BE BROADCAST; A NO-TILL DRILL WILL NOT BE ALLOWED FORAPPLICATION OF WETLAND SEED MIX.

4. REFER TO STANDARD SEED MIX SUMMARY FOR REQUIREMENTS AND ALSO SEE NOTE 15 ON SHEET 2 FOR ADDITIONAL INFORMATION.

SEED MIXES

NOTES:

1. PLANTINGS FOR PSS AND WILL BE AT LEAST 18 INCHES IN HEIGHT. SEEDLINGS

WILL BE A MIXTURE OF BARE ROOT PLANTS (75%) AND POTTED (25%).

TargetArea Common Name Scientific Name Wetland Indicator Status

Propagule Type

Quantity/Acre

AllWetland

Areas

fox sedge �� OBL

seed mix2��

��3��

shallow sedge �� OBL

hop sedge �� OBL

fringed sedge �� OBL

bristly sedge �� OBL

rice cutgrass '��"�� OBL

green bulrush �� OBL

swamp smartweed �� FACW

spotted Joe pye weed �� OBL

nodding beggartick �� FACW

soft rush .� �� OBL

PSS


bareroot/pott

ed

��4566��3��

buttonbush �� OBL



spicebush '� �� "�� FACW

swamp rose -�� OBL


PFO

red maple �� FAC

bareroot/pott

ed

��4566��3��


common hackberry �� FAC



American sycamore �� FACW

swamp white oak �� FACW

pussy willow �� FACW

black willow �� OBL


Grasslands

big bluestem � �� FACU

seed mix 15 lbs/acre PLSlittle bluestem ��"�� FACU

switchgrass �� FAC

indian grass �� FACU

Berms

creeping red fescue #�� FACU

seed mix78��

��3��

tall fescue �� FACU

perennial ryegrass '�� FACU

annual ryegrass '�� FACU

birdsfoot trefoil '�� FACU

OPENWATER

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

16-M

onito

ring

Plan

.dw

g L

AYO

UT:

18

SAV

ED: 3

/8/2

019

2:13

PM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

2:13

PM

BY

: SAR

TOR

I, KA

THER

INE



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-18


B0010930.0000.00004

FOR PERMIT

CRED

IT G

ENER

ATI

ON






LEGEND

401

401





EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY

50 METER SETBACK FROM ROAD


UTILITY POLE


DIKE

PARKING AREA

UNIT WR-4

UNIT WR-3

UNIT WR-2

UNIT WR-1

UNIT WR-5

UNIT WR-1

UNIT WR-6

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

CREDIT GENERATION

PEM REESTABLISHMENTAREA IN 50M - 1.17 ACAREA OUT 50M - 4.05 AC

PEM REHABILITATIONAREA IN 50M - 1.26 ACAREA OUT 50M - 2.33 AC

PEM PRESERVATIONAREA IN 50M - 0.00 ACAREA OUT 50M - 0.23 AC

PSS REESTABLISHMENTAREA IN 50M - 0.06 ACAREA OUT 50M - 3.18 AC

PSS REHABILITATIONAREA IN 50M - 0.00 ACAREA OUT 50M - 1.38 AC

PSS PRESERVATIONAREA IN 50M - 2.89 ACAREA OUT 50M - 40.24 AC

PFO REESTABLISHMENTAREA IN 50M - 0.08 ACAREA OUT 50M - 4.31 AC

PFO REHABILITATIONAREA IN 50M - 0.00 ACAREA OUT 50M - 1.22 AC

PFO PRESERVATIONAREA IN 50M - 0.00 ACAREA OUT 50M - 0.55 AC

UPLAND BUFFER REESTABLISHMENTAREA IN 50M - 6.62 ACAREA OUT 50M - 26.79 AC

UPLAND BUFFER PRESERVATIONAREA IN 50M - 2.41 ACAREA OUT 50M - 40.99 AC

WETLAND IMPACTAREA IN 50M - 0.00 ACAREA OUT 50M - 0.09 AC

PONDEDAREA IN 50M - 0.00 ACAREA OUT 50M - 2.14 AC

GRAPHIC SCALE

1 inch = feet

0 1000250 500125

250

250

50 METER SETBACKFROM ROAD

4

6W, 6E

7W, 7E

8

10

12

5W, 5E

2N, 2S

11

1

3

9

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig16

-Mon

itorin

g Pl

an.d

wg

LAY

OU

T: 1

9 S

AVED

: 3/8

/201

9 2:

07 P

M

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 2:

09 P

M

BY: K

AMBL

E, D

EVES

H



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-19


B0010930.0000.00004

FOR PERMIT

MO

NIT

ORIN

G P

LAN






LEGEND

401

401






PROPERTY BOUNDARY


PEM

PSS

PFO

UPLAND WARM SEASON GRASS

STANDARD SEED MIX

FUTURE PHOTO POINT LOCATION


UNIT WR-4

UNIT WR-3

UNIT WR-2

UNIT WR-1

UNIT WR-5

UNIT WR-1

UNIT WR-6

GRAPHIC SCALE

1 inch = feet

0 600150 30075

150

150

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

OPENWATER

SCALE : 1" = 40m

WATER

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

C:\B

IM\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

ANA

- DU

CKS

UN

LIM

ITED

\Edd

y R

oad

Miti

gatio

n\20

19\B

0010

930.

0000

.000

04\0

1-D

WG

\RD

-Fig

20-E

SCP.

dwg

LAY

OU

T: 2

0 S

AVED

: 3/8

/201

9 2:

46 P

M

ACAD

VER

: 23.

0S (L

MS

TEC

H)

PAG

ESET

UP:

----

PLO

TSTY

LETA

BLE:

----

PLO

TTED

: 3/8

/201

9 2:

46 P

M

BY: S

ARTO

RI,

KATH

ERIN

E



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-20

RD-Fig20-ESCP.dwg

B0010930.0000.00004

FOR PERMIT

ERO

SIO

N A

ND

SED

IMEN

TCO

NTR

OL

PLAN

STABILIZED CONSTRUCTION ACCESS (TYP.)(TO REMAIN AFTER CONSTRUCTION)

SOIL STOCKPILE AREA(215 LF SILT FENCE)

SILT FENCE(765 LF)

SILT FENCE(700 LF)


SILT FENCE (100 LF)

STABILIZEDCONSTRUCTION

ACCESS (TYP.)(TO REMAIN AFTER

CONSTRUCTION)






LEGEND

401

401





EXISTING TREE LINE

EXISTING FENCE


PROPERTY BOUNDARY


UTILITY POLE


DIKE

GRADING AREA


TEMPORARY ACCESS

STRAW BALE BACKED SILT FENCE(SEE DETAIL 3 ON SHEET 21)

STABILIZED CONSTRUCTION ACCESS(SEE DETAIL 2 ON SHEET 21)

SILT FENCE(SEE DETAIL 1 ON SHEET 21)


TEMPORARYACCESS

SILT FENCE (800 LF)STRAW-BALE BACKING(305 LF) (TYP. 4)

SILT FENCE (430 LF)STRAW-BALE BACKING (330 LF)

GRAPHIC SCALE

1 inch = feet

0 600150 30075

150

150

PARKING AREA

UNIT WR-4

UNIT WR-3

UNIT WR-2

UNIT WR-1

UNIT WR-5

UNIT WR-1

UNIT WR-6

ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y




SILT FENCE(335 LF)

SILT FENCE (835 LF)STRAW-BALE BACKING (370 LF)

SILT FENCE(915 LF)

SILT FENCE (470 LF)STRAW BALE BACKED(175 LF) (TYP.)

NOTES:

1. ANY AREAS DISTURBED BY THE CONTRACTOR THAT ARE NOT DENOTED ON THE PLANS(SUCH AS FOR STAGING OR ACCESS) SHALL BE STABILIZED WITH SEED AND MULCH ATNO ADDITIONAL COST.

��

SILT FENCE 6,425 LF

STRAW-BALE BACKING 1,180 LF

Rev

isio

nsBy

Dat

e

BIOLOGIST: JF (DU)

DRAWN BY:

SURVEYED BY:

DESIGNED BY:

PROJECT NUMBER:

DATE:

CAD FILE:



Rev

isio

nShe

et

GREA

T LA

KES

/ATL

AN

TIC R

EGIO

NAL

OFF

ICE

7322

NEW

MAN

BO

ULE

VARD

,BLD

G.

1 D

EXTE

R,

MIC

HIG

AN

48

130

(734

) 62

3-20

00w

ww

.duc

ks.o

rg

C:\U

sers

\dki

0065

3\O

neD

rive

- AR

CAD

IS\B

IM 3

60 D

ocs\

DU

CKS

UN

LIM

ITED

\ED

DY

RO

AD\2

018\

B001

0930

.000

0 00

004\

01-D

WG

\PH

ASE

1\R

D-F

ig10

-Det

ails

1.dw

g L

AYO

UT:

21

SAV

ED: 3

/8/2

019

11:1

3 AM

AC

ADVE

R: 2

3.0S

(LM

S TE

CH

) P

AGES

ETU

P: --

-- P

LOTS

TYLE

TABL

E: --

--PL

OTT

ED: 3

/8/2

019

11:3

2 AM

BY

: KAM

BLE,

DEV

ESH



083972State


JANUARY 2019

ARCADIS Project No.




NY

THOMAS STEINER

NWF

DK

JT

US-NY-222-2

GLARO-NY1-069-21


B0010930.0000.00004

FOR PERMIT

ERO

SIO

N C

ON

TRO

LD

ETAIL

S A

ND

NO

TES






ED

DY

RO

AD

IN

-LIE

U F

EE S

ITE

-PH

ASE

1W

ESTE

RN

ST.

LAW

REN

CE

SER

VIC

E AREA

THER

ESA,

JEFF

ERSO

N C

OU

NTY

, N

Y

1 2 3

SECTION ELEVATION

Appendix C. Notice of Mitigation Requirements

RECORD AND RETURN TO:WETLANDS AMERICA TRUST, INC.ONE WATERFOWL WAYMEMPHIS, TENNESSEE 38120

NOTICE OF MITIGATION REQUIREMENTS

1.01 In-Lieu Fee Program. DUCKS UNLIMITED, INC., a non-profit corporation organized under the laws of the District of Columbia, with an address of One Waterfowl Way, Memphis, Tennessee 38120, operates a New York In-Lieu Fee Program (“Program”) to provide a third-party, compensatory mitigation option for unavoidable impacts to waters of the United States (including both wetlands, streams and other aquatic resources). The Program was approved on September 28, 2012 by the Army Corps of Engineers under authority established by Section 404 of the Clean Water Act and Section 10 of the Rivers and Harbors Act (Buffalo District Permit No. 2010-00673).

1.02 Fee-Title Ownership. On 11 April 2017 Ducks Unlimited, Inc. and a non-profit corporation organized under the laws of the District of Columbia, with an address of One WaterfowlWay, Memphis, Tennessee 38120 (“Land Trust”), became the owner in fee simple ofapproximately 441.01 acres, more or less, of real property (“Property”) located in [Jefferson] County, New York, and more particularly described in an attached appendix.

1.03 Restoration Project. Ducks Unlimited, Inc. has developed and implemented a wetland restoration plan (“Project”) to restore and protect 145.61 acres, more or less, of wetland and associated upland habitat located on the Property to provide wetland mitigation credits under the Program.

1.04 Long-Term Protection. In accordance with requirements of the Program, Ducks Unlimited, Inc. shall establish long-term protection of the Project through the transfer of title to held by, entities such as non-profit conservation organizations or federal, tribal, state, or local resource agencies.

1.05 Notice Requirements. The Land Trust agrees to notify the NEW YORK AND BUFFALO DISTRICT ENGINEERS OF THE U.S. ARMY CORPS OF ENGINEERS, with an address of 1 Buffington Street, Watervliet Arsenal Building 10, Watervliet, New York 12189 and 1776 Niagara Street, Buffalo, New York 14207 (“District Engineer”), at least sixty (60) days in advance of transferring ownership of the Property. The Land Trust, and its successors and assigns, hereby agrees to be bound by requirements of the Program to ensure the long-term protection of the Project as described in Section 1.04. In the event title to the Property is transferred to an entity other than those described in Section 1.04, the Land Trust hereby agrees that its transfer of ownership shall be contingent upon recording at or prior to the transfer of ownership of the Property a conservation easement or other protection instrument that is approved by the District Engineer to ensure long-term protection of the Project.

1.06 Termination. The requirements of this Notice shall be satisfied at the time of transfer of title from the Land Trust to another entity as the requirements in Section 1.05 are met. This Notice shall automatically expire upon such transfer.

In witness whereof the Wetlands America Trust, Inc. has set its hand and seal this ___ day of, 2017.__________________________By: Earl H. GrochauIts: Assistant SecretaryDULY AUTHORIZED

STATE OF TENNESSEECOUNTY OF SHELBY

On this _____ day of, 2019, before me personally appeared Earl H. Grochau, to me personally known, who, being by me duly sworn did state that he is the Assistant Secretary of the corporation named in the foregoing instrument; and acknowledged said instrument to be the free act and deed of said corporation.

_________________________Notary PublicMy commission expires:

Appendix D. Cultural Resources Review

United States Department of the InteriorFISH AND WILDLIFE SERVICE

New York Ecological Services Field Office3817 Luker Road

Cortland, NY 13045-9385Phone: (607) 753-9334 Fax: (607) 753-9699

http://www.fws.gov/northeast/nyfo/es/section7.htm

In Reply Refer To: Consultation Code: 05E1NY00-2019-SLI-1138 Event Code: 05E1NY00-2019-E-03526 Project Name: Eddy Road Mitigation Site

Subject: List of threatened and endangered species that may occur in your proposed project location, and/or may be affected by your proposed project

To Whom It May Concern:

The enclosed species list identifies threatened, endangered, proposed and candidate species, as well as proposed and final designated critical habitat, that may occur within the boundary of your proposed project and/or may be affected by your proposed project. The species list fulfills the requirements of the U.S. Fish and Wildlife Service (Service) under section 7(c) of the Endangered Species Act (ESA) of 1973, as amended (16 U.S.C. 1531 et seq.). This list can also be used to determine whether listed species may be present for projects without federal agency involvement. New information based on updated surveys, changes in the abundance and distribution of species, changed habitat conditions, or other factors could change this list.

Please feel free to contact us if you need more current information or assistance regarding the potential impacts to federally proposed, listed, and candidate species and federally designated and proposed critical habitat. Please note that under 50 CFR 402.12(e) of the regulations implementing section 7 of the ESA, the accuracy of this species list should be verified after 90 days. This verification can be completed formally or informally as desired. The Service recommends that verification be completed by visiting the ECOS-IPaC site at regular intervals during project planning and implementation for updates to species lists and information. An updated list may be requested through the ECOS-IPaC system by completing the same process used to receive the enclosed list. If listed, proposed, or candidate species were identified as potentially occurring in the project area, coordination with our office is encouraged. Information on the steps involved with assessing potential impacts from projects can be found at: http:// www.fws.gov/northeast/nyfo/es/section7.htm

Please be aware that bald and golden eagles are protected under the Bald and Golden Eagle Protection Act (16 U.S.C. 668 et seq.), and projects affecting these species may require development of an eagle conservation plan (http://www.fws.gov/windenergy/

February 22, 2019

Appendix E. Threatened and Endangered Species Review

02/22/2019 Event Code: 05E1NY00-2019-E-03526 ��2

� �

eagle_guidance.html). Additionally, wind energy projects should follow the Services wind energy guidelines (http://www.fws.gov/windenergy/) for minimizing impacts to migratory birds and bats.

Guidance for minimizing impacts to migratory birds for projects including communications towers (e.g., cellular, digital television, radio, and emergency broadcast) can be found at: http:// www.fws.gov/migratorybirds/CurrentBirdIssues/Hazards/towers/towers.htm; http:// www.towerkill.com; and http://www.fws.gov/migratorybirds/CurrentBirdIssues/Hazards/towers/ comtow.html.

We appreciate your concern for threatened and endangered species. The Service encourages Federal agencies to include conservation of threatened and endangered species into their project planning to further the purposes of the ESA. Please include the Consultation Tracking Number in the header of this letter with any request for consultation or correspondence about your project that you submit to our office.

Attachment(s):

� Official Species List

02/22/2019 Event Code: 05E1NY00-2019-E-03526 ��1

� �

Official Species ListThis list is provided pursuant to Section 7 of the Endangered Species Act, and fulfills the requirement for Federal agencies to "request of the Secretary of the Interior information whether any species which is listed or proposed to be listed may be present in the area of a proposed action".

This species list is provided by:

New York Ecological Services Field Office3817 Luker RoadCortland, NY 13045-9385(607) 753-9334

02/22/2019 Event Code: 05E1NY00-2019-E-03526 ��2

� �

Project SummaryConsultation Code: 05E1NY00-2019-SLI-1138

Event Code: 05E1NY00-2019-E-03526

Project Name: Eddy Road Mitigation Site

Project Type: LAND - RESTORATION / ENHANCEMENT

Project Description: The 137 acre wetland mitigation site is part of a 441 acre property being protected by Ducks Unlimited. The site is located off of Eddy Road in the Town of Theresa, Jefferson County, NY. Plans include the restoration/ enhancement of 20 acres of wetlands within what is currently a hayfield. This will involve grading and berm construction, followed up by the planting of herbaceous and woody hydrophytes. The remainder of the field (33 acres) will be planted to warm season grasses.

Project Location:Approximate location of the project can be viewed in Google Maps: https:// www.google.com/maps/place/44.16068752435552N75.80652774083673W

Counties: Jefferson, NY

02/22/2019 Event Code: 05E1NY00-2019-E-03526 ��3

� �

Endangered Species Act SpeciesThere is a total of 2 threatened, endangered, or candidate species on this species list.

Species on this list should be considered in an effects analysis for your project and could include species that exist in another geographic area. For example, certain fish may appear on the species list because a project could affect downstream species.

IPaC does not display listed species or critical habitats under the sole jurisdiction of NOAA Fisheries , as USFWS does not have the authority to speak on behalf of NOAA and the Department of Commerce.

See the "Critical habitats" section below for those critical habitats that lie wholly or partially within your project area under this office's jurisdiction. Please contact the designated FWS office if you have questions.

1. NOAA Fisheries, also known as the National Marine Fisheries Service (NMFS), is an office of the National Oceanic and Atmospheric Administration within the Department of Commerce.

MammalsNAME STATUS

Indiana Bat Myotis sodalisThere is final critical habitat for this species. Your location is outside the critical habitat.Species profile: https://ecos.fws.gov/ecp/species/5949

Endangered

Northern Long-eared Bat Myotis septentrionalisNo critical habitat has been designated for this species.Species profile: https://ecos.fws.gov/ecp/species/9045

Threatened

Critical habitatsTHERE ARE NO CRITICAL HABITATS WITHIN YOUR PROJECT AREA UNDER THIS OFFICE'S JURISDICTION.

1

John FraserDucks Unlimited159 Dwight Park Circle, Suite 205Syracuse, NY 13209

Eddy Road Mitigation SiteRe:County: Jefferson Town/City: Theresa

Dear��raser:

206

Heidi KrahlingEnvironmental Review SpecialistNew York Natural Heritage Program

Sincerely,

March 19, 2019

In response to your recent request, we have reviewed the New York Natural Heritage Program database with respect to the above project.

Enclosed is a report of rare or state-listed animals and plants, and significant natural communities that our database indicates occur in the vicinity of the project site.

For most sites, comprehensive field surveys have not been conducted; the enclosed report only includes records from our database. We cannot provide a definitive statement as to the presence or absence of all rare or state-listed species or significant natural communities. Depending on the nature of the project and the conditions at the project site, further information from on-site surveys or other sources may be required to fully assess impacts on biological resources.

Our database is continually growing as records are added and updated. If this proposed project is still under development one year from now, we recommend that you contact us again so that we may update this response with the most current information.

The presence of the plants and animals identified in the enclosed report may result inthis project requiring additional review or permit conditions. For further guidance, and for information regarding other permits that may be required under state law for regulated areas or activities (e.g., regulated wetlands), please contact the NYS DEC Region 6 Office,Division of Environmental Permits��

New York Natural Heritage Program

��

�� !

Report on State-listed Animals

�� !"#$&�'��+�;��+<��=>?@J�XZ@�[[\@��

��

��&�;�&#&��;�(� #�!�-�'�'&��&;$;<��'&��&;$�,((,;�;�(�

]��

Ammodramus henslowii �!�� Breeding

��

�� "�� !

#�� & � ��<�� &�� &��=��"��?�� !

#�� =�� &��&��"��@ �� &��X�� !�� !��!��\��!��!��!��&�� ^`{`!��!

Page 1 of 13/19/2019

Appendix F. Default and Closure Provisions

Default

If the IRT determines that the Sponsor is in material default of any provision of the Instrument or an approved mitigation plan, the IRT, acting through the USACE, shall provide notice of the specific circumstances or actions which constitute a default(s) in writing to the Sponsor and providing a reasonable period of time to cure the default. If the Sponsor does not remedy the default or provide a remedial action plan acceptable to the IRT in a timely manner, the USACE may take appropriate action. Such actions may include, but are not limited to, suspending credit sales, decreasing available credits, directing funds to alternate locations, taking enforcement actions or terminating the Instrument. In the event that the DU-NY-ILF program is terminated, DU is responsible for fulfilling any remaining obligations for credits sold. Default closure procedures for either the entire ILF Instrument or a specific service area may proceed withinthirty (30) days upon written notification by either the Buffalo and New York District Engineers or Ducks Unlimited. In the event that either the ILF Instrument or a specific service area is closed, DU is responsible for fulfilling any remaining obligations for credits sold prior to closure unless the obligation is specifically transferred to another entity as agreed to by the District Engineer and DU. DU shall be reimbursed from the ILF program account for all costs incurred in fulfilling the remaining obligations. The Corps may direct DU to use these funds to purchase credits from another source of third-party mitigation or disburse funds to a governmental or non-profit natural resource management entity willing to undertake further compensation activities. The Corps itself cannot accept directly, retain, or draw upon those funds in the event of a default.

Instrument Closure Provisions

Any funds remaining in the program account after the mitigation obligations are satisfied must be used for the restoration and/or preservation of aquatic resources and associated upland buffers within the service area in which the funds reside unless otherwise approved by the District Engineer.

The final release of credits will take place once the IRT concurs that all the performancestandards have been met and the final wetland delineation has been verified. The final number ofmitigation credits will be based upon attainment of performance standards and a wetlands delineation completed by DU or its affiliates and verified by USACE following the final monitoring year. Final closure of the ILF Site will take place after all approved mitigation credits have been sold. DU shall continue to comply with the sale reporting requirements of the mitigation-banking instrument until such time as all credits have been sold. Should DU request the ILF Site be formally closed prior to sale of all released credits, the remaining unsold credits will be forfeited by the site and no further sales may occur.

Date post:	07-Sep-2020
Category:	Documents
Upload:	others
View:	1 times
Download:	0 times

Ducks Unlimited, Inc. Eddy Road ILF Site Plan · 2019. 3. 27. · The ILF Site is located at...

Documents