WETLAND RESOURCES of Eastern - South Dakota State University

Transcription

'.
WETLAND RESOURCES
of Eastern South Dakota
Rex A. Johnson & Kenneth F. Higgin s
South Dakota State University and the South Dakota
Cooperative Fish and Wildlife Research Unit
in cooperation with the South Dakota Dept. of Game, Fish and Parks,
the U.S. Environmental Protection Agency, and the U.S. Fish and Wildlife Service
National Wetlands Inventory
Acknowledgments
Many people contributed their time. expertise. Hnd labor to compiling this summary of eastern South Dakota's wetland
resources. The cooperation of the South Dakota Department of Game. Fish & Park!, (SDGF&P) staff. particularly George
Vandel. Dave Hamm. and Ron Fowler. was invaluable. South Dakota State University (SDSU) employees Mike Kjellsen.
Mike Estey. Todd Hoernemann. Dennis Hansen. Kevin Hop. Eugene Beckwith. Mike Broschart. Pete Bergmann. Mark
Dorhout. John Bien. Lisa Sausville. Terri Symens. Mary O·Neill. Janet Grillner. and others helped throughout this project.
The considerable assistance of U.S. Fish and Wildlife Service (USFWS) employees Charles Elliott. Lewis Cowardin. Ron
Reynolds. and Dan Cohan. as well as Linda Shaffer and Herman Rohinson of the National Wetlands Inventory. is gratefully
acknowledged. We are especially grateful to Mary Brashier. Terry Molengraaf. and Dennis Lundgren of South Dakota State
University for editing. designing. and printing this report.
SDGF&P funded digitization of Nationul Wetlund Inventory mups and data analysis (Federal Aid in Wildlife Restoration
Project No. W-114-R) through the South Dakota Cooperative Fish and Wildlife Research Unit in cooperation with the
USFWS; National Biological Service: U.S. Geological Survey. Biological Resources Division: SDGF&P. SDSU: and the
Wildlife Management Institute. Publication of this report was funded by SDGF&P and Region VIII of the U.S.
Environmental Protection Agency.
This publication may be cited a~:
Johnson. R.R. and K.F. Higgins. 1997. Wetland resources of eastern
South Dakota. Brookings: South Dakota State University. 102pp.
Extra copies may be obtained from:
Department of Wildlife and Fisheries Sciences
South Dakota State University. Box 21-l0B
Brookings. SD 57007
ISBN 0-9658936-1-8
WETLAND RESOURCES
OF EASTERN SOUTH DAKOTA
Rex R. Johnson
Dep1ll1111em of WiltiJife alld Fislraies Sciences
Sowl, Dakota State Ullil'ersity
Brookillgs. SD 57007
alltl
Kenneth F. Higgins
Assistam Lecuil'r
SOllth Dakota Cooperaril'e Fish alld lWldlife Research Ullit
U.S. Geological SlIn·e.'; Biological ResouR'('s Dil'isiofl
SOll1h Dakota Stale Uflil'eniry
Brookiflgs. SD 57007
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Foreword
The lIlere menliOIl of the v.ord "\',cl l:lI\d" in coffee
~ ho ps
and other gatherin g.
pl:Jcc~
un tile prairies today brings OUi emo-
lions and opin ion:. that run lite gamut from saving them all 10 dr.lining tho.:rn all.
To sOllle peop!..:. wh:1I we do wilh wellands has bt.-cn. and still i,_ a pcr~n:t l choice. a mailer of exercising individual righl!>
011 private prollCny. To olhers. wetlands arc community resourrCl> that provide \':tlucs Ihal touch all of SOCi!!l)'. They COIl lend thaI whm is done to anti aoou t \\cllimd.., is a community dLocision regardless o f owner..,hip. '-!ere-in lies the controwrsy
\\ c have expc ricm:cd 0\ CT wetlands on the prairie-a rCSIllIrec which provide!> SllCi!!lal bt..'IIC[ils. ye t is pri\':llcl y owned.
The owners o f pr.line wellands, li ke lrindowncr.. everyw here. are p{)~se~s i \' c !)f thcir rights and o ptions to make till' most of
their inveslmelll or inheritance. 1lley j ealously guard their right to detennine the falC of the resources the y o \\'n. Those
inte rested in tile public h!.:ndib of wetlands :Ire equally m01i \'at ~ d to ensure that wctl nnd v;lllles ;tre def~nded. Where this
debate wi ll lead is a mailer of ~iX'c ul atio ll .
Before Jandscilpc· lc"cl th: ci ~ iol1 s abollt land usc. and ill this cas~ we tland IbC. (;1Il ;t(h::q ll;l1e1 y he :lddrcssed. all parties
in volved will be bella equipped to defend their position if they b lOW the CX h:lll of Ihe resource . where it is. f;l CtorS of qU:lIity. and ~o m c thin g of the sodal inlere~t s in this resource.
Dr. J o hn ~on :tnd Dr. H ig~ in s have done a masterful job of bringing together a st'lh!·nf· the·.lrt inwntory of eastern South
DakOla \ wetl:md resources and have made comparisons of scvcml faclOrs of the nature of Ihe wetlands found in Ihe glaciated region of South Dakota. They h:l\"e also included in this paper a hi ~lO ry or" some of the .~OCi:l l and economic issues surroundi ng wet lands on the prni ri ~·s . wetlands usc and mi suse. and the issues that make lip the wetland contro\·crsics of the
region.
1I'(oliallcl ResUlf/"('''s of Eastem SOIl/II f)lIkota is an c~si' nti a l reference for tlJ()~c concerned about the futu re o f wetlamb and
wetland l>olic), in SOUlh Dakota and beyond. Anncd with the information cont ai ned in thi~ publicat ion. decision makers at
.. lIlc"c ls wi ll be infonncd on the number. size. and distribution Ol\\ct lands in C:l:.teOi SOUlh D:lkota . People \\'o rkin£ Oil
the landsr.::lpc! level or on :In lIIdlVldual owne rs hip le"el Wi ll find tillS ullIque publlcalloll a ,'al u:lble 1001 .
Carl R. Madsen
U.S. Fish and Wi ldli fe Service
Brookings . S.D.
The Carl Madsen estate includes wellands flom a1l 1hree CoI:"ardin. c/ af.
( 1979) systems lound in South Dakota: paustrine wetlands !ncl~dln~ an
11 acre restoration; Lake Campbell. a tacuSlrine wetland: and a nvanna
\~Q~aM,
-
Contents
Forword .................................................................................................................................................................................................................. .
Contents .................................................................................................................................................................................................................. ii
List of Tables ........................................................................................................................................................................................................ iii
List of Figures ...................................................................................................................................................................................................... iii
Executive Summary ............................................................................................................................................................................................ I
Introduction and Methods ................................................................................................................................................................................. 2
History of Wetland Drainage ................................................................................................................................................................ 3
The National Wetl.mds Inventory ........................................................................................................................................................ 5
Wetland Delineation Techniques ................................................................................................................................................ 7
Wetland GIS Development .................................................................................................................................................................... 8
Converting NWI-Delineated Wetlands to Basins .................................................................................................................. 9
Grid Creation for Spatial Analysis ............................................................................................................................................. 10
Results and Discussion .......................................................................... _.......................................................................................................... 10
Eastern South Dakota Wetlands and Deepwater Habitats ......................................................................................................... 10
Palustrine Wetlands .......................................................................................................................................................................... 10
System and Classes ................................................................................................................................................................. 10
Water Regimes .......................................................................................................................................................................... 10
Special Modifiers ..................................................................................................................................................................... 12
Lacustrine Wetlands and Deepwater Habitats ........................................................................................................................ 14
System and Subsystems ........................................................................................................................................................ 14
Classes .......................................................................................................................................................................................... 14
Water Regimes ........................................................................................................................................................................... 14
Special Modifiers ...................................................................................................................................................................... 14
Riverine Wetlands ............................................................................................................................................................................. 15
Systems. Subsystems. and Classes .................................................................................................................................... 15
Water Regimes .......................................................................................................................................................................... 15
Special Modifiers ..................................................................................................................................................................... 16
Eastern South Dakota Basins ................................................................................................................................................................. 16
Size Structure of Basins ................................................................................................................................................................. 16
Basin Distribution ............................................................................................................................................................................. 16
Temporary Basins ..................................................................................................................................................................... 23
Seasonal Basins ........................................................................................................................................................................ 23
Semipermanent Basins ........................................................................................................................................................... 24
Natural Semipermanent Basins .................................................................................................................................. 24
Semipermanent Basins due to Dugouts or Other Excavations ...................................................................... 25
Impoundments with Semipermanent Water Regimes ....................................................................................... 25
Permanent Basins .................................................................................................................................................................... 27
Natural Permanent Basins ........................................................................................................................................... 27
Permanent Basins due to Dugouts or Other Excavations ................................................................................ 27
Impoundments with Permanent Water Regimes ................................................................................................. 27
Drainage Ditches and Channelized Streams ................................................................................................................ 27
Literature Cited ..................................................................................................................................................................................................... 28
Appendices ............................................................................................................................................................................................................. 29-102
II
Tables
I. Elements of the Cowardin eT al. (1979) classification system used in eastern
South Dakota and NWI codes for systems. subsystems. c1a'ises. and modi tiers ....................................................................... 6
2. Area of wetlands by c1a'isification delineated by the National Wetland Inventory
in eastern South Dakota from photogr..tphy acquired 1979-1986. Attributc is the
NWI code for the Cowardin eT al. (1979) c1a'isification. ................................................................................................................. II. 12
3. Area and percent of total area of palustrine wetlands in 18 classes and mixed classes
delineated by the NWI in eastern South Dakota. Codes for cia'ises are presented in Table 2.
In mixed classes. the most abundant class is listed first. ................................................................................................................... \3
4. Number of eastern South Dakota temporary. sca'ional. and semipennanent basins
by water regime and size c1a'is. ................................................................................................................................................................ 17
5. Acres of eastern South Dakota temporary. seasonal. and semipemlanent basins
by water regime and size class. ................................................................................................................................................................ 17
6. Number of eastern South Dakota pennancnt wetland ba"ins by water regime and size class ............................................. 17
7. Acres of eastern South Dakota pennanent basins by water regime and size class ................................................................... 17
8. Number. acres. and percent of each county comprised of basins by water regime. ............................................................... 19-21
Figures
I. The glaciated prairie pothole region of eastern South Dakota was delineated using the distribution
of characteristic soils. .. ............................................................................................................................................................................... 2
2. The tenn "wetland" describes an area with a homogeneous water regime and plant community
structure as delineated by the NWI. A "basin" is the depression that contains the wetlands extending
upslope to the limit of the wetlands ......................................................................................................................................................... 2
3. Elements of the Cowardin el al. (1979) classification system ........................................................................................................ 6
4. Dates of NASA and NHAP photography used by the NWI to delineate wetlands and deepwater
habitats in eastern South Dakota. .. ........................................................................................................................................................... 7
5. Enlargement of a section of a National Wetlands Inventory final map ....................................................................................... 8
6. Eastern South Dakota counties. ................................................................................................................................................................. 8
7. Eastern South Dakota physiographic regions ....................................................................................................................................... 9
8. Wetlands delineated by the NWI were convened to basins by dissolving arcs and classifying the
basin's watcr rcgime by the most pennanent wetland within it. .................................................................................................... 9
9. Approximately 2.222,1 I3 ac (899.277 hal of wetlands were delineatcd by the NWI in the
35.390 mi 2 (90,600 km 2 ) that comprise eastern South Dakota..................................................................................................... 10
10. Acres of eastern South Dakota wetlands delineated by the NWI using the
Cowardin et al. (1979) system. ................................................................................................................................................................ 10
11. Percent of total acres of eastern South Dakota palustrine wetlands by Cowardin et al. (1979) c1a<;s ............................... 13
12. Percent of total acres of eastern South Dakota palustrine wetlands by water regime. .. ......................................................... 13
13. Percent of total acres of ea<;tern South Dakota palustrine wetlands by special modifier....................................................... 13
14. Percent of total acres of ea<;tern South Dakota lacustrine wetlands by water regime. Temponu)'
and seasonal wetlands comprise a trace of total lacustrine wetland area. .................................................................................. 14
15. Percent of total acres of eastern South Dakota lacustrine wetlands by special modifier. ...................................................... 14
ill
16. Distribution of riverine wetlands in eastern South Dakota. Discontinuities in river channels indicate
impoundments or intervening stretches of palustrine wetland. ..................................................................................................... 15
17. Percent of total acres of eastern South Dakota riverine wetlands by water regime. ............................................................... 15
18. Number and acres of eastern South Dakota basins by water regime. .......................................................................................... 16
19. Sizes of all temporary. seasonal. semipermanent and pennanent basins combined. .............................................................. IS
20. Sizes of temporary basins. .......................................................................................................................................................................... 18
21. Sizes of seasonal basins. ............................................................................................................................................................................. 18
22. Sizes of natural selnipennanent basins. ................................................................................................................................................. IS
23. Sizes of basins with semipermanent water regimes due to dugout excavation ......................................................................... IS
24. Sizes of impoundments with semipermanent water regimes ........................................................................................................... IS
25. Sizes of natur.ll pennanent basins. .......................................................................................................................................................... 18
26. Sizes of basins with perntanent water regimes due to dugout excavation .................................................................................. 18
27. Sizes of impoundments with pennanent water regimes. ................................................................................................................... 18
2S. Distribution of ba"ins expressed a" number of bao.;ins/lO mi 2......................................................................................................... 22
29. Distribution of basins expressed a" acres of basinsllO mi 2.............................................................................................................. 22
30. Distribution of temporary basins expressed a" number of basin silO mi 2................................................................................... 23
31. Distribution of temporary basins expressed as acres of basins/IO mi 2........................................................................................ 23
32. Distribution of seasonal basins expressed as number of basinsltO mi 2....................................................................................... 24
33. Distribution of seasonal basins expressed as acres of basinsll U mi 2............................................................................................ 24
34. Distribution of natural semipennanent basins expressed as number of basinsll 0 mi 2 ........................................................... 25
35. Distribution of natural semipernmnent basins expressed ao.; acres of bao.;ins/l 0 mi 2 ................................................................ 25
36. Distribution of semipennanent basins due to dugout excavation expressed as number of basins/lO mi 2...................... 26
37. Distribution of semipcnnanent basins due to dugout excavation expressed as acres of basinsll 0 mi 2............................. 26
3S. Distribution of semipcrnlanent and pcnnanent impoundments expressed as number of basinsllO mi 2............................ 26
39. Distribution of semipennanent and pennanent impoundments expressed as acres ofbao;insllO mi 2................................. 26
40. Distribution of pennanent basins in eastern South Dakota ............................................................................................................... 27
41. Distribution of channelized streams and drainage ditches with wetland characteristics linking two
or more natural basins .................................................................................................................................................................................... 28
42. Limits of the drift sheets of Wisconsin glaciers in eastern South Dakota. Each successive glacial
advance was less extensive than previous advances (adapted from Flint 1955)........................................................................ 31
43. Eastern South Dakota U.S. Geological Survey 8-digit hydrologic units (watersheds) ............................................................ 66
iv
Executive Summary · _
EaSlCrn SOlllh Dakota. com pri sed of 44 cO lillt ies
cas! and no rth of [he Missouri Ri ver. covers aboll l
35.400 square mil es . Wetlands and deepwater habi tats accou nt fo r 2.222.11 3 ac (899.2 77 hal or 9.8%
of the l<mdsc<lpc . O f this total. palustri ne syste m
wetlands co nstitute 80. 1% ( 1,780.859 ae or 720.70-lhal, lacll strine system wetl ands and dccpwalCf habi tats 16.8% (37 1,982 ae or 150.538 hal. and rive rine
syste m wei lands 3. 1% (69 .273 ae or 2S.034 hal.
A lota l 932)~29 wetland basins (poth oles or lakes ,
lor exampl e) cove ring 2. 128.674 ae (86 1.463 hal
de lineated from palustrine and laclIstrine wetlan ds
occur in easte rn Soulh Dakota. Te mporary basin s
make up 55 .7% (520,379) of the total number of
basins and 18.3% (390.054 ac o r 157.853 hal of Ihe
lotal area. Seasonal basins make lip 35.9 %
(334.699) of Ihc IOlal basins and 26.0% (553.5 15 ac
or 224.004 hal o f Ihe to tal area . SC lllipen n'lIlCnl
basins make l ip S. I % (76.260) of tbe lOla I basins
and 34.0 % (722.904 ae or 292.5 55 hal of Ihe total
area . Pcrmanenl basins (basi ns con laining lacusIrine wel la nds or pcrmanc11l or illlcnnillcnlly
ex posed pal uslrine wct lands) comprise 0 .2%
( 1.457) of thc 10lal number of basins and 21 .7%
(462.20 1 ac o r 187.050 hal of the lota1 area. Of all
se mipcrm;J IlCnl basin s. 23.997 are nat ura l basinsIhal is. Ihcy conta in at leasl one semipcrma ncllI
wetland- covc ring abolll 377.660 ae ( 15 2.837 ha);
38,663 covering 237,069 ae (95,941 hal are shallowe r basin s w ith dugouts or other excavati o ns or
arc isolaled dugoul s: and 11 .527 coverin g 99.41 1 ac
(40.23 1 hal arc impoundments. A total 603 natural
perm anc nt bas in s occur in eastern South D:lko [a
cove ring 194,037 ac (78.526 hal . A 10ta l 384 permanent bas ins arc impound menls. comprising
264,156 ae (106 .902 hal. mostly in the i'v li ssoll ri
River rese rvoirs.
The media n size of basin s in eastern SOllth
Dakota is o nl y 0.4 ac (0.16 ha). or a ll eastern
Sou th Dak ota basins, 58.8% arc SO.5 ac (0 .2 ha l in
size: 72.9% arc ,:5; 1.0 ac (0.4 hal : 83.4% arc ,:5;2 .0 ac
(0.8 hal: and 92. 1% arc ::;5.0 ac (2 .0 l1a). Only
2.6% are larger than 10 ac (4 .0 ha).
1
Eastcrn South Dakota has a recent hi story o f
glaciation: conseque ntl y, drainage netwo rks of
ri verine wetl ands arc poorly developed over 1I10st
of thc region. The best developed drainage networks occ ur on the wcstcm slope or the Missouri
Coteau and east o f the Bi g Sioux River. areas that
were not cove red by Late Wisconsin g laciers.
O ver most of eastern South Dakota, w,l! er tra ve ls
by su rfic ial n ow into in sular basin s that fonn ed
from mc lting iee blocks depos ited in gl<1cia ltill .
The distribution ,lilt! characteristics o f basi ns in
eastern Sou th Dakota were infl uenced by the
liming. freque ncy. and manner of g lacitll io n. Low
relief landsca pes. such as ground moraine or gl ac ial
lake plains. tend to include numerous shallow temporary and seasonal basins. while high relie f landscapes. sllch as term inal or dcad-ice moraine, tend
(Q incl ude dee p bas in s with se miperma ne nt or permanent wa te r reg imes.
Temporary ami seasona l basins are most abundant
in the James Ri ver Lowland and Minneso ta -Red
River Lowland ph ys iographic regions, thc path s
along whic h g lacie rs advanced. NalLlra l sell1ipcrm,ment and permanent basins arc most abundant on
the Prairi e COlCau physiographic region.
tvlost basins at [he non hem end and along the
eastern margin of the Prairie Coteau are small. In
the inte rior o f the Coteau. se mipermanent and permanent bas in s occ ur in more gradually undulati ng
tCITain and arc larger. C hain s of permane nt lake s
occ ur adjaccntto the wes t side of the Bi g Sioux
Ri ver within [he Prai rie Coteau. Most of these
lakes formed like small er basins, but the icc mass
in th is area was subj ect to less compressio n and
was less fragment ed . Basins wi th scmipenll:lI1 ellt
water regimes <lU\! to excavated dugouts afe widely
di stribllted ;Jcross eastern South Dakota. but sc mi permanent and permanent impound ments arc mosl
abundant on th e western slope of the l'vli ssou ri
Coteau.
WETLAND RESOURCES
of Eastern South Dakota
Wetla nds ;lfe a promi nCn1 ICulllfC of the glaciated prairie
pothole region of Ihl! U.S .. includi ng Illost of eastern Soulh
Dakota (Fig. I ). Wet lands ha ve traditio nall y lx-en viewed as
economically unprnduclivo.! rdugia for nalin.' and cXOIic
weeds and fo r srnallm:llllIHab and blackbirds thaI cauS\! crop
damagc. Wetland... have l)I,:clI con... idcrcd \0 be ob. . tat:l..:.'> 10
pla11ling. culti":lling .•mll han'\!~lin~ (TOpS.
Pc:rccptioll'> o f \\t:ll:md, an: begi nning 10 ch:mgc. TIl{'
Jlllhlic is beginning \0 :Ippr.:datc the biotic. hydrologic. and
economic ro k of \\c[lal1l l ~: however, Ihis new appreciat ion i~
nOI uni\'crsal. leading In cnmro\'cl"Sy n:garding appropriate
usc:. ror w('(i:lIId",
A detailed rev;c\, of prairie w.:tland function... and value,
has been compiled by Iluhhard (II}!)H), and a cOllllllunity
profile that des(·r i bc~ Ihe origi n. hydrology, func lions. and
hiota of prai rie wclla nd.\ was dcvelopcd by Kanlmd ('/ 01.
( 1989).
Prcvious allcmpb 10 :-umll1:l ri /e wClland acreage totals fo r
SOUlh Dakola and SOIllC othcr ~ lat C~ ha \"l,'" underc~ limatcd
uc tu:11 wetland al\'a. In ~OIllC ca~s, wClland inwllIoric:.
focused on weIland:. \\ ilh ~pecific functio ns and va hll:~ (for
example, waterfowl produtliun). whilc othcr in\'(:nloric~
ignored small wClb ncb (for example. il\\ cntorie:. wcn.: b;bed
o n soil SUf\·CY S wilh rd;Ili\dy large minimum mapping unih
wi thout cOI1:.ideralion of h) dric \oi l incitbioll:'). I3ccall!>e
\\ctlands play an impon:u1\ mlc in ("[ItTi'lIt debates about
environmcntal prolettion. f:lc tll:11 info mlalio n abollt wctland
abundance. char.:lctcri~ l ic,. ami di,\tri bUlion is imponam.
This pu blication idt:lI\ifie\ the extcnt. ch:lr.lclcristics. and
loc:llion of casten! Soulh Dakota wctl:lIlib. m:lppcd and
classified by the U.s. Fi,h and Wi ldlife Sen iCl: ( US R VS)
Na tio nal Wetland!> hl\ C11I1H) ' (NW I). :l11d dc.'>C ribe..\
delilographics of wctlatltl basins (for exampll:. IXllho lcs
impo undmenls. and nalllral lakl:s). '·Well:tnd"" dcsc ri bc ~ an
-+.
area wilh a homogt: llcolis w<tler regimc and pla nt eomll11lllity
~ lm C \LI re as delincall:d by Ihe NW I (for t: xa mpll:. an area
with a tcmporal)' wate r regimc a mi c me rge nt \'egetHtio ll n.
:III :lrea wil h a :.cmipenn:lIWlll wale r regimc ;md ;,ubmcf!>l:d
\'cgcl:ll io n). ;\ ··ba~hl·' i\ dc fined as a depression 011 thc
landscape that t'oTllai n" at k:l;,t OliO: \wtl:tnd but may conlain
more tha n ono: wet land Wilh diO'cre llt \\;lIl'r regimes or I Y IX'~
of plalll co1Jl1llunitil:!> (Fig. 2) (Cowardin 1981).
-
~-
•
Prairie Pothole Region
•
Transilion Parklands
•
Lake Agassiz Plain
Fi gure , . The glaCIated praino pothole region 01 eastern South
Dakola was delinealed using Ihe distribution 01characteristic soils.
Figure 2. The lelTll 'Weiland" describes an mea 1'1111"1 a homogcrIeous
waler regime and planl community Slructure as delinealed by the NWl.
A ""basin" is the deprCSSlOflthal OOfllmns lhe wetlands e~tending
upslope 10 the limit 01 the wetlands.
2
History of Wetland Drainage
Basins (for example. potholes) in the glaciated prairie
pothole region sometimes number IOo/mi 2 (40/km 2 )
(Kantrud el al. 1989) and have been generally regarded as an
impediment to agriculture and travel. Hewes and Frandson
(I 952} included a description of the pmirie pothole region
landscape from the early 1900s which read as follows:
drought years oflhe "thirties" were still fresh in
his mind. He [the fanner] remembered well that
the only hay he had harvested
wa.~
on !\ome c1a.~~
B pothole. that the meager income of the family
was supplemented by cash revenue from muskmts
han'ested on his cla.~s A pothole. His class C
pothole provided good grazing for his livestock.
the class D pothole with a small crop of grain
... low knolls are separaled by saucer-like [sic)
either a.~ feed or to sell on the market. The general
depressions. in which empounded [sic) waler oflen
water table in this area fnortheast South Dakota)
slands me year around ... in me main rainwaler
was down as much as 33 fcct.
which falls upon Ihe uplands has 10 escape by
seepage or evaporation. Little JXlnds and marshes
are found in almosl innumerable places scaltered
allover Ihe counly.
Mitchell (1941) noted in recalling trips to town early in
South Dakota's settlement period.
I used four horses and somelimes Iwo. I would
somelimes get stuck in sloughs. and if any of us
saw anybody else stuck we always got out and
helped lhem.
Much like today. the values of wetlands may not have ix.-en
universally agreed upon even by early South Dakota settlers.
Mitchell ( 1941) also recognized the value of wetland.. and
noted that the site of the first settlement in Kingsbury County
was selected because of il" proximity to emergent wetland..:
As we came from ncar New Ulm. Minn .• and
finding lot.. of sloughs lying bem'een Lake Badger
and Lake Thistad. and
(a.~J
mese sloughs were
covered wim muskrat houses. (we) decided to
locate here and build mese dugouts and spent the
winter here trapping.
Dahl (1990) estimated that approximately 35% of the area
of natural wetlands in South Dakota prior to European settlement ha.. been destroyed through human modifications. In
South Dakota. most of this wetland area ha<; been convened
to agricultural production. TIner (1984) estimated that 87%
of wetland losses in the U.S. between the mid-1950s and mid1970s wa.. due to agriculture. Extent of drainage is correlated
with time since European settlemenl. duration of agricultural
land use. land value. and local community attitudes toward
wetlands. Staunton (circa I950) reponed that:
3
Although wetland losses began with the development of
agriculture in ea"tern South Dakota. pothole drainage began
in earnest in the mid-1940s. The slogan "every acre to its
best use" was the justification for draining an unknown
number of basins across eastern South Dakota (Staumon circa
1950). Wetland drainage in eastern South Dakota was greatly
acccJemted by high post-World War II commodity prices
(Evans and Black 1956). At the same time. tr.msition from
horse-drawn to mechanized fanning and increa<;ed equipment
size resulted in intensified farming practices and larger fields.
encouraging even more drainage. As pastures were convened
to row-crop and small-grain production.wetlands. which h'ld
been sources of forage and water for livestock. were drained
because they hindered field operations or reduced crop yields
during period.. of nornlal to wet hydrologic conditions.
Acceleration of drainage in the 1940s and I950s also was
due to the creation of a favorable economic dimute for
drainage through provision of technical and financial assistance by the U.S. Depanment of Agriculture (USDA) Soil
Conservation Service and Production and Marketing
Administration (PMA) and to a barrage of propaganda from
government agencies painting pothole drainage as responsible
land use, Legislation promoting wetland drainage was often
disguised under euphemisms such as "conservation." "flood
prevention." or even "fish and wildlife enhancement." In
official policy. pothole drainage was meant to provide cropland to replace highly erodible uplands. although in practice
"worn-out" uplands were seldom retired (Schoenfeld 1949).
In Day County. South Dakota. 2.500 basins comprising over
13,500 ac (5.400 hal were drained during 1948-50 with PMA
suppon (Schoenfeld 1949). and PMA data show that 188.000
ac (76.000 hal were drained with federal a'isistance in the
Dakotas and Minnesotn during 1949 and 1950 (Tiner 1984).
Staunton (eireu 1950) reponed that by 1950 some fanners had
drained potholes at government expense. hoping to
Prior to World War II. potholes ... were considered
... get paid for retiring liesc same drained lands. or
by most farmers as an asset on his farm. as the
receive payments for non-use in lie production of
basic crops when curtailment of crop production
becomes necessary because of surpluses.
Federal agricultural programs increased the profitability of
draining wetlands in South Dakota through cost sharing.
below market-rate credit, and price and income supports to
oversupplied agricultural markets (Goldstein el al. 1988).
Furthermore. tax a'isessment strategies that valued wetlands
based on their potential profitability following conversion.
and increased land values following drainage. provided additional economic incentives to drain wetlands. However.
Leitch and Danielson (1979) found that farmers were willing
to drain wetlands to eliminate the nuisance of tilling around
them even when it was uneconomical.
Reduction of direct federal assistance for wetland
destruction began in 1978 with issuance of Executive Order
11990. which mandated that the effects of any fedemlly
funded or subsidized activity impacting wetlands be evaluated proactively and that steps be taken to minimize or
mitigate impacts. In 1979. the U.S. Comptroller General
reported that
... we may now be paying more to provide these
benefits of wetlands through public work projects
and environmental programs than we would have
paid to preserve the wetlands ... (U.S. General
Accounting Office 1979).
Even with curtailment of fedeml funding for wetland
drainage. destruction of natural wetlands continues
throughout the pmirie pothole region. Surveys of wetland
drainage in four major eastern South Dakota watersheds in
1983-84. repeated in 1989. indicated a 3% loss of basins
during that 5-6 year period (Mack 1991). Road construction
promotes drainage by creating convenient drainage outlets.
Smith el al. (1989) estimated that 27.781 acres of wetlands
(11.243 ha) were illegally drained into federal-aid COnstructed road rights-of-way (road ditches) in the prairie pothole region of Minnesota. North Dakota. and South Dakota.
Recent federal legislation and programs have reduced
rates of natural wetland destruction in South Dakota.
"Section 404" of the Clean Water Act (formerly the Fedeml
Water Pollution Control Act. passed in 1972). administered
jointly by the U.S. Army Corps of Engineers (COE) and the
U.S. Environmental Protection Agency (EPA). prohibits discharging till into waters of the U.S. "Waters of the U.S."
have been variously interpreted to include or exclude prairie
potholes over the history of the act.
However. the effectiveness of Section 404 ha" been
diminished by authorizing the COE to issue permits. in
consultation with the USFWS and subject to EPA review.
which allow landowners to fill wetlands. Nationwide, of
approximately 15,000 permit requests received annually,
approximately 10,000 (67%) are approved, 4.500 (30%) are
withdrawn by the applicant before action on the request is
taken, and 500 (3%) are denied (Environmental Laboratory
1987). In addition, approximately 75.000 "minor activities"
are authorized each year by the COE under regional and
nationwide "general permits" that authorize activities without
individual permit review. provided the activity causes only
minimal adverse environmental impacts. Until 1997, nationwide, Permit 26 authorized the discharge of up to 10 ac
(4 hal of non-deleterious fill into wetlands of the United
States. and notification of intent to fill was not required if the
total wetland area to be filled was <I ac (0.4 hal. Most
ea"tern South Dakota wetlands could be filled under this
general permit if not protected by other mechanisms.
Recognition that over 87% (Tiner 1984) of wetland losses
are associated with agricultural activities prompted inclusion
of the Wetland Conservation Subtitle ("Swarnpbuster")
provisions in the 1985 Food Security Act the Food and
Agriculture Trade Act of 1990. and thge federal Agriculture
Improvement and Reform Act of 1996. USDA has authority
to withhold a portion of federal commodity price supports
and other agricultural subsidies from landowners who
illegally convert wetlands.
In 1994. 86% of South Dakota farmers received federal
assistance under USDA farm programs (N. Kappel.
Consolidated Fann Service Agency, Huron. pers comm).
Operators who do not participate in USDA commodity
programs are not affected by Swampbuster regulations.
Reaction to Swampbuster regulations by most of the
agricultural community is strongly negative. Conflicting
philosophies and policies of federa1 agencies toward wetlands have reduced government efficiency. have fostered a
perception of government waste. and have generated
landowner animosity. Confusion over USDAjurisdictiona1
wetland definitions and delineations. particularly for small.
temporary basins. contributes to this reaction. In part, this is
because benefits of wetland functions typica1ly accrue to
society at large and not to individual landowners with whom
rest the costs of preserving wetlands and the decision to
preserve or destroy them.
While USDA and other agencies historically encouraged
drainage. the USFWS and private entities like Ducks
Unlimited have worked to protect wetlands in South Dakota.
The Migratory Bird Hunting Stamp Act of 1934 was
amended in 1958 to enable the purchase of small tracts of
uplands and wetlands in the prillrie pothole region. Wetland
acquisition was accelerated in 1961 with passage of the
4
Wetlands Loan Act which authori7.ed borrowing against
future "duck stamp" revenues. Passage of the Small
WetJands Acquisition Act in the same year also authorized the
USFWS to purchase small basins valuable to breeding waterfowl (Higgins 1981, Higgins el al. 1987). Approximately 700
USFWS Waterfowl Production Areas (WPAs) covering about
183,000 ac (74,000 hal of uplands and wetlands were purchased in South Dakota by 1994 (USFWS Div. Refuges
Realty Office, Denver, pers. comm.). The USFWS also has
used funding from these acts to obtain easement'> on
approximately 613,000 ac (248.000 hal of eastern South
Dakotawetlands through 1994 (USFWS Div Refuges Realty
Office, Denver. pers. comm.). Landowners are constrained
from burning, draining. filling. or leveling protected wetlands
during the period of the easement. which is typically perpetual. unless a variance is issued by the USFWS.
Public and private efforts to both drain and protect wetlands in the prairie pothole region continue. Baseline data on
the extent, characteristics. and distribution of wetlands are
important to ensuring the future of wetland resources. An
accurate a'i.'iCssment of wetland area. number of basins. and
their distribution and characteristics is valuable because:
(I) knowledge of remaining wetland habitat is imponant in
predicting the impact of new state and federal wetland protection statutes and programs or the impact of modifications to
existing statutes and programs; (2) previous status surveys of
basins have relied on samples of a small percentage of the
U.S.; (3) a wetland inventory may be used to identify regional
differences in the characteristics of wetlands or ba'>ins and in
their density and distribution; and (4) understanding the wetland habitat base enhances administration and management of
wetJands biota.
The National Wetlands Inventory
Growing public awareness of the imponance of wetlands
prompted the USFWS in 1974 to instruct the Office of
Biological Services to conduct an inventory of U.S. wetlands
and to acquire scientific information on the characteristics
and extent of wetlands. As the National Wetlands Invemory
(NWI) was becoming fully operational. the USFWS officially adopted the Cowardin el al. (1979) classification
system for wetlands and deepwater habitats. Cowardin el al.
(1979) defined wetlands as:
... lands transitional between terrestrial and aquatic
systems where the water table is usually at or near
the surface or the land is covered by shallow
water. For purposes of this c1a~sificati()n wetlands
must have one or more of the following three
attributes: (I) at least periodically. the land sup-
5
ports predominantly hydrophytes, (2) the substrate
is predominantly undrained hydric soil. and (3) the
substrate is nonsoil and is satur.lIed with water or
covered by shallow water at some time during the
l.'rowing sea~on of each year.
Deepwater habitats are defined as "permanently flooded
lands lying below the deepwater boundary of wetlands"
(6.6 ft or 2.0 m) (Cowardin elal. 1979).
The NWI uses information on hydrology. hydrophytes.
and hydric soils to delineate wetlands and deepwater habitats
in accordance with national photographic. cartographic. and
digitizing standards (USFWS 1994a. 1994b. 1995).
Hydrology refers to surface and subsurface water movements and accumulation. Wetlands usually are periodically
saturated or ponded at some time during the growing season.
Growing season is variously defined as the soil frost-free
period. or the period when the soil temperature exceeds 4°C.
which corresponds roughly to the period of biological
activity in soil.
Hydrophytes are plants adapted to growth in water or in
saturated soils. Wetland soils must be nooded or saturated
long enough during the growing scao;on to alter soil
chemistry and to stress upland-adapted plants.
Hydric soils are soils formed under aquic or peraquic
moisture regimes. This implies at least periodic inundation
or satumtion during the growing season. Because oxygen
diffuses slowly through water. hydric soils are at least
periodically anaerobic due to bacterial metabolic consumption of oxygen. Under anaerobic conditions. facultative and
obligate anaerobic bacteria reduce oxidized forms of
nitrogen. iron, manganese. and other compound,>. Bacterial
reduction of iron and manganese oxides produces the
distinctive gley colors and mottles characteristic of hydric
soils.
In the Cowardin et al. (1979) classification system.
wetlands and deepwater habitats are relatively homogeneous
with respect to hydrologic. edaphic. and biotic attributes.
They are classified by hydrology. size. vegetation. and
natural or anthropogenic origins and modifications. The
Cowardin et al. (1979) system is hierarchical. The number
of classification levels in the hierarchy is open-ended. The
NWI has adopted conventions which generally use five
levels of the classification hierarchy for wetlands and
deepwater habitats in eastern South Dakota (Fig. 3).
Coward in el al. (1979) provided a detailed description of
these c1assitication taxa; a brief description is provided here.
PEMCx
I
I
/
01
I
I
~il/
//
L1UBHh
I
I
I
I
I
01 ~#/
//
//
R4SBA
I
I
//
I
I
~;/
Figure 3. Elements of the Cowardin at al. (1979) classification system.
Systems. the highest level in the classification hierarchy.
encompass wetlands and deepwater habitats with similar
hydrologic. geomorphologic. biologic. and chemical characteristics. Wetlands in three of the five systems defined by
Coward in el al. (1979) occur in South Dakota: palustrine
(Ientic wetlands). lacustrine (deepwater lentic habitats or
large lentic wetlands without trees or shrubs. persistent
emergent vegetation. or emergent mosses or lichens). and
riverine (Jolie wetlands without trees or shrubs. or persistent
emergent vegetation) (Table I). Marine and estuarine
system wetlands and deepwater habitat'i do not occur in
South Dakota.
The palustrine system includes wetlands that contain trees.
shrubs. and herbaceous vegetation. and wetlands without
woody or herbaceous emergents. These wetlands are less
than 6.6 ft deep at low water and less than 20 ac (8 ha) in
size without a wave-formed or bedrock shoreline. Palustrine
wetlands in South Dakota arc generally small (for example.
wetlands within prairie potholes). Palustrine wetlands may
be larger than 20 ac if they support woody or persistent
emergent vegetation. The palustrine system hao; no
subsystems (Table I).
Table 1. Elements of the Cowardin et aI. (1979) dassification system used in eastern South Dakota and NWI codes for systems, subsystems,
classes, and modifiers.
System
Subsystem
Class
L - Lacustrine
2 - Uttoral
1 - Umnetic
UB • Unconsolidated
Bottom
UB • Unconsolidated AB - Aquatic US - Unconsolidaled
Bottom
Bed
Shore
System
Class
P - Palustrine
UB - Unconsolidated AB - Aquatic
Bottom
Bed
US • Unconsolidaled EM· Emergenl SS - Scrub FO - Foresled
Shore
Shrub
System
Subsystem
R· Riverine
3 - Upper Perennial
2 - Lower Perennial
Class
UB - Unconsolidated
Bottom
Water Regime
A Temporarily Flooded
B Saturated
C Seasonally Flooded
F Semipermanenlly Flooded
G Intermittently Exposed
H Permanently Flooded
S8 - Streambed
4 - Intermittent
US • Unconsolidated Shore
Special Modifiers
b Beaver
d Partially DrainedlDitched
h Diked/Impounded
x Excavated
6
Lacustrine system habitats include natural depressional wetlands and deepwater habitats. as well as artificial excavations
or impoundments that are more than 6.6 ft deep. regardless
of size. or that lack woody or persistent emergent vegetation
and are greater than 20 ac in size. or which have a waveformed or bedrock shoreline. Lacustrine habitats belong to
one of two subsystems: (I) limnetic wetlands and deepwater
habitats that are >6.6 ft deep. and (2) linoral wetlands that
are <6.6 ft deep (Table I).
Riverine wetlands are confined within a channel and lack
persistent emergent or woody vegetation. Riverine wetlands
in eastern South Dakota belong to one of three subsystems:
(l) lower perennial wetlands that have low velocity flows
and fine substrates. (2) upper perennial wetlands that have
high gradient channels. fao;t flow. and coarse substrates of
sand. gravel. or boulders. and (3) interminent riverine wetlands for which the channel contains water during only part
of the year (Table I).
Classes. the next level in the clao;sification hierarchy. relate
to vegetation life form where vegetative cover is greater than
30% of the wetland area or to composition of the substrate in
sites without vegetation. Classes are not unique to systems
or subsystems. although not all classes occur in each
(Table I). Cowardin el al. (\ 979) described classes used by
the NWI in detail. Cowardin el al. (1979) subclasses. which
provide more detailed inforntation on vegetation life form or
substrate were not used by the NWI for classifying South
Dakota wetlands.
Modifiers follow classes in the c1a'isification hiemrchy.
Modifiers may provide information on hydrology. water
chemistry. pH. and soil needed to clearly describe the
characteristics of wetlands (Table I). Each NWI-delineated
wetland is a'isigned a water regime modifier (Table I).
Special modifiers are the lowest level in the classification
hierarchy used by the NWI and are not ao;signed to every
wetland and deepwater habitat. In South Dakota. special
modifiers were used to describe wetlands partially dmincd
by artificial surface outlets. created by human excavation or
impoundment. or created by beaver (Castor cClIlCldel/sis)
(Table I).
Wetland Delineation Techniques
The NWI delineated ea'item South Dakota wetlands and
deepwater habitats by analyzing high altitude. color infrared
photography acquired by the National Aeronautics and Space
Administmtion (NASA) and the National High Altitude
Photography Progmm (NHAP). NASA ( I:65.000 scale) and
NHAP photography (I :58.0(x) sc.lle) from April-June of
1979-1986 were used to delineate and cJa'isify eastern South
Dakota wetlands (Fig. 4). Prior to photo acquisition. ground
7
"
5-79/4-82
5·79/4·82
5-79/4-82
4- 110-84
4-82
4.82
4-82
4-84/10-84
4·86
4·85/5·84
4·84
4-86
4·84/5·84
4.84
5·8314·84/6-84
5·83
4·82110·8/4·86 4·84/6·84/4·86
.+.
.
5·8416·84
Figure 4. Dates of NASA and NHAP photography used by the
NWI to delineate wetlands and deepwater habitats in eastern
South Dakota.
reconnaissance is conducted by USFWS personnel to
determine when hydrologic conditions were appropriate for
accumte wetland identification. Photography is acquired in
wet years. when most basins are inundated. but not in
excessively wet years. Water conditions at the time of
photogmphy usually reflect the normal distribution of
wetlands. Collateral data for wetland dcJineation and
c1a'isification includes USGS 7.5' topographic quadrangles.
published county soil surveys. Water Resources Institute
data. and hydrographic maps. when available.
The production of NWI maps (Fig. 5) follows a rigid set
of conventions for accurately identifying and classifying
wetlands (USFWS 1995):
( I) Aerial photos are reviewed by an NWI contractor. and
chamcteristic wetlands and problematic areas for wetland classification or delineation are identified.
(2) Specific sites with characteristic or problematic photosignatures are selected for field identification and a field
trip route is planned.
(3) Field data. including information on plants. hydrology.
and soils. are collected on selected sites and photosignatures are interpreted.
(4) Prior to photointerpretation. these sites are reviewed on
aerial photos and data sheets to aid in identification of
photosignatures characteristic of the work area.
(5) Photointerpretation is performed for the work area using
a stereoscope of at lea~t 4X magnification. Wetlands are
delineated on acetate overlays placed on 9-in (22.5 cm)
x 9-in aerial photos with black indelible ink using 6xO
pen points. Each delineated wetland is classified
~~Elv~'P£MA
JV")EMC.'( ( J
,
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rn'if
tV
~l
'C'C
~rMA ~£MC
b
~ cp
~PEMA---<:>
I'
)J~ ~)~ ~ lL\
P(M.\
./\ 'k~A
'?E
~(tffi
-ll\// [5 9J
Y£MA
V
,
rEMer
PEMe
Me
G-:::?EMA
QJ V ~PEMA-o
EM4d~f'fMA"
?fMC
Zf'~
PE" A
~PEMAd
cp 9--.
prMIl
P MA
~~::v
~PEMA PEMA
~ a/c:fPeM~
f'ABh-......J::r''Y
'"
YEMC
PEMC;'o
~
Figure 5. Enlargement of a section of a National Wetlands
Inventory final map.
following Cowardin et tI/. (1979) and NWI
Photointerpretation Conventions. Collateral daw arc
employed when available.
(6) Subsequent ground truthing is conducted if necessary to
resolve problems that arise during photointerpretation.
(7) Following photointerpretation. a 100% quality control
check is perfomled by the contractor. Errors are corrected and the photos are sent to the NWI Regional
Office where the NWI Assistant Regional Wetland
Coordinator performs another 100% quality control
check. Photos afC subsequently sent to the NWI
National Quality Control Team which reviews 30% of
photos for national delineation and classification consistency.
(8) After completion of photointerpretation and quality control. delineated wetlands are transferred to mylar
I :24.000 scale USGS topographic base maps using a
zoom trdllsfer scope. Auributc infonnation is tmnsferred to a separJte sheet of mylar. The completed
product undergoes quality control by the contractor and
subsequently by the NWI Cartographic Team. Draft
maps are then produced and disseminated for state and
federal interagency review and comment.
(9) Draft maps are reviewed in the field by NWI personnel
to funher increase the accuracy of wetland delineation
and classification. Sites identified during photointerpretation. quality control. and interagency review are
included in the dmft map field review process.
( 10) Draft maps arc edited, corrections made on acetate overlays. and final maps are submitted for final production
and distribution.
Thorough descriptions of photointerpretation and carlogmphic conventions are distributed by the NWI (USFWS
1994a, 1995).
Digital wetland data are produced by private contractors
under NWI supervision using digitizing conventions
developed by the NWI (USFWS 1994b) that follow Federal
Geogmphic Data Committee standards. Accuracy of digital
data is checked by automatic and manualmcans. A description of digitizing conventions is distributed by the NWI
(USFWS 1994b).
Wetland GIS Development
Individual 7.5' NWI digital wetland covemges were
joined with ARCIINFO software to construct polygon. line.
and point wetland coverages for each eastern South Dakota
county. In the photointerpretation and cartographic
processes. polygon wetlands were large enough to be
encompassed by a line from a 6xO pen tip. Linear wetlands
were too narrow at the scale of aerial photogmphy to be
delineated as polygons and were represented as lines. Point
wetlands were too small to be delineated as polygons and
were represented :l'i dots.
County lxmndaries (digitized from I: 100.000 scale maps)
(Fig. 6) were extracted from U.S. Ccnsus Bureau
Topologically Integrated Geographic Encoding and
Reference System (TIGER) digital data files. Wetland
coverages also were created for eastem South Dakota phys.
iographic regions and hydrologic units. Physiogmphic
~0S0t<
IURSHAU
eMOWN
EOv.tNlS
eM
IJIW;T
'UJ<
COOlNGTON
SPlr<o<
cw;J<
DEUEL
.....'.1)
SEAtU
.
-+..
Figure 6. Eastern South Dakota counties.
8
regions (Fig. 7) were delineated from the Natural Resource
Conservation Service STATSGO soil GIS (1:250,000 scale)
(USDA-SCS 1993; Johnson et al. 1995). USGS 8-digit
hydrologic unit.. (watersheds) (Appendix C. Fig. 43) were
digitized from a I :500,000 scale paper map (USGS 1978).
County polygon. line, and point coverages were joined to
cover each physiographic region and hydrologic unit.
Physiographic regions and hydrologic units were clipped
out of the composite coverages. County boundaries passing
through wetlands within physiographic regions and hydrologic units were deleted.
or 0.0182 ha). and linear wetlando; were buffered by a
distance of 24 ft (7.32 m) (total width of a buffered linear
wetland W<lS 48 ft) to conven them to polygons. Buffer
distances were selected ba'iCd on mean widths of point and
linear wetl<lnds detemlined from aerial photographs in the
prairie pothole region and to maintain consistency with basin
covemges created by USFWS personnel for Nonh Dakota
(Cowardin et al. 1995). Buffered point and linear coverages
were overlaid on the polygon coverage. Arcs separating
wetlands were deleted to produce composite, contiguous
basin features c1a'isified by water regime using the following
guidelines:
I. Within <I basin. arcs separating contiguous wetlands were
deleted and the composite polygon classified by the most
permanent water regime regardless of size (Fig. 8a).
2. Buffered linear wetland.. (natural or excavated) entering a
bao;in were combined with the basin (Fig. 8b).
3. Excavated wetland.. connecting two natural basins were
maint<lined a'i separate features (Fig. 8c).
4. Natuml temporary wetland.. separating wetland.. with
more pennanent water regimes were maintained a ..
separdte features (Fig. 8d).
WETLANDS
Figure 7.
BASINS
Eastern South Dakota physiographic regions.
Converting NWI-Delineated Wetlands to Basins
Most data on prairie pothole region wetlands and wetland
biota are collected for basins. We convened wetlands delineated and classified by the NWI to "basins" to complement
these data. The protocol for convening wetlands to basins
and for classifying ba..ins wao; developed by USFWS personnel to suppon mapping of potential duck breeding-pair
distribution (Cowardin et 01. 1995). Protocol for different
applications could be developed. It is inappropriate to
make direct comparisons between NWI wetJand classifications and basins (for example, the area of wetland.. and
basins by water regime) because "basins" are composite
features composed of one to many wetJands.
NWI 7.5' wetland covemges were convened to basin
covemges with a series of ARC Macro Language programs
(AMLo;) and INFO programs in ARCIINFO. Point wetlands
were buffered with a radius of 25 ft (7.62 m, area 0.045 ac
=
9
Figure 8. Wetlands delineated by the NWI were converted to
basins by dissolving arcs and classifying the basin's water regime
by the most permanent wetland within it. 3=Semipermanant;
2=Seasonal 22=Seasonal ditches; 21=Temporary.
Approximately It;'( of basins wcre manually cvaluatcd 10
a~~urc :ICCUr:lCY in thl! b;l~ in (Tcmion pr()(:c;;~ . Nen t line~
from 7.5" bnsin co\" .:r:lgc.~ were dcktcd where they p;l!'-scd
through a basin in county t:overage~. County I);l~in t:\wcrag.:s werc colllbin.:d. and physiographic regiolls amI
hydrologic uilits WCf<.: clipped Ollt a~ dcsuibed above for
wctl;ll1d co\'er:lgel>. COU11I}' bouncbr;e~ were deletcd \\ hcre
they passed through :1 ba~in within a ph y~ iogr:tphi c region
or hydrologic unit.
lnlhc data surtlm:rries tltal follow. wet lands. dcql\v;Jter
habi[als. and basin.' that fell 011 slatC houndaries were panitioned along the boundary. and onl y the area within SOlllh
J):lkO!a is reIX)r1cd. Only Ihc area of Ihe ~\'Ii sso llri Ri ver :md
i\., reservoirs that fdl within the IX)lmdarics of castem SOUlh
Dakota count ies was indudcd in lin.: analyses. Smnm:lry
~ Iati slics were generated in .'\ RC/INFO.
•
Wolland
Figure 9. Approximately 2.222 .113 ac (899.2n hal 01 wetlands
were delineated by the NWI in the 35.390 mi 2 (90. 600 km 2 ) th at
comp ri se eastern South Dakota.
Grid Creation for Spatial Analysis
i\ grid of 10 mi 2 (25.60 km 2 ) cel ls was generatl~d in
ARC/INFO and was overlaid on basin physiographic region
e\lveragcs. Area :md number of basills by water regime in a
cdl were assigned ;IS attributes to th:lt t:cll. Any basin within
:! c~ lI or on Ihe boundary of a ccll lI'a~ cou nled lI'ilhill th;1I
cd l. Only the ar('a of the ba.~in within a cell wa:. :Issig.ncd [0
that cel l.
RESULTS AND DISCUSSION
69.273
I_
Palusu lne •
lacu . uino _
nI~~,jne
1
Eastern South Dakota Wetlands
and Deepwater Habitats
Figure 10. Acres 01 eastern South Dakota wet lands delineated by
tho NWI using the Cowardin el al. ( t 979) system.
Surfnce water (d ~ press ional and riverine wetland:.) co\'cr~
;Ipproximatcly 9.SQ, or 2.222. 11 J at: (899.277 Ita) of the
35 .390 mi 2 (90.600 k1ll 2) of {'..stem South Dakot:1 (Fig. 9).
COllllX)sition of the [Olal arca of surface watcr in easlem
South Dakota is 80. 1% palustrine wdl:mds. 16.8% lacustrine
w~tJ and s and ckepwater habitats. ami 3. 1% riverine wet lands
(Fig. 10). In the following disClission. IO!;11 area for each
~ys tem is panitioll~d by Cowardin ('/ (II. ( 1979) s ub sy~ t c ll1 s .
da~ses . water n:gimes. and spet:i:tl IlIndifiefS. lllese
acreages arc pre~lIted for each castcm South Dakota cOllnty.
USGS 8-digit hydrologit: IInit. and pllysiogmphic region in
f\ppcndiccs B-D.
ilquatir lx:d dass comprise 59.895 ac (2. U2R9 hal or ]A '7~
o f Ihe IOtal area. Palu ~ trine wetlands in mixed etll~rgcnt and
aq uatic bed c1asse~ . that is. E!\IIAB and ABfE1\·1. collccti\ ely
comprise 282.430 ae ( 11-U98 hal or l.';;.srk of tot:ll palu., .
trinc wetland area. Palustrine wct l and.~ ill Olher classes each
.:omprisc less than 1.5'71- of [he lotal are:l of p:llllstrine
wctlands (Fig. 11) (Table 3).
Palustrine Wetlands
System and Classes
Wetlands in Ihe palustrine system covcr 1.780.859 at:
(720.7{).t ha) of ea~t~111 Soulh D:lkol;1 (T:lble 2). The ]):lll1strine system has nn subsystems. Palustrine wctlands in the
emergent class oct:upy 1.380.270 ,Ie (558.629 hal or 77.5 t;~
of tOlal palustrine w~t\ and area. Palu~lrine wctlands in the
Wa ter Regimes
Palustrine wctland~ with seasonal \\';ltcr regimes. which
CIlmprise 774 .88 1 :IC (313.590 hal or ·B.5'fi. of the lOla I
pa ln ~ trinc weI land area. are more abllmbnt Ihan palustrine
wetlands with other water regimcs. Palll;.lrine wet1and~ \\ ith
t~lI1pot':lry water rcgimc~ cover 584...1);<) at (236.685 hal or
32.H'IC of the total palustrine wetlanrl area: wetlands with
~c 1l\ipcnnanent wat~r reg imes cover 415.387 ac (l6S. I05 hal
or 23 .3'1}: wctl:mds with intenJl ittcllt ly exposed water
regimes cover 4.369:1e ( 1.768 hal or 0.2'1... : w~ lland s with
~a \Ur:ued watcr regil11e~ ('ol'('r 1.213 ae (49 1 h:1) or 0. 1r;}-:
ami palu~trin c wellands with pcnmment water reg i me~-
10
Table 2. Area of wetlands by classification delineated by the National Wetland Inventory in eastem South Dakola from photography
acquired 1979-1986. Attribute is the NWI code for the Cowardin et at. (1979) claSSification.
Polygon Wetlands
Attribute
L1UBFh
L1UBG
L1UBGh
L1UBH
L1UBHh
L1UBHx
L2ABF
L2ABFd
L2ABFh
L2ABFx
L2ABG
L2ABGd
L2ABGh
L2ABGx
L2UBF
L2UBFh
L2UBFx
L2UBG
L2UBGh
L2UBGx
L2USA
L2USAh
L2USC
L2USCh
PABIEMCh
PAB/EMF
PABlEMFd
PABlEMFh
PABlEMFx
PABlEMG
PABIFOC
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PA8Gx
PABHh
PABHx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEM/ABFx
PEMlABGx
PEMIFOA
PEMlFOAd
PEMlFOAh
PEMlFOAx
PEMIFOB
PEM/FOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMlFOF
Acres
1.26
29,049.84
20,678.66
9,640.71
191,512.36
688.45
12,376.25
339.29
703.54
76.16
91,269.57
194.44
9,059.43
509.03
37.31
788.77
31.16
724.82
864.41
54.19
598.08
8.10
1,366.83
1,118.94
10.70
26,247.01
1,633.38
1,307.50
91.08
26.51
3.16
14,049.71
853.46
22,889.93
18,756.64
162.86
1,635.38
1.496.07
0.10
0.84
215,691.71
11.64
21,133.47
15.462.01
246.31
3.98
2,579.25
505.10
53.10
13.84
0.49
4,366.28
603.02
175.89
403.51
27.77
Attribute
PEMlFOFh
PEMISSA
PEMlSSAd
PEMlSSAh
PEMlSSB
PEMlSSC
PEMlSSCd
PEMlSSCh
PEMlSSCx
PEMlUBFh
PEMlUBFx
PEMlUBGh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
PEMCd
PEMCf
PEMCh
PEMCx
PEMF
PEMFb
PEMFd
PEMFh
PEMFx
PEMU
PFO/EMA
PFO/EMAd
PFO/EMAh
PFO/EMAx
PFO/EMB
PFO/EMC
PFO/EMCd
PFO/EMCh
PFOIEMCx
PFOIEMF
PFO/SSA
PFO/SSAd
PFO/SSC
PFO/SSCd
PFO/SSCh
PFO/SSCx
PFOA
PFOAd
PFOAh
PFOAx
PFOB
PFOBd
PFOC
PFOCd
PFOCh
PFOCx
PSSfEMA
Acres
3.39
3,509.64
27.75
71.63
610.78
1,068.81
74.75
37.14
6.97
5.63
1.93
0.12
398,206.05
102,206.27
1,967.98
76.06
424.42
12.60
557,059.92
60,236.70
0.82
3,659.43
652.44
59,866.08
2.64
5,854.84
3,275.34
150.56
113.52
2,273.02
88.83
12.23
1.68
20.36
3.479.49
371.09
130.27
202.37
21.62
127.21
5.56
155.97
3.51
6.40
6.92
7,549.54
729.34
216.88
10.25
4.65
0.99
4,058.22
587.75
293.04
112.60
267.58
a Total area of uplands and wetiands nol delineated because of cloud cover (Hanson County).
11
Attribute
PSSlEMAd
PSS/EMB
PSS/EMC
PSS/EMCd
PSSlEMCh
PSSlFOA
PSSlFOAd
PSS/FOC
PSSlFOCd
PSSlFOCh
PSSlFOCx
PSSfUSA
PSSfUSAh
PSSfUSC
PSSA
PSSAd
PSSAh
PSSAx
PSSB
PSSC
PSSCd
PSSCh
PSSCx
PUB/EMFh
PUB/FOFh
PUBF
PUBFh
PUBFx
PUBG
PUBGh
PUBGx
PUBHh
PUBHx
PUS/SSA
PUS/SSC
PUSA
PUSAh
PUSAx
PUSC
PUSCH
PUSCh
PUSCx
R2UBF
R2UBG
R2UBGx
R2UBH
R2UBHx
R2USA
R2USAx
R2USC
R3UBG
R4SBA
R4SBC
R4SBF
R4SBFx
No Photography'!
Acres
22.29
91.92
308.03
17.99
5.09
336.18
8.50
136.70
10.21
3.34
2.79
494.72
1.73
668.73
1,500.51
64.44
154.86
0.22
59.75
972.91
90.14
230.07
14.13
3.24
2.27
46.83
1,577.91
3,778.23
1.26
426.77
633.09
2.94
4.10
181.69
191.77
11.74
4.40
1.63
6.20
0.15
26.51
27.65
626.15
11,601.52
203.78
19,086.65
193.26
952.20
22.14
2,207.84
6.62
25.87
3.16
15,571.80
74.65
4,266.03
Table 2. continued.
Linear Wetlands
Attribute
l2ABFx
l2ABGh
L2UBFh
L2UBGH
L2USA
L2USAh
L2USC
PABJEMF
PABJEMFd
PABJEMFx
PABF
PABFh
PABFx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMIFOCh
PEMlFOCx
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
Length (m)
846
1,068
1,915
271
73,401
196
3,890
2,938
253
4,236
27,265
9,434
38,304
127,567
103
3,922
19,950
4,216
20,623
247
3,857
1,144
36
2,822,849
116,763
1,408
Attribute
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFO/EMA
PFO/EMC
PFO/EMC,
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMC
PSS/FOA
PSSA
Length (m)
Attribute
Length (m)
844,272
19
24,133,421
73,879
19,984
12,611,489
338,297
385
17.387
58,363
24
1.959
18,338
2,076
835
1,885,922
48,650
128.612
75.060
769,406
21,047
16,511
82,211
57
6,496
46,404
PSSAd
PSSAh
PSSAx
PSSC
PSSCd
PSSCh
PSSCx
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUSA
PUSAx
PUSCh
PUSCx
R2SBA
R2UBF
R2UBG
R2UBGx
R2USA
R2USC
R4SBA
R4SBAx
R4SBC
R4SBCx
536
482
858
15,657
307
276
1,213
18
958
22,293
169
367
26
57
20
219
20,547
352
84.938
6,102
11,792
2,972
577,074
19,880
514,730
17,403
Point Wetlands
Attribute
PABF
PABFh
PABFhx
PABFx
PABGx
PEMlABF
PEMIFOA
PEMIFOC
PEMlFOCx
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
Number
3
69
2
460
4
8
2
2
9
1
94.032
4,129
12
235
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOIEMA
PFOIEMC
PFOIEMCx
PFOA
PFOAd
PFOAx
a few deep potholes. dugouts and small impoundmentscover 731 ac (296 hal or a trace percentage of the total area
of palustrine wetlands in eastern South Dakota (Fig. 12).
Special Modifiers
Palustrine wetlands arc either natural or are created by
excavation or impoundment. Natural palustrine wetlands
comprise 1,648.482 ac (667,131 hal or 92.5% of tOlal
palustrine wetland area in eastern South Dakota. Of this
24.980
406
138
515
38
1
5
3
1
2
4
123
PFOC
PFOCx
PSSA
PSSC
PUBF
PUBFh
PUBFx
PUBGx
PUSAx
PUSCh
PUSCx
R2USC
22
7
11
3
4
2
749
4
2
3
3
14
4
4
area of natural wetlands. 195,346 ac (79,056 hal or II.9C1c
are partially drained by surface ditches. Of the total area of
temporary palustrine wetlands, 17.9% ( 1O-J,444 ac or
42.268 hal is partially dmined. Ahout 8.2l7r (63.464 ac or
25.683 hal of seasomtl wetlands and 5.8t;} (24.209 ae or
9.797 hal of semipcnnanenl wetlands are partially drained.
Created palustrine wetlands cover 132.377 ae (53.572 hal
or 7.5% of the total area of palustrine wetlands. Of this area.
excavated wetlands comprise 78.032 ae (31.579 hal. or 4.4%
12
3.3% 3.4~~
•
E"",'gent
•
Aqu~Uc Bcd
•
Eme'gent/Aqu.lic B«I
0
all.. ,
Figure 11 . Percent 01 total acres of eastern South Dakota
palustrine wetlands by Cowardin et al. (1979) class.
Table 3. Area and percent of total area of palustrine wetlands in
18 classes and mixed classes delineated by the NWI in easlem
South Dakota. Codes lor classes are presented in Table 2. In
mixed classes the most abundant class is lisled first
Class
EM
AB
FO
SS
UB
US
EM/AB
AB/EM
EM/FO
FO/EM
EM/SS
SS/EM
FO/SS
SS/FO
SSIUS
US/SS
EM/UB
UB/FO
TOTAL
Acres
1,380,383.6
60.116.0
23,961.3
3,289,6
6,591.4
80,6
253,087,0
29,343.1
8,826,2
6,681.3
5,407.5
713.6
308,6
521.1
1,165.3
373.4
7,7
2,2
1,780,859.6
%
77.5
3.4
1.3
0,2
0.4
I
14.2
1.6
0,5
0.4
0,3
I
I
I
0,1
I
I
I
99,9
of the total and 58.9% of the are:t o f created wetlands. Stock
dam impoundmcms cover 54.345 ac (21.993 ha) or 3.1 % of
total palustrine wetland area and 4 1.1 % of the area of created
wetlands (rig. 13). Beaver-created impoundments del inI.!:ltl.!d by Ihl.! NWI cover only 14 ac (6 hal or a trace of the
total area of created palustrine wctlands.
Of al l eastern South Dakota cxcavated wetlands delineated
by the NWI, 56.827 are dugouts or similar featurcs. fOf
example. wetlands classified :L~ PABFx. PUBFx. PABG.x .
r UBGx, or PUBHx . Dugollis are concentrated where livestock production was or remains a major land use and arc
wlllmonl y located in natural basins or in nalllral stream
courses (McPhillips 1'1 al. 1983). Dugouts in e;L~tem
Somh Dakota occu rred in 22.530 existing natural basins
with Ito 13 dugouts per blL"in. Oflhe towl number of
dugouts. 9.0 10 (15.9%) arc located in natural temporary
basins. 19,506 (J4 .3%) arc in nalllral seasonal basi ns. 6.021
(10.61""/0) are in nalllral sem ipennanent basins. and 549
(I .()%) arc in natural penmmcnt basins. '111e median size of
exist ing tcmpor.:u)' basins contain ing dugouts (n=3,290) i!>
2.1 ae (0.9 hal : the median size of ex isting seasonal basins
containing dugouts (n= 14.439) is 4.6 ac ( 1.9 hal: the median
size of semipermanent basins cOlllaining dugouts (11=4.333)
is ·U ae ( 1.7 hal: and the median sile of pcnnanelll basins
containing dugouts (n=468) is 3. 1 ae (1.3 hal. Of the total
56.827 dugouts. 21.741 dugouts (J8.3%) arc isolated from
ex isting n:llllr.:11 wetlands. have eompkti'ly drained the basin
they are excavated in. or arc located in linear stream
channc1~.
Many excavated drainage ditches. which were visible on
aerial pltotogmphy. and many road ditches were not delineated as wetlands by the NWI becau~ they did not display
wetland characteristics at the time of photography.
Nonetheless. :lpprox imatdy 8,849 mi (I-t 159 km) of linear
excavated palustrine wetlands (road ditches and drainage
ditches) were de lineated in casten! SOllth Dakota. O f thc
o. ~ .
3.1 ~' 4.4 %
•
Seas enal
•
s"mipe,manent
•
Temporaty
0
Intermll1~n!ly E~pc"'d
Figure 12. Percent 01 totat acres 01 eastern South Dakota
palustrine wetlands by water regime .
13
I_
Natural •
E.cavated •
Impcumled
I
Figure 13. Percent ollotal acres at eastern South Oakola
palustrine l'Ieliands by special modifier.
tOlal1ength. 7.911mi (12.651\ km) have a seasonal water
regime. 586 rni (938 kill) have a temporary water regime.
and 347 lI1i (556 km) have a semipcnnanent water regime.
Wetlands in road ditches in eastem South Dakota generally
have sea~onal water regimes.
Lacustrine Wetlands and Deepwater Habitats
System and Subsystems
Wetlands and deepwater habitats in the lacustrine sy ~tel1l.
including both nallirallakes and lacustrine impoundments.
cover 371.982 ac ( 150.538 1m) of eastem South Dakot;t
( J:lblc 2). L:lcustrinc wet lands arc assigned to linllletic or
lilloral subsy~tell1 s . Lacus tri ne wetlands in the limnetic
subsystem (lilllnetic lacustrine wetlands with semipermanent
and interminemly exposed water regimes) compri se 41).730
ac (20.1 25 hal or 13A'7o of to tal lacustrine habitat delineated
by the NWI. All deepwater ha bitats in SOlllh Dakota arc
penllan('ntly n()(xkd lacustri ne sites in the ullconsoli{bted
bottom cI:l.~s. and till:}' covcr 201.84 1 ac (S 1.684 hal or
54.30i- of uJtallacustrinc habitat. Lacllstrine wctland ~ in the
littoral subsystem l"Omprisc 12004 12 ae (4S. 730 hal or 3204<"1r
of IOt:lllacu~t rine wetland area.
Special Modifiers
Created lacustrine wetl:l1Ids and deepwmer habitats cm'er
226.107 ac (91 .504 hal or 60.8% of tot:lll:lcustrine wetland
area in eastem South Dakota (Fig. 15). Of the IOtal area of
created l:lcustrine wetlands. 224.745:lc (90.953 hal or 99.4%
arc anificial impo undments and 1.362 ae (55 1 hal or 0.6'7<:.
are cXl·avaled.
Created lacustrine wetlands and deepwater habitats arc
most abundant in counlies bordering Missouri River. The
fi vc counties with the greatest area of lacustrine impoundments. ranked in order of decreasing abundance. arc Hughc .~
( 14.969 ae or 6.058 hal. Sully ( 14,425 ae or 5.838 hal.
Charles /vlix ( 10.549 ae or 4.269 hal. Campbell (8,40 1 ae or
3AOO ha). and Poller (7.644 ac or 3.093 hal (Appendix Bl.
Natural lacustrine wctlands and dee pwater h:lbitats make
up 145.875 ac (59.034 hal or 39.2% of tot:ll lacustri ne
habitat ar<':t (Fig. 15). A tOla1534 ae (216 hal ornalural
lacllstrine wetlands are panially drained.
Natural lacll~trinc \wtJands and d~cpwatc r habitats arc
most abundant in counties in thc northern and nonh-ccmral
Prai rie CotC;Ul and in Roberts County. which contains pan of
Classes
Aillimnetic lal"llstrine habitat in ca~tcm South DakUla is
classified in the unconsolidated bottom class, Of the total
area of linorallacustrine wethl11ds. 114.528 ae (46.349 hal or
94 .9% :lre in the :l(]u:ltic bed cI:lss. 2.501 ac ( 1.012 hal or
2.5% are in the unconsolidated bOllom class. and 3.353 ac
(1.357 h:l) or 2.6"K are in the unconsolidated shorctine cl:lss
(beadles).
3.9%
Water Regimes
•
Pe,manen1
]vlOSI e:ls tem South Dakota lacustrine habilats have
pcrlll:lnent or illlenniuelllly exposed W:ller regimes.
PentWllentlacustrine 1mbit:lt covers 201.84 I ac (81.684 hal
or 54.3% of IOtallaeustrine habitat. Intenttittclilly exposed
lacustrine wetlands cover 152,48 I ae (61.708 hal or 41.0'7r
of tOlal !acu~trinc habitat. Sernipcnllanem I;tCllstrine
wetlands. which are all in the lillora! subsystem in castelli
South Dakota. cover 14.36 1 ac (5,812 hal or 3.l)'/~ ortOla!
lacustrine habil:ll area (Fig. 14). Temporary lacIJstrine
w.::tlands. which are all beaches adjacent 10 lakes and
il1lpound11lent~ . cover 870 :lC (352 hal or eastl'nt SOlllh
Dakota. Seasonal lacustrine wet lands. also shorelines.
cover 2501 ae ( 1.012 hal. Temporal)' and seasonal
lacustrine wetlands e:lch comprise < 17(, of the IOlal area.
•
Tn1e,mlllenlTy E.posed
•
SemTpe,manen1
Figu re 14 . Percent of 10tal acres of easlern South Oakota
tacustrine weUands by water reg ime. Temp orary and seasonal
l'Iellands comprise a lrace of 10lat tacuslrine wetland area.
•
LacUSll lne Impoundmen1 • •
lIalu,al Lake.
Fi gure 15. Percent of lolal acres of eastern South Dakota
tacustrine l'Ietland s by special modifier.
14
Big S lon~ Ulke. 11K" lin.: l"Uul1lit:~ wilh Ihe gre:II~l>1 ar~a of
natural laclI.\trine we tlands and deepwater habitab. raTlk~d in
order of de(Teasi ng abundance. are Day (8.550 ae or
3.460 ha). Hamlin (6.567 ae or 2.658 hal. 1vlars hall (6.II R ae
Riwrine \\('tlalld.~ in Ih" low<.'r IlI..'R'llilial ~ubsyslcm (for
exampk.lhe ~ l i .~so llri. James, or lower Ili!,! Siou.>; ri wrs)
covcr 35.257 :IL' ( 14.269 h:l) or 50.1)';;' o f 100al rivcri ne
wetland ar<.':!. ' 111C unconsolidated bllt1{)111 class of lower
o r 1.-176 hal. Codingto n (6.006 ae or 1..1-3 1 hal. and
Kings bury (-1.307 ae or 1.7-U hal (A ppe ndix 11 ).
pere nnial rivcri ne wellands covers :n.03-1 :lC (12.964 hal or
90. YIr of lower pe rclUlial ri vc rine Il:lbitat. while IWllands in
Ihe unconsolidated slmrei inc class. or mud and s:l11d bars.
cmer 3.225 at (1.305 ha) or 9.1';;' of tOlallower pc r~nnia l
riverine h;lbiwl.
Dil l' reach IIf upper pe rennial rive rine habil.11 occurs in
Riverine Wetla nds
Sys tem, Subsystems, and Classes
Dr;li n ag~ n~twork s
of riw ri nc w~lbnd;; have (k\"cloped
in Smuh Dakola's subhumid ;md )'cmiarid c nviro nlll~ nt s and arc most abund:lIIt in countics ill Ihe Ilorthenl
J:II11eS Ri vt.:r Lowland and in l>O UlhL~a"lenl Soulh D:lkota bor-
ea~lem
~ I owly
South Dakola at Ihe fall s uf the Big S io ux Rivcr in
Ihe cilY of S iOlI."( Falls. This area l"Overs ap proxil1l:lldy 7 :K
(1.7 hal and is ill Ihe llllco nsolidale{1 bO\lo lll class .
deri ng rret:- nowing rcaches of tht: ~ li s~ouri Ri ver ( Fig. 16).
Wetland:. in the ri w rine sy~lel11l'O\ ~r 69.273 ae (28.0."1-1 hal
of ca~lem SOllih Dakola (Table 2). Of Ihe 100ai area. 50.576
ae (20.468 h:l ) or 73'«- ar~ col11pri.'>l!d of ri vc rin~ wetlands
widt.: e no ug h 10 be delinealed \\ lth polygons. alld l R.695 ae
0 .566 Ila ) o r 27% arc cornp ri"L'd of line:lr wc tlalld ~ (u\ ing a
-18 ft -wide j 14.64 rn ] buffer for linear \\t.:liands ror area
Ri\'eriuc w('tlands in th" illlcfmillcnt s Llbsy~ l em cover
3-1.016 ae ( 1..1.766 hal or 49.1 f7r of IOlal ri \'erine weiland
area. Inlcr1nitlent riverine \\etJamb II ere :llwa ys d:L~~i li ed
by Ihe NWI in the streamocd da:.s (with roc ky or Illuddy
substrales) :lml orten allernate alung Ihe eourse of a strl'am
wilh pal\l~lrille c mergelit we t1:mds.
calcu latio n).
11le dghl cOllnlie" wilh Ihc I11mt ri\'erine weiland habi tat.
filllked from 1ll0~ 1 to least. wcre Spink (5.710 ac or 2.311
hal. Bro wn (-1.539 ac or 1.837 hal. Yanklon (3 .9-19 :11.: or
1.597 hal. Clay (3.912 ac or 1.583 h:I). Union (3,697 ae or
1.-196 ha), Cha rles Mix (-i.{))3:1e or 1.632 hal. Bo n I-Iomme
(3526 :1e or 1.-127 hal. and Beadle (3, 170 ac or 1 .2~:n hal
Water
•
Semiperm:mcllt riverine h:lbital in l':J~ lcm SOUlh Dakot;L
like the Big Siollx llol1h of B rooki n g~. eovcl:'i 30.61 1 :Ie
( 12.388 hal or -14.2% of the 10lal area of rive rine habit:l\.
Thc nexi mo.,,1 abllnda nt ri verine wdlalld wate r regime is
IX'1ll1anent. whieh cove rs 19.28 1 ae (7.803 hal or 27.SIfr, of
Ihe tutal ;11"t.::1. Hi vc ril\\! \I'<:: tlands \I';t h Ihe intl'mli llently
CXIX)scd wala r~gi me cover 1:!.133 ;IC (-1.910 hal or 17.5t;}
of lhe IOlal an.'"a. Seasonal riverint.: \\"t.:llands ("Over 3.93 I ae
(Appendi ...: 8 ).
. ' v - '.::-
Regimes
\
. .'"'.,..
'"-:-' -
(1.6 11 hal or 5.7% of the 10lal arca: and lemporary ri wri n\!
\\"d l and~ (.:{Iva 3.167 ae ( 1. 312 hal or -1.7';'1- of the IOtal
ri\winc hahitat ill eastel1l SOlllh Dakota (Fig. 17).
~
.
,.'".
.-
.
Figu re 1G. Distribution 01 riverine wetlands in eastern Sou th
Dakota. Discontinuities in river channels indicate impoundments
or intervening stretches 01 palustrine weiland.
15
•
•
Semlpcrm..... nl
Perm3r1enl
•
Intc, m ll1cnlly E' poscd
o
Sea...,nal
•
r emp<>< 8IY
Figure 17. Percent 01 total acres 01eastern South Dakota rivenne
l'Ietlands by wate r regime .
Special Modifiers
Exca\':u iol1 has creah:d or IIltlllilied 2. 166 ae (R76 hal t,r
3. 1(';' of ri \crill~ habit:u in ~:tSh: m South Dakota. The OIher
67.107:1e (27. 158 hal or 96.9'1;' o f rivcrine habitat that
rem:lill in e:l~lem South Dakota have nnt been di rectl y
altered by e~l·a\alion.
Eastern South Dakota Basins
In lhis publil.":ttion. a ba~i n is deli ned a~:t deprc ......ion Ihal
conlai n... one or more \\cllimds e .~lendin g 1Ir- ~ lnpe 10 the
limil Of ille \\ctland., wilhin il (Cowardin 1982). B as in ~
wcre d:I... ~ified by wall'r regime and olher factor~ fo llowing
prul()col dc~c l'ihcd in the Il1 c lh nd ~ ~(T li {)lI. B a~in eo\'Crag~~
WeI\! created from NWI-mapl:k.'d \\ c tland~ 10 complement
exi.\ lill£ data on b:l... in di~lribllli(lII. hydrology. alld biOla.
Although taminologie, for wetland and b:l~i n waler regime...
arc Ihe ~:une. acrcagl' Ill' NW I-mappcd wetlands a nd
has ius arc lIul comparable I:k.'l'allse basin ~ are compo~ it e
featlln:, compri....:-d of nne or more wei lands.
A [01:11 932.S29 ba~ill" occur in easlern Soulh Dakota.
cOl1lpri~illg 2.128.674 ac (R6 1..163 hal. "111 is number and
al."l\!age i nclu de~ onl} nalUr:llly or an ificiall~ clmcd depn:~
.~ ion ' (for example. potholes. lak ...s. and impoundmenbJ and
doc~ not indude riverin ... wellami<.. Of Ih... lotal acreagl' :111£1
nlllnhcr of ba,ilh. 5;.7% of Ihe hasi n... and 18.3("';' of Ihe
b'bin aCTCage arc Icmpnr:lry ba,i ns. 35.<)<;f' o f Ihe basin:. alld
26.W' oflhe ba~in :lcre;lge arc ~e3Sona l basins. S. ICC of the
ba~i l1 ' and 3 ~ .0(} of Ihe basin :Icr... age arc semipermanent
ba., in,. :lIId 0 .2(';' o f the basins and 2 1.Y;' of Ih ... b:l,in
acreage are permanent b:hin~ (Fig. 18).
Size Structure of Basin s
M o~1 ea~ t e m
Soulh Dakota hasins arc ~ l11all pOI holes.
The median ~ i /.e of Soulh DakOla hasin .~ is 0.4 ac (0. 16 hal·
Of Ihe tempor:lry. sea~() nal. semi permancnt. and pcnnanelll
hasi ll ~ delinealed from NWI dala in ea~te rn Soulh Daku[:'I .
58.S'K arc 50.5 ae (0.1 h:.l) in .\ i/e. 72.9 ~( are :-; 1.0 ae
(OA lu). 83Ar} :Irc :-;2.0 :le (OJ~ hal. and 92. 1c;r arc :-;5.0 ac
0 .0 h:I). Only 2.6t;, aTl.' > 10.0 ac in Sileo These JlCrt:entages
are l'nll,i ~lo: nt \\ ilh c~ti l\late ... fro lllthc prairie potho le region
of Nunh Dakota (Co\\ardin I!f III. 198 1: D. Cohan. US FWS.
Bislllmd:.. pc". COllll1l.).
Ba,;n, :sOj ae in ... iu compri,c 6.8~;' of Ihe tOI:ll b::b in
area in ea... tern Soulh Dakota. ha.,i ns :-;1.0 ac comprise
12. 11;( of the 100at acl\!:lg.... ba~i n ~ :52.0 ac compris..: 10. 1('(
of the 101:11 al."reagc. and basins :-;;.0 ac comprise 3 ~.6ri" of
Ihe Itllal aen:age. 13:"ins >5.0 ae in Sil e compri se 65.4% of
the tOlat :1Cn:age of ea~te m SOll\h Dakota bas in~. and ba~in~
> 10.0 ac comprise 5J.St;;. of [he tntal acri!agc of hasins. 'nle
1,457
76.260
•
Tltft'lpeN.'"
•
Sf,m~""'1
•
S. ..... nal
0
~'manenl
Figure 18. Number and acres of eastern South Dakota basins by
Writer regime .
< 1.Ot;" o f basin.' > 100.0 ac in size comprise 25.7(';' of ca~lern
South Dakota ba,i n acreage (Tables 4-7).
Deeper hasin, lend 10 be larger than shallower ba.\ins. 11\e
median ~ i /e s of 11:ll ur.tl l:k.'rrnaIlCIll . semipcnnanelli. ~eason a t .
and temporary ha "i n ~ in ea~ l e m South Dakota arc 9H.5~ at'
(39.SS 1m). 2.27 at· (0.92 hal. OA9 ac (0.20 hal. and 0. 30 ae
(0. 12 hal. n:.'S I)cl:ti vdy ( Fi g~ 19·27). Although the 75.7 cf. of
hasin~ :5 1.0 al." in ~ ize comprise 12. 1g, of 10[;11 ba~in acreage
l)cc:lIIse Ihey arc ~lIIa ll. nearly all have temporary or ~easonal
\\ :lIer regil11e~ and prO\ ide diffen:nl function... and value ...
lit:1II bl):er. deepe r b:t~ in " thai comprise a larger percentage
u f the lotal acreage of C:L"tcm Soulh Dakota b:l!iins.
Basin Distribution
Ba:.in' l'O\W from ~. 6f'( 10 15.61;i- of ea:.lcm South Dakota
countic, (Table S) and di'play clumped di ~tribUli on~. Thai j,.
high d e n ~ ilic ~ of lempor.t ry, .'>Casonai. and natu r:11 ~Hlipcnll:l
nent ba~in ~ lend to occur in di~re l e regions of eas.tent South
DakOla. in pan l\!i1ccling. the l11anm:r in which Ihey were
fonned duri ng all(l fo l1O\\ iug glacial relri!al. ~ lost of eastem
Soulh D:ll.o\a \\:h co, ercd b~ Llle W jscon~i n glaciers [h:1I
ell1ercd Ille slate approxi m!lIely 25.()OO yean. "go and
16
Table 4. Number of eastem South Dakota temporary. seasonal. and semipermanent basins by water regime and size class.
Temporary
Size Class (ae)
Seasonal
Semipermanent
r:P
foP
363,350 (70%)
73,959 (14%)
47,615 (9%)
27,555 (5%)
6,439 (1%)
1,461 «1%)
0 (0%)
sO.5
0.5-1.0
1.0-2.0
2.0-5.0
5.0-10.0
10.0-100.0
>100
172,428
52,239
44,481
41,6n
15,606
8,212
56
(52%)
(16%)
(13%)
(12%)
(5%)
(2%)
«1%)
2,104
2,055
3,114
5,504
4,226
6,436
558
(9%)
(9%)
(13%)
(23%)
(18%)
(27%)
(2%)
17,019
3,474
3,057
5,615
4,172
5,080
246
f
(44%)
(9%)
(8%)
(15%)
(11%)
(13%)
«1%)
2,229
1,923
1,900
2,203
1,394
1,786
92
(19%)
(17%)
(16%)
(19%)
(12%)
(15%)
«1%)
a Natural semipermanent basins
b Basins with semipermanent water regimes due to presence 01 an excavated fea/ure such as a dugout
C Semipermanent impoundments
Table 5. Acres of eastem South Dakota temporary. seasonal. and semipermanent basins by water regime and size class.
Temporary
Size Class (ae)
Seasonal
Semipermanent
r:P
foP
87,056
56,116
68,852
84,036
43,949
50,045
0
sO.5
0.5-1.0
1.0-2.0
2.0-5.0
5.0-10.0
10.0-100.0
>100
(22%)
(14%)
(18%)
(22%)
(11%)
(13%)
(0%)
42,128
40,025
65,736
132,525
108,086
156,5n
8,441
(8%)
(7%)
(12%)
(24%)
(20%)
(28%)
(2%)
623
1,518
4,599
18,225
30,098
176,463
146,134
«1%)
«1%)
(1%)
(5%)
(8%)
(47%)
(39%)
f
4,853 (2%)
2,404 (1%)
4,505 (2%)
18,706 (8%)
29,769 (13%)
124,098 (52%)
52,735 (22%)
676 <1%)
1,392 (1%)
2,742 (3%)
7,135 (7%)
9,819 (10%)
45,424 (46%)
32,223 (32%)
a Natural semIpermanent basins
b Basins with semipermanent water regimes due to presence of an excavated feature like a dugout
C Semipermanent impoundments
Table 6. Number of eastem South Dakota permanent wetland
basins by water regime and size class.
Size Class (ae)
50.5
0.5-1.0
1.0-2.0
2.0-5.0
5.0-10.0
10.0-100.0
>100
2
1
3
4
4
272
317
r:P
foP
«1%)
(<1%)
«1%)
«1%)
«1%)
(45%)
(53%)
50
40
92
115
79
90
4
(11%)
(9%)
(20%)
(24%)
(17%)
(19%)
(1%)
a Natural permanent basins
b Basins with permanent water regimes due to presence of an
excavated feature such as a dugoot
C Permanent impoundments
17
P
10 (3%)
9 (2%)
9 (2%)
32 (8%)
57 (15%)
192 (50%)
75 (20%)
Table 7. Acres of eastem South Dakota permanent basins
by water regime and size class.
Size Class (ae)
sO.5
<1
0.5-1.0
<1
1.0-2.0
4
2.0-5.0
15
5.0-10.
30
10.0-100.0 14,417
179,571
>100
foP
«1%)
«1%)
«1%)
«1%)
«1%)
(7%)
(93%)
15
29
125
378
550
2,011
2,092
r:P
f
(<1%)
1
7
«1%)
(2%)
13
(7%)
110
(11%)
434
(39%)
6,764
(40%) 256,826
«1%)
«1%)
«1%)
«1%)
«1%)
(3%)
(97%)
a Natural permanent basins
b Basins with permanent water regimes due to presence of an
excavated feature such as a dugout
C Permanent impoundments
( 1 4~ )
1.461 (0%)
Figure 19. Sizes 01 alilemporary. seasonal.
semipermanen1. and permanen t basins
combined.
Figure 20. Sizes 01 temporary basins.
Figure 21. Sizes 01 seasonal basins.
1,900( 16 %}
Figure 22. Sizes 01 natural semipermanent
basins.
Figure 23_ Sizes 01 basins wilh semipermanent water regimes due 10 dugoul
excavation.
Figure 24. Sizes 01 impoundmen ts with
semipermanent water regimes.
~_ _ _~':'(24% 1
57
Figure 25. Sizes 01natural permanent basins.
Figure 26. Sizes 01basins wilh permanent
waler regimes due 10 dugout excavation.
Figure 27. Sizes 01 impoundments With
permanen t water regimes.
legend lor figures 19·27 .
•
cO.S
•
1.1).2.0 •
•
0.5-1.0
0
2.(I·S.0
CJ
5.0-10.0 •
>100
10.0-100
18
Table S. Number. acres. and percent of each county comprised of basins by water regime.
19
County
Number
Temporary
Acres
Percent
Aurora
Beadle
Bon Homme
Brookings
Brown
10,424
41,821
5,354
7,176
32.986
10,346.99
32,536.00
4,247.01
6.752.01
28,148.99
2.27
4.02
1.14
1.31
2.54
8,517
14,940
3,253
5,117
17,444
11,756.00
33,109.00
5,148.91
10,567.75
31,098.00
2.58
4.09
1.39
2.05
2.81
Brule
Buffalo
Campbell
Charles Mix
Clark
6,622
2,154
4,823
6,927
13,074
6,145.99
2,315.01
4,771.01
6,709.01
7.451.50
1.14
0.74
0.97
0.91
1.20
6,120
1.308
4.358
7.375
9,618
9,010.10
2,871.01
9,129.01
11,705.00
13,588.70
1.66
0.92
1.85
1.59
2.20
Clay
Codington
Davison
Day
Deuel
4,118
5,173
9,701
13.207
7,697
5,694.00
4.307.00
8,307.01
9,534.11
3,607.91
2.14
0.94
2.97
1.37
0.89
1.519
3,566
5,984
10.062
11,594
3,444.99
5.864.70
8,522.01
12,918.61
9.507.99
1.29
1.28
3.05
1.85
2.33
Douglas
Edmunds
Faulk
Grant
Hamlin
4,819
22.050
22,596
6,279
2,995
4,612.00
11.396.00
13,697.99
5.036.10
2,364.99
1.66
1.55
2.13
1.09
0.69
4,591
22.225
15,171
7,396
2,497
7,102.00
41,223.00
36,159.01
7.714.71
4,787.96
2.56
5.60
5.62
1.75
1.39
Hand
Hanson
Hughes
Hutchinson
Hyde
35,240
7.185
4,889
12,983
16.309
21.583.00
5,171.01
5,447.00
11.780.00
8.855.99
2.34
1.86
1.06
2.26
1.60
18,355
5.503
1,869
6,058
7.951
36,111.19
7,093.01
4,483.01
11,471.99
20,522.00
3.92
2.55
0.88
2.20
3.70
Jerauld
Kingsbury
Lake
Uncaln
Marshall
6,373
14.618
5.555
8,968
11.731
5,502.00
7,338.01
4,602.24
2,650.00
8.278.10
1.62
1.33
1.25
1.77
1.46
4,553
8.141
4,166
4.724
10,687
7,219.99
10,861.01
6,460.01
5,945.99
8,825.40
2.12
1.97
1.76
1.61
1.56
McCook
McPherson
Miner
Minnehaha
Moody
12.078
15,757
12,258
6.927
4,172
7,434.99
8,712.00
6.190.99
6.128.99
3,391.99
2.02
1.18
1.69
1.18
1.02
9,514
19,183
10,862
4,296
3,363
12,747.99
28,405.01
11,545.01
7,841.99
5,585.99
3.45
3.86
3.16
1.51
1.68
Potter
Roberts
Sanborn
Spink
Sully
7,305
20,963
17,962
36,260
9,694
6.147.01
13.217.60
15,682.00
30,282.99
10,433.01
1.07
1.82
4.30
3.14
1.52
3,789
14.329
10,049
11,261
2.953
8,555.00
14,877.89
18,153.99
23,698.00
7,069.01
1.49
2.05
4.98
2.45
1.04
Turner
Union
Walworth
Yankton
9,556
2,154
6.178
5.107
8.454.01
4,345.01
5,482.01
5,474.01
2.14
1.45
1.15
1.61
4,521
998
2,789
2.624
7,577.00
3,046.99
6,062.01
5,118.01
1.92
1.02
1.27
1.50
Number
Seasonal
Acres Percent
Table 8. continued.
Semipermanent
County
Aurora
Beadle
Bon Homme
Brookings
Brown
Na
Number
Acres
301
8,755.0
221
8,847.4
219
3.675.5
537 10.231.22
535 17,866.99
Db
Percent
1.92
1.09
0.99
1.99
1.61
Acres
Number
5,008.37
1.312
2,155 21.870.37
532
1,163.48
3,531.82
732
1,787 12,225.86
Ie
Percent
1.1
2.7
0.31
0.69
1.1
Number
194
184
246
140
76
Acres
1,588.53
3,007.88
1.563.92
1,533.34
819.26
Percent
0.35
0.37
0.42
0.3
0.Q7
Brule
Buffalo
Campbell
Charles Mix
Clark
154
36
91
405
1,122
3.991.6
372.29
2,826.58
7.029.03
34.325.03
0.74
0.12
0.57
0.96
5.54
1,462
299
763
1,065
1.172
4,797.31
2,047.81
3.297.28
3.577.29
5,970.75
0.89
0.66
0.67
0.49
0.96
554
589
429
799
187
6.143.71
3.522.19
1.387.3
4,855.65
1,989.83
1.13
1.13
0.28
0.66
0.32
Clay
Codington
Davison
Day
Deuel
43
708
101
3,114
979
782.Q1
13,693.64
1.326.94
45,077.52
11,698.26
0.29
2.98
0.47
6.46
2.87
149
703
591
1,004
478
875.16
2,793.77
2.774.94
3,333.39
1,930.04
0.33
0.61
0.99
0.48
0.47
92
96
80
140
159
534.86
2,192.71
596.29
803.08
1,930.02
0.2
0.48
0.21
0.12
0.47
Douglas
Edmunds
Faulk
Grant
Hamlin
322
216
129
1.282
433
4,780.48
4,695.28
3.948.53
7,353.91
12,994.13
1.72
0.64
0.61
1.67
3.78
927
1,607
1.406
468
515
3,166.0
12,886.35
13,205.84
1,354.88
3,155.21
1.14
1.75
2.05
0.31
0.92
77
154
274
189
43
353.73
1,772.46
4.545.03
1,354.45
269.83
0.13
0.24
0.71
0.31
0.08
Hand
Hanson
Hughes
Hutchison
Hyde
158
225
22
244
35
6,241.1
3,115.37
377.02
2,491.09
1,146.82
0.68
1.12
0.07
0.48
0.21
1,774
645
350
1,361
750
18,019.96
2,362.35
4,585.32
5,053.72
7.738.45
1.96
0.85
0.9
0.97
1.4
742
64
634
322
671
12,207.79
278.17
3,218.72
2.110.14
8,087.97
1.33
0.1
0.63
0.41
1.46
Jerauld
Kingsbury
Lake
Lincoln
McCook
203
865
629
199
556
3,765.63
32.593.54
13,359.02
1,134.93
6,076.43
1.11
5.9
3.63
0.31
1.65
705
913
801
434
949
3,577.58
4,300.06
3.197.37
1,026.95
2,766.76
1.05
0.78
0.87
0.28
0.75
444
70
117
95
133
5,107.75
727.6
836.68
421.02
1,037.14
1.5
0.13
0.23
0.11
0.28
Mcpherson
Marshall
Miner
Minnehaha
Moody
1,087
3,667
633
431
224
14,899.5
21,416.59
9,304.84
4,962.29
3,606.45
2.02
3.78
2.54
0.95
1.08
1,185
646
1,138
800
494
6.485.58
1.471.04
3,388.94
2,358.92
1,835.09
0.88
0.26
0.93
0.45
0.55
197
120
63
134
168
2,445.8
1,194.54
762.97
849.86
1,100.97
0.33
0.21
0.21
0.16
0.33
Potter
Roberts
Sanbom
Spink
Sully
28
2,786
298
242
25
1,377.3
21,770.85
10.461.97
7,287.33
1,714.84
0.24
3
2.87
0.75
0.25
970
730
636
1,683
785
9,626.38
1,816.35
8,326.51
18.545.79
9.131.77
1.68
0.25
2.28
1.92
1.33
796
123
37
95
681
5,877.45
1,876.36
261.67
842.62
4.738.74
1.02
0.26
0.07
0.09
0.69
Tumer
Union
Walworth
Yankton
214
49
63
166
2,065.25
1,259.93
1,507.34
1.453.16
0.52
0.42
0.32
0.43
690
172
561
2.451.72
462.07
7,695.66
1,878.63
0.62
0.15
1.62
0.55
138
111
561
309
1,602.09
159.55
1,737.45
1,164.14
0.41
0.05
0.37
0.34
364
a Natural semipermanent basins
b Basins with semipermanent water regimes due to presence 01 an excavated feature like a dugout
C Semipermanent impoundments.
20
Table 8. continued.
Permanent
N8
County
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Number Acres
2
336.6
12 4.580.04
13
621.8
26 8.941.35
5 1,864.03
Percent
0.07
0.57
0.17
1.74
0.17
Number
31
10
7
15
17
303.7
104.97
Percent
0.04
0.03
0.01
0.06
0.01
0
0.04
0.6
0.37
0.48
9
3
5
16
1
171.76
16.24
6.92
53.96
86.01
0.03
0.01
0
0.01
0.01
2
14
9
0.01
0.04
0.04
0.01
0.01
2
29.45
2
15.27
171.84
115.7
66.31
46.65
2
4
4
783.88
344.52
221.47
Acres
170.31
270.4
42.n
Number Acres
501.8
15
791.2
7
3 12.204.55
1
141.66
18 17,314.46
18 14,650.14
21 12,136.98
22
23.622.1
16 26,990.84
224.04
4
Percent
0.11
0.1
3.28
0.03
1.56
2.71
3.89
4.79
3.67
0.04
1
19
4
9
128.16
2,980.35
2,703.62
2.995.84
2
33
108.84
18,002.15
40
34
25,130.03
9,201.25
0.04
3.92
0
3.6
2.26
19
15
14
13
3,491.7
1.844.61
2,841.84
17,989.22
0
0.47
0.29
0.65
5.23
3
5
8
14
4
33.45
21.86
18.96
743.64
15.72
0.01
0
0
0.17
0
1
15
20
9
132.23
409.83
1,532.69
671.6
0.05
0.06
0.24
0.15
0
Hand
Hanson
Hughes
Hutchison
Hyde
14
2
1,709.n
522.7
2,411.34
1
9
1
11
2
0.32
103.55
6.58
97.55
12.51
0
0.04
0
0.02
0
12
3
13
11
9
8n.58
4
7
0.19
0.06
0
0.1
0.44
154.28
40,585.51
425.92
2,542.61
0.1
0.06
7.93
0.08
0.46
Jerauld
Kingsbury
Lake
Uncoln
McCook
14
11
20
685.61
12,568.2
8,657.7
32.63
1,335.99
30.08
121.5
17.38
0.01
0.24
0.01
0.03
0
149.18
52.92
1.218.45
6
8
4
21
2
4
3
19
0.2
2.27
2.35
0
0.33
6
2
388.14
630.72
Mcpherson
Marshall
Miner
Minnehaha
Moody
36
91
8
21
6
4,944.25
21,185.39
769.48
3,514.18
567.67
0.67
3.74
0.21
0.67
0.17
2
20
7
59
9
11.44
67.03
21.44
265.99
38.73
0
0.01
0.01
0.05
0.01
14
11
4
14
1,445.73
626.97
272.16
168.94
0.2
0.11
0.07
0.03
0
Potter
Roberts
Sanborn
Spink
Sully
5
35
5
14
12
249.43
16.299.4
1,885.09
4,060.41
2.537.91
0.04
2.24
0.52
0.42
0.37
8
18
5
15
15.92
75.34
36.08
136.68
0
0.01
0.01
0.01
0
16
11
3
5
19
19,118.15
17,989.44
97.06
754.08
40,162.17
3.33
2.48
0.03
0.08
5.86
Turner
Union
Walworth
Yankton
4
6
2
6
635.82
940.51
4,174.58
559.6
0.16
0.31
0.88
0.16
12
6
4
25
41.91
53.38
96.41
106.14
0.01
0.02
0.02
0.03
4
24
14
99.74
20,475.05
4,436.18
0
0.03
4.3
1.3
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
178.36
40
Natural permanent basins.
b Basins with permanent water regimes due to presence of an excavated feature like a dugout.
C Permanent Impoundments.
8
21
Ie
Db
0.01
0
0.28
0.05
0.05
0.04
0.01
0
0.1
0.17
rclrcah!d from Ihe SI;lIe for the last time about 10.000 years
ago (,\ppcndix A). As L:ll.: Wisconsin glaciers :Id\'anccd
~Ollth\\'ard Ihey encountered the Prairie Coteau. a wedge!>ha pcd highland comprbed o f a bedrock core cm-crcd by
pn!-Latc Wb(:onsin glacial Ii i!. -n 1(: advancing glaciers
split into IWO lobes. the Jamcs. thai nowcd down Ihe
J:Ulle, Ri vcr Lowland. and Ihe Des Moi nes. Ihal nowed
through nonhc:blem SOUlh Dakota inlO soulhem ~ I innesola
and Iowa.
Ikt:lll!>C easll:m South Dakota has a reccnt ghlcial hi~IOI)'.
iJlllch oflhe lan(l.~a pe has unirucgrated drainage. '1l1al is,
~ lIrface mnolf now.~ into insular de pressions or ha~ills thai
formed from the mdling of ice bloch deposi ted with Ihe
glacial Iii!. 'Ille thicknes~ of Ihe icc mass and Ihe amount
and manner of deposition of glacial debris detl!nuined the
modem \Opograph y and chafilcteri., lics of basin~ , Il igh'
relief. knob-and-kcllie tc rrain deve loped whe n glacie~
d c po~ ilelll ar<J e vo l ume.~ o f englaci:ll or superglacial d;::brb
:uul commonly include~ numerous deep basins . 'Ill t'~e
b:l~ in s. which often have !»elllipc nnanent water regime.'. . te nd
10 be ~ m a ll \\ here the icc ll1:t~s was s ubjected 10 cOIl;;idemblc
.. he:lr ;md compression ;tnl! large where the ice lIla~s wa.-"
Ic~, fr.tclured. COn\·cr.oely. land!oC;tpcs wi th I c.~~ relief li\..e
gb cial lake plai n.'.. or ground lIlofiline O\'ertain by ~ t ra lifi C"d
drift nowing out of melting glaciers. oftt'n cont:li n shallow
ba~i n s with tempofiL!)' or M:a~on al wale r rcgi llle~.
lJ a;, in ~ tend to be Icast abuudllnt in ,Lreas that were not
COWlX'd by l..:ue Wi~co n,in glaciers. B as in ~ in th c~ arca~.
like thc we!»tem slope of the Mi ~souri Coteau or the Big
Sioux Ri ver Valley. havc dbappe:lred
imegrmcd drain:l£c
network:-. of streams developed. or they havc been filled by
:u.::nli:m sedimcnt de po~ ili!ln. Basins :lr..: mOSI de nse along
the paths of glacial adva nce and retrea t in the J:lll h.:S River
Lowland fUld Minnesota-Red Ri ver Lowland (Ce iliral
Lowland). ;b well as on Ihe nonhern :lnd eastern Prairie
Cuteau ;md the nonhea~te rn ~ I i ~souri Coteau (Fi g. 28).
'Ill': are:l of the land,cape covered by basin, j, a function
of ba,in :lbundance :tnd basin size bm r.-:n ects the ~amc
general pallems as ba.. in delll>il)' ( Fig. 29). 111e mn~ t notable
diffe rences occur on the Prairie Coteau. the Mil.~nuri Coteau.
and in James Ri\'er Lowland. Ba.\in :Lt"fc<Lge is rd:lti w ly
high on the Prairie Coteau f:lnlier smuh than when:: Ihe
highest basin densit) occur.. Large semipcnnanc nt basil!'>
and lakc!» are common on 1lI0~ 1 of thc nonhem half of the
Pmiri.: COleau \\C''I of Ihe Bit: Sioux Ri\·cr. TIll: acr'::lgc of
ba~ ill" is lo\\cr o\cr 1lI0~t of the James Ri vl.' r Lowland and
nonhcaSlcm ~ I i,sou ri Coteau where basins arc :tbund:uLI b UI
lIlmt arc ~llla ll .
•
<90 basins
•
9O-180baslns
•
180-270 basins
•
27(}-420 baSinS
•
>420 baSins
Figure 28, Distnbutlon of basins expressed as number of baSins/t O m;2.
a"
•
•
•
•
•
<225 acres
225-450 ac:es
450-725 acres
725·11 00 acres
>t 100 acres
Flguro 29. DIStribution 01 t>as.ns expressed as acres 01basins/tO mF-.
22
Temporary Basins
The 520.379 temporary basins in caste n! South Dakm:l
cover 390,054 ae ( 157.853 ha) and comprise fro m 0.7% to
4.3% or the area of eastern South Dakota counties (Table 8).
Te mporary basins arc numerically the most :.tbundant lype of
basin in eastern South Dakota. and thcy exert a strong illnU cnce on the p.111ernS or basin de nsity described aOO\'e: however. they alTcct panems o f basin :lCre:lge to a lesser extent
because most are small. Tcmpor.li)' basins reach their
highcst relative densities in eastern South Dakota ill the
James Rivcr Lowland \0 the li mit of the l a~t advances of
L llo.: Wisconsin glaciation (Figs 30. 31). In tho.: Jalllo.:s Ri ver
Lowland. small te mporary basins tend to occur on bm:ul,
smoothly rolling. low subparalld ridges deposited as rec..:~
sional moraine in the James Ri vcr Luwland: howevcr. large
bas ins wi th bro:ld cxpanses of tcmpor:.li)' wct lands occur in
the intc r-morai ne zones. or within thc cxp:msion plains of
rivc ri ne wctlands.
Tc mpomry basins are thc mOM :tbunda tll tYIX! of b:l,in in
the Lake Dakota Plain physiographic region. During glacial
retre:lI. drai nage from the no rt hem James River Lowland
fl owo.:d north ward. Because no ou tlet fo r this water c ."i~led .
glacial Lake Dakota fonned in what is now Brown and
Spink o.:ounties. Many tempo!";l!")' basi ns within this physiographic fCs ion represent T\:mn:ltIb of in itially deeper basins
that were panially filled by silt dcposilcd under glacial Lake
Dakot:l.
Temporary b:.l~ i ns are less abundant on the Prairie Coteau
where terrai n relief is Iypically greater because of mOTe
extensive deposition of glacial debris. Greater relief generally rcsulls in deeper b:.l~ i ns and may res ult in reduced
upland infiltration and increased n molT. Temporary wetland
basins al so occur at low densit), on the westem slope or the
~ I i sso uri Coteau and within the d i s~cc ted Pierre Hills physiographic region where alltypcs of nalur:11 b:l~i n s are
uncommon because of a more ancient glacial histoi)'.
Seasonal Basins
111e 334.699 seasonal b:l~ in s that cover 553.515 ac
(224.QO..I hal comprise from 0.9% 10 5.6~f- of Ihe are:1 of
caslcm Soulh Dakota counties (Tallie 8). Seasonal basins
occur at high relative de nsities in scallered regio n.,
th rougholtl eastclll SOlll h Dakot:1 (Fig., 31. 33). Sma!1 ~ca
son:.l bas i n~ are abundant on o.:nd morai ne in the Jarnl'S Ri ver
Lowland. L1rge seasonal ba~ i n~ abo arc cOJllmon in t hi~
regio n and occur in the low :If('as between ret·cssion:ll
morai ne~.
Seasonal basins also are :Ibundant on the Ahilillount
r-, Iorainc (lhe lateral morai ne of the Dc... ~ loiTle ... lobe of L ue
Wi.'>C(lrlsin glaciers) and on the non hea~ tc m Missouri Coh,:au.
23
•
•
•
•
•
<30 basins
30·75 basins
75- 130 basins
130-2 10 basins
>2 10 basins
Figure 30. Dis!ri bulion of temporary basins expressed as number
of basins/tO mi 2.
•
<30 acres
•
30-60 acres
•
60-90 acres
•
90- 150 acres
•
>150acres
Figure 3 1. Dislfibution of lemporary basins expressed as acres of
basin s/I O mi 2 •
Seasonal basins in these areas fo rmed froll1the mching of
ice blocks imbedded in till deposited by stagnant. wasting
glaciers. :\'Iany basins on the northeastern ~ Ii ssouri Coteau
ha\'e shallow depth profiles. probably bt.--causc the ;IInounI
of till deposited here W:.L" relatively small during L'ue
Wisconsin glncialion. The cotcau escarpment ri $C~ gradually
in this area. and the icc/debris ll1a~s was thinner ncar its
margin thnn fal1her easl. Shallow depth profiles and a low
region:ll precipit<uion:evaporation ratio produce scasonal
water regi mes in many basins in this area. Seasonal b:lsins
have a rclath'ely low abundance over most of the Proirie
COlCall. on the Lake Dakota I'l;lin. and on the westem Il:IIf
of the r..'lissollri Coteau.
Semipermanent Basins
Semipenn:melll basi ns arc of three t)'p.!s: natlJr.11 s\!mipcnnanent b:lsins. basins with sernipe ml:ment water regim.::!t
due 10 cxcavation. and constnlcted impoundmenL'i with
semipcrrnanellt water r~1!i m es .
•
<20 basins
•
20·55 basins
•
55·180 basins
•
11 0· 180basins
•
>180basins
N(l/ural SCIII;pcrlllallem 8(/s;II.\·
Figure 32. Distribution 01seasonal basins expressed as number
01 basins/IO mi 2 .
'-"-.••~U ,~
'\ ..
I
'..~
-.• • -t
•
. _ .....
.'
-1,'
.
...
....... .
L
.....:
~ •••~ :..
•••• ~.o;oJ ...._
..~.~
. '.Lo~
J •..;• . _
. :il~E~:
---."',
.. ::~.:'I
b'..
.if:-: ~ "4..~ ~.....?-:
.. ,• •'.,.r~
~I'
• :: ":.-",' ..: t, ~
•. j..~1 -..... I... • It,oft.: ••:,d:....
-. -.. ~ -.
-
•
•
•
•
•
<30 acres
•
• p-
•
•
30·75 aCles
75·135 acres
135·210 acres
>210acres
Figure 33. Distnbution 01 seasonal basins expressed as acres 01
basin s/I O mi 2.
Natura l semip.!nnanent basins (basins containing at lea.\t
one natural scmip.!nnanent wetland) total 13.997. CO\'cr
377.660 <Ie (152.837 ha). and comprise from 0.1 tp. to 6.51J
of the total arca of eastern South Dakota counties (T:lble 8).
ll,ese basins ar~ abundant 011 the 1101111('111 Pmirie COlCan and
Ahall10unl r.,'ioraine and in the not1hem ~ li nnesota-Rcd l{j \"C(
Lowl:1nd (Fig. 3-l). As the lames and Des ~'I oines lobes of
L, te Wisconsin glaciers adl';mc\!d southward. the thick m:l5S
of ice and lithic debris flowed o\'er the northern end and
eastem margin of the Prairie COI\!au (Appendix A). 1l,e steep
escarpmetll in these regions was eroded by the glacial
advance. and the ice mass was heavily fmctured by she;lr and
compression. Large volumes of till were de posit\!d on the top
of Ihe Catcall as the glncicr stagnmed and underwent wasting.
Semi pcmlanellt basins on the Prairie Coteau are analogous in
foml ation to sea.~ona l basins on the northeaslem Missouri
Cote:lu: howel'er. the volume of lilhic debris deposited on the
Pmirie Coteau was greater. and modem topogmphic relief is
greater. Decp basins with angu lar profiles developed when
thick blocks of ice ncar the surface of glacial debris mchcd
(Flint 1971). Deep basins in a high·rel ief I:mdscape with a
relatively high precipitation: evaporation ratio resul t in scmipennanetll wateT regimes for many basins in this area.
n,e acreage or natural scmipennanelll bas in.~ is relatively
grealthroughoutthe I'mine COleall. e.'tCt.' pl cast of the Big
Siou.'t Ri ver (Fig. 35). III the interior of the Pmiric Coteau.
scmi pcnn:mcnI basins tend to be I:lrge r but kss numerous
than ncar the Coteau slope. because the icc mass Wll~ less
compressed and fr.lCtured in this area. Consequently,
24
:Ilthough the density of scmipcnnanent basins is lower in this
area. Ihe acreage of scmipcnnanent basi ns is great.
TIle PrJi rie Coteau slopes downward toward the west (A int
1955): and !>cC:IUSC Ihe glacial adv:mcc encountered a more
gl1ldual coteau escarpment in the west. the James lobe of Late
Wisconsin glaciation ad\'anced fan her over the Prairie COieau
than the Des tI,<loi nes lobe. Consequently. most natural semi·
pcrnlanctlt basins on the Prai rie Coteau are found west o f the
Big Sioux Ri ver. which marks the limit of La iC Wisconsin
glacial adv:mcc in most locations (Flint 1955),
Semiperm{lJ/l!lIt lIasills dll e ((I DlIgrmts
Otller J!.,·c(/\·atirms
IIr
• <12 basins
• 12·20 basins
• 20·30 basins
• >30 basins
Figure 34 . Dislfibution 01 naturat semipermanent basins
expressed as number of basins/tO m~ .
Dugollts are cOlllmonly excavated in nntural hasins nne!
may impart a scm ipcnnanenl wnter regime to basins where
no muu nll semi pcrmanelll \\'etbnd exists (for e.-.;mnple. a 0. 1
ac (O.~ 1m) dugout excavated in a I ac lOA hal seasonal
weiland deline:ned by the NWI res ults in a l.l ac [0.44 hal
basin wi th a semipcnnanent waler regi me). In other cases.
dugouts 1ll,ly :lppear as isolated basins or [hey may be exca\':lted in the channels of linear wetlands. The 38.663 b,l~ i ns
with semipcn nanellt water regimes due to dugouts or other
excavalions covcr 237.069 ac (99. 148 hal and comprise frolll
0.2";f- 10 2.7% of Ihe 101a1 area of eastern SOUlh Dakota counlics Crable 8). TIlese basins arc scattered throug hout eastern
Sout h \)akOla, Their density is low throughout the Lake
Dakol:l Plai n physiogr..lphic region nnd in extreme sout heastem Soulh Dakota (Fig. 36) because land use in these
areas is pri mari ly [illage agriculture wh ile dugout excavation
is commonl y associated with areas of liveslock production.
'n lc ,u:reage o f semipcnnanenl basins due 10 the presence
o f dugouts is intlated in regions where dugouts are comlIlonl y cxcavated in large, nalU ral lcmpomry and seasonal
basins, imparting semipcnnanenl waler regimes to these
basins. These regions incl ude the cent ral James Ri ver
Lowland lyi ng weSI of Ihe James River and the northem
il.'lissouri Coteau (rig. 37).
/IIIPQl/lu/mCIIlS lI'itll Scmiper m{lllf'1It Hnler Regim es
• <30acres
• 3(H5acres
• 75· 185 acres
• 185·345 acres
• >345 acres
Figure 35. Distribution 01 natural semipermanent basins
expressed as acres 01 basins/ t O mi 2 .
25
The 11.527 impoundments wilh sernipcmmllem water
regimcs covcr 99.4 11 ac (40.231 hal. They comprise from
O. I";c 10 1.5% or the total area of ea!>[em SOUlh Dakota
counties (Table 8), Iml>oundmellis are generally a.~soc i ated
Wilh wetlands tlowing in channels. Consequently. most
irnl>ounJments arc found in areas that were nO! cm'cred by
Late Wisconsin glaciers. where integrated dminage m:t\\orks
have dc\'t!loped su01ciemly 10 focus n lllofT in channels and
\\' h c n~ li vestock gmzing is [he primary land liSe. Most
impoundments with semi pcnmlllc11I waler regimes in eastem
South Dakota OCC llr Oill he west slope of the non hem ;lnd
cent ral ~\'Ii ssouri Coteau (Figs 38. 39).
•
•
•
•
<12 basins
•
<12 basins
12·20 basins
•
12·20 basins
20-3Q basins
• 20-30 basins
>30 basins
• >30 basins
Figure 36. Dlsmbution of semipermanent basins due to dugout
el(cavation expressed as number of basin s/IO rni 2 .
FIgure 38. Distribution of semipermanent and permanent
impoundments expressed as number 01 basins/I O mi2 .
,
~.
•
•
•
30-75 acres
•
>345 acres
•
<30 acres
• <30 acres
• 3()'75 acres
75·185 acres
•
185·345 acres
• 185·345 acres
Figure 37 . Dislribulion of semipermanent basins due 10 dugout
excavation expressed as acres of basinstl 0 mi 2 .
75-185 acres
• >345 acres
FIgure 39. Distribution 01 semipermanent and permanent
impoundments expressed as acres of basins/ t O mi 2.
26
Permanent Basins
Pennanent ba'iins consist of nalUml lakes, lacustrine
reservoirs. and natuml and created ba'iins containing intermittently exposed or occa'iionally pennanent palustrine
wetlands.
Natural Pennmlent Basins
These ba'iins consist chiefly of natural lakes and deep
potholes. They total 603, cover 194,037 ac (78,526 hal, and
comprise from 0.0% to 5.2% of eastern South Dakota counties (Table 8). Natuml pennanent basins are most dense at
the northern end of the Pmirie Coteau. Most pcrntanent
basins in this area are small potholes and were fonned in the
manner described for natuml semipennanent basins in this
area. Large nalUml, pennanent basins (lakes) are scaltered
throughout eastern South Dakota but are concentmted in a
chain of large. natuml lakes that occur along the long axis of
the Pmirie Coteau from ncar its northern end to southern
Minnehaha County (Fig. 40). Most of these ba'iins occur at
the eastern limit of advance of the James lobe and are probably ice-block lakes. Large blocks of ice persisted in stagnant glacial debris near the margin of glacial advance
because they were remote from the active ice margins and
were not subjected to the shear and compression applied
elsewhere (R. Hammond. South Dakota Geological Survey.
pers. comm.).
.. .'- '.
"
"
,
.~
l.
~
J.
:~'
t
.'~j,
'. : ,-!~.
i
...' ...
'II ,
f'
.-'.
.(
'
~
"."
'.
.- ,
"
. "4'1fJ~
.
\
b~
..
"
...
•
~.
.".
.
\
,"
.J, ~
Figure 40. Distribution of permanent basins in eastern
South Dakota.
27
I'~
.~.
r
r -.
.+.
..... .
,
Q: '
."
.
.,.
~.
:::
....
'.
)
..
Permanent Basins due to DllgOUts or OIlier Excavations
Basins with pcnnanent water regimes due to excavations
total 470 and cover 4,008 ac ( 1.622 hal (Table 8).
Pennanent basins due to excavations are distributed in
approximately the same pattern a'i semipennanent basins due
to the presence of dugouts or other excavations,
Pennanentlnlpollndmentt
Pennanent impoundmenlo; in eao;tern South Dakota include
deep stockdants and small to large reservoirs. They total
384. cover 264,156 ac (106.902 hal, and comprise o.()% to
7.93% of eastern South Dakota counties (Table 8).
Approximately 95% of perntanent impoundment acreage in
eastern South Dakota is associated with the three Missouri
River reservoirs. Reported acreages of Missouri River reservoirs are limited to the area within the boundaries of eastern
South Dakota counties (Table 8).
Drainage Ditches and Channelized Streams
Drainnge and stream channelization in eastern South
Dakota is a function of land use, land value. cultural nnitudes. topography. and basin density, Dminage intensity nlso
is related to the proximity to dminage outlel", Erickson el a/,
( 1979) found that drainage mtes increased in anticipation of
and following stream channelization in the Wild Rke Creek
watershed in northeastern South Dakota.
In ea.. tern South Dakota, most drainage and stream channelization have occurred in areas with high stream densities,
that is, the Jantes River Lowland and the Big Sioux River
Valley (Fig. 41). In the lalter, most drainage has occurred
e;Lo;t of the Big Sioux River, or within the river's floodplain .
In the James River Lowland, most drainage and channelization have occurred in the central part of the region east of the
James River. modifying streams originating on the west
slope of the Prairie Coteau. East of the James River row
crop and small gmin agriculture is the principal land use .
West of the river. livestock production is more common,
drainage ditches are fewer, and dugouto; and impoundments
are more abundant .
Drainage and channelization is most limited along the west
slope of the Missouri Coteau where mngeland predominates
and basin density is low. in the Lake Dakota Plain where low
relief and relatively low basin and stream density discourage
dminage. and in the interior of the northern Prairie Coteau
where most drainage is internal and steep rolling terrain discourages construction of large drainage ditches.
Gold,lein. J.l I.. B.D. Wilen.D. I',er,·". C. Ba.' lcr. 1.R. Hanm:tnll. B.
Sinwn. II.R. TOlmli'''''n. ~nd It Ready. 19l!8. lmpacl o(federal pm.
gr"llb Oln "clb'nk \,,,1 I: Umcr Mi";,,ipp i alJu\';al pbin and Ih e
prairie jXllhole regi"n. Repon III CunJ!re~~ by Ihe Secrelar)' ur Ihe
IllI erior. W;bhi,,!!t"n. D.C.
I lallt>crg. G.R. am! TJ. KtlFlIni>. l<)Sfl. Sl raliJ,:raph, and cmrebli"n 'll
Ihe g !:Cci~1 depm!" of Ill e 0.:, ~Inine, and Jame , t ,\b,:, and adj"eclll
~rtW; in Nunh l);)lOl:•. Sou lh D.. k.,la. r\ linner.olJ. ~"dl",,"a. I'p 6S.hS
'" IV. Sihr.l\;F. D.Q. 1101'<'1). nll ,1 G.'\! . I( ichmond. e,j,J QU!lrlcrn~~
!;bcialion' in Ille ;..ionJwrn J I C'lm~phcre: repon of lhe 11ll('mauonal
Gcolo~ical Corrdauun Progr.lIluue. l'roj. 2J. Int Unton G~"I SCF ;lIld
U:>':ESCO. N("" Y",~ ; I'al!;}mon I're,~.
IIc"cs. L. and I'.E. Fr~ndwn. I',IS::!. OcCUP} inl! Ihe "C! prJir;e; wI.: OJ
artifi<';~1 dr.. in~l!e III SIOI) CUUni). I,,"";}. Anll ,\nk'r ,\"'". GeOl!r
J2:~,1 · 50.
Ihggin~. K.E 198 1. " Duel SI~mp" d" lbr~ re-.('ne nali'e prJirie !(~Ch
•
2·5 ditches
•
6-10 ditches
•
>10di!ches
Figu re 41. Distribu1ion of ctlannelizcd s treams and drainage
ditches with wetland charac teristics linking two or more natural
basins.
Literature Cited
UJUc·lIlk. 1.1'. 1991. Face or I\unll l);l~ oll. """nh Da~ OIJ (jeol"~ll'~l
5"l'\c). Ed Sen," 21. tJl'm~rc~.
Cuwa"tm. 1...\1. 19S2. Somc (.·oncel'lual ~nd 'emanllC I'HlbJcrn, 111 \\I:! .
I;llld cla"ific3lron and illleni ory. Wildl Soc Bull Hl:57·60.
CO" :I"lIn. L~L V. Caner. F.e. G"lel. am! E.T. LIR uc. 197'.1.
C)a,l rri caliun of "clland., ,11,,1deep",lIer hahilah "r Ihe Uni l(".!
SlaIn. U.S. Fl<h Wildl. Scn . I'WSIOBS 7')f5\. \\'~'hinglon. D.C":
U.S. Go\crnmcrll Pnnllll~ Offi ce.
C.mardin. I.. ~L OS Gilmer. and 1.. ~ 1. ,\1cchJin. I ',IH I. C"h:u-;lclcrr'he, "I
cernr.,1 :>':unh Dalula "("Ibnlb delerrnineJ 110m ,a"'ple .,eriall'hOlo~r.tplh ~nd ground 'Iud~ . Wildl Sue Bull <I;2!iQ..188.
Co"~rdm. L.~1.. T.t. SlIatrcr. ~lId 1'.~ 1. l\ntOJ.l . 1995. E\~lu;UFOIi 01 du,'~
ha\lI1JI amI e,lrmallOn of duc ~ r-'IIII I;lIion 5i/.C' I,ilh a fCmOle.
'-CF"IIlS·ha.....,d '~,I(·m. ""ali"n~1 II lul Scn lli,,1 Sci Rep 2.
l'uhlic~lion~ L:nil. \\·a,lungwn. D.C: U.S. Fi,h \\'il,1I Sen.
I);rhl.l .l~. I<)IXI. Wetlan,j, lil«,'. in Ihe Uni led Slale,. 17IUh II' I(J80·,.
Wa,hin~lon. D.C: U.S Fi., h Wt!,!1 Sen.
I:rh:~'~n. R~E .. R.L. Limier. ... ,,1 K.W. I I"mldl1. 1<)7'1. Slre;l111 channe ll , .,.
li"n II'.L. 83·5(Ki.lI1cre~ ,~, \\clland 1o".." ililhe DakOla,. Wil,1I 511,:
11,,11 7:71·7M.
En\ In'''I11C'm;1I I.... hnralor~ . 19.'17. O,r[\., 01 Engineer-. W,,(bud
Iklincmion :'bnu~1. Dept Army, Walef"~)' 10,1' Sial T,'d, R,·p
Y·ln·\. Vichhurg, ~ 1" ,.
E'.m,. C.D. ~nd R.E. llI~cL. 19:16. J)ue~ pr.>duc"linn "n Ihe prain('
F1I~ .... h~, 0 1 South DaJ..OI.l. U.S. lx1'1 Interior. IJur Spon Fi,h \\i 1dl
SCI Rep Wildl32.
Fhlll. R.E 1955.1'lci'lo.:ell,· i!"u1ul!) "r"'~'lern Soolh D~lm~.lJ.S (j".,1
Sun Pmfl'~per 262, W:bhingwil. D.C: U.S. Fi,h Wildl Scn.
!'Iim. R.E 1971. Glacial and "uarternar~ i!colog~. :'\C" YurL: J. Wii<')
and Son,.
R~n~dJnd, .\: 190·191.
I " g~i n,. K.F.. D.E. Nun"CIl. :ond W.A. Went/.. 19S7. Roic of Ihe
C"n" "'l> ati on R" ""f\e I'r"~r.. m in relation In "ihllifc clllm" CCI11<·nl.
\\cII,mds. and adj3Cenl hJbil~t. in Ihe Norlll~m GreJt I' lain." I'p 99.
1O-t ill /J.E. Milchell. ~d) Impacl' o( Ille CUn-cn'alion l/e'en c
I'mgr::un in the Gn'at 1'13I1h. S)rlIp I'roc US OS·USFWS J.t uel~
:' Iuuntain For Ran);e E\p Sia USD,\·Gen. T,'ch Rep RM .5M.
Il ubllanl. D.E. 1<.Jl!K Glncl~lc'd pr"'fle \H'tbnd fUnCli'JIl< and \~Iuc, !I
') nth",,, Olr Ih,' lileratufC. U.S. I'i,h Wildl S~n Iltol R('p MlIl-lJ).
\\"~~htn~IOIi. D.C.
JuhnWII. R~I( .. K.F. lli~giFl>. and O.E Huhbanl. 1995. U,,,,/! ,ml, 10
delineal,' South n..
ph)'I~r~llh i,' region,. Great I'l ain' !-t..,. (in
pre,,).
K~l)lmd. 11.'\ .. GJ.. Krapu. and G,,\. S"''''''lIl. I<I~N . I'r.;iri e h:l,in "el'
rJnd, of Ihe l):ol"I,,,: ,'O"'IlIUllil) pmfik U.S. Fbh Wild l Sen 1\,01
iUlJ
!{~r M5(7.';~I. W~,hin gton.
D.C.
,,,,.I
Leilch. J. A. ;ond L. E. Oanic\"lIl. 1979. Social. econ""1IC.
i'hUlUllnll;r1
tn,'enli\e, to dr.. in or I'Te-.t·n " pr.liric "'c!l~IIlh. Uni\er,i l) tlr
) linne,Ola IXI>! Al!rie ,\ ppllcd l,mn. Econ Kcp 1:K /'l.h. SI. I'.!ul
\lac ~ . G. 1<)<)1. Welbnd , Ialu' 'IirlC) uf ~Iinnl'-.ola. Hi/! SiI>lL\.
\"wllillion. and upper Jall1<" R"Cf wa I Cf\hcd~ 1983Jl!.1·1')l!<). l:ul'uhl
rpt SD· IR · 91·00~. U.s. Fi,h Wildl 5en.I'i<-r-rc. S.D.
\1c Phillil" . K.B.. L. O. FlaLe. \V.,\ . \\·"nll. and R.L l.I11dcr. 198)
OU}!""I~ 111 e:l<!Nn S"lIlh DaloIa: thl"ir rdalion 10 b;t,in "elbnd, ~1lI.1
,Iream'. J Soil \\"~Ier C"m<'r\ Jf::J 3-1 -tJh.
~ [ ilCh..,lI . A.S. 1<,1.11. I'iuneer life. 1);I~01a Tcrri l,,!"). 1861· I 81\',1.
I\r"o~ln£,: Il rou l'n g' COII!\l~ J l i,torit'~ 1 S,,,,.
Schoc nfehJ. C. 19J9. G""d·b)~ pUI·hu k,. Fi eld and Stn.:"", .'.I(.I):~5 . .I7.
150·152.
SUHlh. FU .. II.W. Bm",·r'. T E Dahl. D.E. No"'",n. ~nd h .1'. H '~}!II"
1989. Indirect \\CII~IHI ur.llllaj!e III a'~''''i;rlion \\ llh fedaallugh,,;.)
prnjccis in lh~ pralne p01hole rc}!ion. Weiland, 9:D.J<I.
'ilaunlon. F.T. circa 1950, l'ullIo1c dr.lill"/!i.· .1n.lll> eU,'CI On "ildhfc'.
Unpubl rpt. D~pl \\ Fldltle I'i'h. Sd. BnK.Ling,: SOSU.
Tincr. R. W.. Jr. 19&-1 Weil and. uf Ihe Unik...1 SIJle~: CUIW rll ,t;IIU, and
n'Cl.'"nl Ir.·nd~. U.S. h,h and Wildl Se ....·. WJ,hmglnll. D.C: U.S.
GOlernml'n! l'rIming Olfil'e.
1I.S. Dcp~rtm,.'nl Olf Agricullure. Suil Con~cnali"n Sen ice. 1'J'}3.
STATSGO dala ""'f\ ~ulde ..\Ii", I'lIhl IJ 92.
U.S , Fbh ,md Wildli fe S<·nlce. 1,),)5. I'louluinlcrp,i.'IJllOnl·"II\'e lll U)lh for
NJt ,Qua l \\'"11,,,)(1- In velllOr). NWI Gf<)l'p. SI. l'cle .... hurg. Ft.
U.S. Fi,h and Wildlife $efl i," ·' I!N-Ia. Cm("~r:rphic COIIIl' m;",,, f,)r Ille
Nal,,,nal W"llan,1- 1 1I1~nlOr). NWI CrollI'. SI. PCI"n.hurg. Fl ..
U.S. Fi,h and Wi ldlif,' Sen ice. l'J'/Jh, Dij!ili/jng con'enllOn, fur Ih,'
:>':"hunal \\'ell~l"h Inll·lIltl!)·. NW I Group. SI. P~I~f\hurg. Ft .
t S. G'·n'.....1 Acenunling OJikc. 1979. lIener undcr~[;mdinl! "r "etland
bcnc fib ",ill hel p Warer Il an ~ alld "I h~r fcd('r.tl prugr.. m, adlle'c
"ctland pre><-',a""n uhJecI"c'. Rpllo Cnngre". \\'J,lIillgl"'I. D.C.
l S G~"OIO£"al Sune}. 1'.178. II~dru!o}!ic unil map· 1',1711. $(;11<' "f
Somh OJ l Ol:l. Re,wn. V..
\ "her. S.S. 1<117. Gcngr.. ph} of Suu lh O;llul~. South Dakota Geul SIIf\
11,,11 11: 1· 177.
28
Appendices
A
Fonnation of eastern South Dakota basins
BI
Summary of wetlands delineated in eastern South Dakota counties by the National Wetlands Inventory (NWI) from
photography acquired 1979-1986. Attribute is the NWI code for Cowardin et al. (1979) classification.
B2
Palustrine, lacustrine. and riverine wetlands delineated by the National Wetlands Inventory in eastern South Dakota
counties from photography acquired 1979-1986.
B3
Summary of wetlands delineated by the National Wetlands inventory in eastern South Dakota counties by
Cowardin et al. (1979) classes. Photography used to delineate wetlands was acquired 1979-1986.
B4
Summary of wetlands. by water regime, delineated by the national Wetlands Inventory in eastern South Dakota
B5
Summary of wetlands, by special modifier, delineated by the National Wetlands Inventory in eastern South Dakota
CI
Wetlands delineated by the National Wetlands Inventory in eastern South Dakota hydrologic units from photography acquired 1979-1986. Attribute is the NWI code for Cowardin el al. (1979) classification.
C2
Palustrine, lacustrine. and riverine wetlands delineated by the National Wetlands Inventory in eastern South Dakota
hydrologic units from photography acquired 1979-1986.
C3
Wetlands delineated by the National Wetlands Inventory in eastern South Dakota hydrologic units by Cowardin
al. (1979) classes. Photography used to delineate wetlands was acquired 1979-1986.
C4
Summary of wetlands. by water regime, delineated by the National Wetlands Inventory in eastern South Dakota
C5
Summary of wetlands, by special modifier, delineated by the National Wetlands Inventory in eastern South Dakota
C6
Basin number and area (ha). by water regime, in eastern South Dakota hydrologic units. Presented is percent of
total area of each hydrologic unit covered by basins.
Dl
Summary of wetlands delineated in eastern South Dakota physiographic regions by the National Wetlands
Inventory (NWI) from photography acquired 1979-1986. Attribute is the NWI code for Cowardin et al. (1979)
classification.
D2
Palustrine, lacustrine, and riverine wetlands delineated by the National Wetlands Inventory in eastern South Dakota
physiographic regions from photography acquired 1979-1986.
D3
Wetlands delineated by the National Wetlands Inventory in eastern South Dakota physiographic regions by
Cowardin el al. (1979) classes. Photography used to delineate wetlands was acquired 1979-1986.
D4
Summary of wetlands. by water regime. delineated by National Wetlands Inventory in eastern South Dakota physiographic regions from photography acquired 1979-1986.
D5
Summary of wetlands. by special modifier. delineated by the National Wetlands Inventory in eastern South Dakota
physiographic regions from photography acquired 1979-1986.
D6
Basin area (ha) and number by water regime in eastern South Dakota physiographic regions. and the percent of the
region covered by that basin type.
el
29
. . ,(
......................&q ...
g .56.
Appendix A
Formation of Eastern South Dakota Basins
Almost all of South Dakota east and north of the
Missouri River is covered by glacial drift (Fig. 42). Most natural basins in the glaciated prairie pothole region (Fig. I) of
South Dakota fonned from the melting of ice deposited with
lithic debris during glacial stagnation or retreat. Wetland
acreage and the density of basins on the landscape is a function of the nature of glaciation. time since glaciation. and
post-glacial landscape changes that typically reduced wetland
acreage and basin density.
The most recent episode of glaciation in eastern South
Dakota. the Late Wisconsin glaciation. began approximately
25.000 (Bluemle 1991) to 20.000 (Hallberg and Kemmis
1986) years before present (ybp). We use the tenn pre-Late
Wisconsin glaciation to include all earlier glacial advances.
Pre-Late Wisconsin glaciers advanced from the north·
east, and pre-Late Wisconsin glacial topography of eastern
South Dakota influenced the path of Late Wisconsin glacial
advances. The Prairie Coteau and Missouri Coteau (Fig. 7)
have cores of bedrock left by ancient streams eroding
Cretaceous shales and limestones. As pre-Late Wisconsin
glaciers advanced southwestward. they deposited extensive
moraines that fonned most of the Prairie Coteau. Then. as
Late Wisconsin glaciers advanced southward. they encountered the Prairie Coteau and split into two lobes. the James
Lobe. which flowed down the James River Lowland. and the
Des Moines Lobe. which advanced through the MinnesotaRed River Lowland into southern Minnesota and Iowa.
Wisconsin glaciation was less extensive in cac;tern
South Dakota than pre-Late Wisconsin glaciation (Fig. 42):
however. loess deposition and erosion probably eliminated
many wetlands and basins as modem expressions of pre-Late
Wisconsin drift. Glaciers retreated from eastern South
Dakota most recently about 10-12.000 ybp (Hallberg and
Kemmis 1986. Bluemle 1991). although detached. stagnant
ice probably persisted until about 9.000 ybp.
Because the last episode of glaciation in eastern South
Dakota ended only 10-12.000 ybp. eastern South Dakota has
a topographically young landscape compared to western
South Dakota where erosional forces have been at work
longer. Consequently. most of the landscape of eastern South
Dakota has unintegrated drainage (that is. runoff from
snowmelt or precipitation travels by overland flow into isolated basins rather than into tributary streams).
The thickness of the ice mass. amount of englacial and
superglacial debris. and rate of glacier movement detennined
the anlOUO( of debris deposited and the modem topography
and basin characteristics. Basin morphometry. watershed
area, and bao;in-groundwater interactions detennine each
basin's water regime. High relief. "knob-and-kettle" terrain
developed where thick ice flowed over escarpments and
deposited large volumes of englacial and superglacial debris
when the ice stagnated. This type of topography tends to
include basins with steep sides and semipcnnanent water
regimes. Many of these bao;ins formed upon the melting of
ice blocks deposited near the surface of till during the wa';ting
process (Aint 1971).
Landscapes with less relief. like glacial lake deposits or
areas of moraine overlain by stratified drift flowing out of
melting glaciers. tend to include shallow basins with gmdualIy sloping perimeters. Most basins in these landscapes have
temporary or seasonal water regimes. Ice blocks that melted
early in the wa'iting process or that were deeply buried in till
also fonned shallow depressions. Small basins are abundant
on recessional momines overlain by stratified drift in the
James River Lowland and Minnesota-Red River Lowland.
Small basins are also abundant near the position of active ice
margins. usually near coteau slopes. where stagnant ice
underwent greater compression and shear and was broken up
into small. numerous blocks. Large basins tend to occur on
the interior Prairie Coteau and Missouri Coteau in areas away
from active ice margins and where the terrain is less radical
and watersheds are larger.
The distribution of highest basin density in eastem
South Dakota is correlated with the limits of the last Late
Wisconsin glaciers in the James River Lowland and
Minnesota-Red River Lowland (Fig. 28). Local relief in
these physiographic regions rarely exceeds 9 m. Over most
of the region. streams and integmted drainage networks are
poorly developed. Visher (19 I7) estimated that over 80% of
the James River Lowland has surface drainage into closed
basins. Topography is characterized by smoothly rolling.
broad. subpanillel ridges fonned ao; recessional moraines with
abundant small, shallow basins. Inter-ridge areas between
recessional moraines. which mark zones over which glaciers
retreated more quickly. contain large basins or riverine wetlands that drain toward the James River.
Ba"in density is also high at the northern end and along
the eastern margin of the Pmirie Coteau and along the northcac;tern margin of the Missouri Coteau. High relief knob-andkettle topography is characteristic of these regions.
Appendix A. formation of eastern South Dakota basins /30
Adv;mcing Late Wi sconsin gl3ciers tra nspon c(l englncial an rJ
superglndal de bris to lhe top of the coteaus and ~t ~lg n a t ed.
I\ ~ imbedded blocks of ice melted. hasins ronncd in lhe till
~urf<lce . ;mrJ dead-icc morai ne topogr.lphy developed. "Ille
density o f basins along the margins of the Pr.t iric Coteau
and r\'lissouri Coteau a pl~ars to be positively correlated
with coteau slope inclination: that is, the highcst density of
basins occurs adj acent to the s teepc~ t coteau slopes. which
determined the position oflh e ncti ve icc marg in and Ihe
compressive forces to which thc icc mass was subjected.
Compressive forces fr.tc lured the icc m;L~S into small blocks
which in tum melted 10 fonn nUlllerous small h:lsins.
B as i n~ are gener.tlly least abund:mt where glaciation
ha ... been les)' recent and where p<ht-gbciallandscape changes
have reduced hasin densi ty. 1\<lClSt Jlost-glacial l;lI1dscapc
changes have been erosional. res ulting in the evolution of
illlegr;ned Sllrf;lcc drainage n,,:tworks. Where sll ffi cicl\I lime
has elapsed since gl:!ciation. b<lsins may be relati vely UIICO I11 mon _ TIwse regiuns include areas east of the Big Sioux Rin:!r
in the int" rior of lhe Prairie Coteau. an ice-free 1.01\,,: duri ng
La1,,: \Vi ~co ns in glaciation: sOll1heastclll SOll1h Dakota : and
th,,: wcstem Missouri COieau which slopes downward toward
the 1\ l i ~souri Rivcr. 'Illese areas were covered by g lacial drift
froll! pre-Late Wisccmsin glaciation and may have had high
dcnsitics of basins at Olle time,
Depositional processc..~ also may have redu("cd basin
densit y. Aeol ian scd iment deposits may have covered basins
cast uf the Big Sioux Ri ver and in extreme southeastem
South Dakota. r.uftliermorc. basi ns OCCIlf;lI low densit), over
mmt of the Like Dakota Plain because lacustrine sediment),
were deposited ovcr the post-glaciallnnd!'>capc under glad:l l
Lake Dakota.
-+.
,
,
•
Late Wisconsin Glaciation
Pre-Late Wisconsin Glaciation
Fi gure 42. Limits of the drill sheets 01 late-Wisconsin gtaciers in eastern South Dakota.
311 Appendix A formation of eastern South Dakota basins
Appendix 81. Summary of wetlands delineated in eastern South Dakota counties by the National Wetland Inventory
(NWI) from photography acquired 1979-1986. Attribute is the NWI code for Cowardin et al. (1979) classification.
Polygon Wetlands
AttriQuffi
Hectgrfl.s
A.Ylm
L1UBGh
l2ABG
l2ABGh
PAB/EMF
PABlEMFd
PABJEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEM/FOA
PEMlFOAh
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFO/EMCd
PFO/EMCh
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PUBFh
PUBFx
PUBGx
R4SBF
Attribute
Hectares
Beadle
43.30
109.53
17.09
177.90
5.70
23.61
91.80
191.42
277.50
48.27
49.56
1732.20
163.96
8.46
2.64
10.91
0.41
27.01
0.24
1.16
4493.16
1018.71
2.39
4092.08
486.45
4.67
2.94
756.66
3.68
1.99
0.81
18.75
1.72
8.14
14.79
3.88
0.44
16.45
1.43
6.97
0.50
0.40
24.86
2.15
102.07
l2ABF
L2ABFx
L2ABG
l2ABGh
L2ABGx
L2UBF
PAB/EMF
PABlEMFd
PAB/EMFh
PABF
PABFd
PABFh
PABFhx
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEM/ABFh
PEM/ABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEM/SSA
PEMlSSAd
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOJEMA
PFO/EMAd
PFO/EMC
PFO/EMCd
PFO/EMCx
PFO/SSA
295.17
0.44
1081.91
140.23
105.54
13.96
548.39
73.34
21.10
70.32
2.03
236.01
1.64
500.08
9.13
2.31
1238.81
92.47
18.21
2.38
70.19
13.79
112.36
41.07
4.03
0.89
0.25
28.69
3.96
14192.38
2316.61
2.10
0.22
11.72
15757.96
1753.30
101.82
15.11
168.24
2.68
9.41
1.93
21.91
5.79
80.71
5.09
1.51
3.01
At1.ribute
PFO/SSC
PFO/SSCx
PFOA
PFOAd
PFOAh
PFOC
PFOCh
PFOCx
PSSfEMA
PSSlEMC
PSS/EMCd
PSSlFOA
PSSA
PSSAd
PSSC
PSSCd
PSSCx
PUBFx
PUBGx
PUSCx
R2UBF
R2UBG
R2UBGx
R4SBF
Heclil.rfl.~
6.98
1.70
146.25
15.15
0.11
67.46
1.63
1.73
0.24
1.99
0.38
2.61
22.33
1.81
6.32
0.63
0.36
106.91
1.08
3.82
42.16
646.35
3.62
309.07
Bon Homme
L1UBGh
L1UBHh
L2ABF
l2ABFx
l2ABG
L2USA
L2USC
OUT
PAB/EMF
PABlEMFh
PABF
pABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
15.70
3330.26
235.85
0.34
81.29
0.17
0.80
46.44
28.65
3.59
163.78
2.96
96.93
80.92
7.49
3.63
17.31
1270.01
74.87
241.80
0.88
12.72
1.65
Attributfl.
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMISSC
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFO/EMC
PFO/EMCd
PFOIEMCh
PFO/EMCx
PFO/EMF
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMC
PSS/FOA
PSS/USAh
PSS/USC
PSSA
PSSAh
PSSC
PUBFx
PUSISSC
R2UBH
R2USA
R2USC
R4SBA
R4SBF
tleQtg[ti
15.43
6.53
0.25
4.92
27.24
1201.14
580.62
0.24
1425.77
274.07
0.41
0.11
501.12
21.55
106.30
2.82
33.26
0.30
0.62
2.78
0.64
6.27
65.70
4.33
0.25
0.14
14.77
0.48
0.49
2.83
1.19
58.74
0.70
192.10
35.90
5.50
51.34
20.29
3.05
1029.28
54.94
60.34
2.30
17.05
Brookings
LlUBG
L2ABG
L2ABGh
933.79
1934.94
13.73
Appendix 81, polygon wetlands /32
~tlrib!d.e.
til1&1~~
Atldt2llt§.
tiecta(~
12UBG
PABIEMF
PABlEMFd
PABlEMFh
PABfEMFx
PABF
PABFd
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMlFOAx
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFOIEMA
PFOIEMC
PFOIEMCd
PFO/SSC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSSlFOA
PSSlFOAd
PSSlFOC
PSSA
PSSAd
PSSC
PUBFx
117.03
273.36
37.94
3.07
4.08
64.50
7.82
53.35
171.38
26.04
2466.61
376.88
12.04
11.59
20.19
1.17
4.85
163.13
1.43
22.72
1.24
5.90
0.64
3194.66
1063.29
5.40
2092.54
499.94
4.34
31.96
24.25
4.17
16.88
84.56
3.50
1.28
74.23
6.78
1.00
0.27
115.24
16.02
0.20
3.29
11.43
10.65
11.95
0.76
0.27
4.27
1.04
6.73
45.89
PUBGx
R2UBG
R4SBF
R4SBFx
66.11
66.56
307.79
1.35
331 Appendix 81, polygon wetlands
Brown
L1UBGh
907.10
l2ABF
36.02
l2ABFd
58.69
l2ABG
88.82
l2ABGh
1442.72
PABIEMF
256.33
PABlEMFd
100.66
PABlEMFh
10.95
PABF
47.86
PABFd
9.36
PABFh
53.09
PABFx
361.74
PABGh
1.17
PABGx
46.97
PEMlABF
2217.85
PEMlABFd
344.02
PEMlABFh
4398.34
PEMlABFx
0.66
PEMIFOA
337.06
PEMlFOAh
7.82
PEMlFOAd
109.03
PEMIFOC
144.85
PEMlFOCh
21.04
PEMlFOCd
23.50
PEMISSA
7.60
PEMlSSAd
1.35
PEMlUBFx
0.78
PEMA
13242.14
PEMAh
60.37
PEMAd
1502.72
PEMAx
0.89
PEMC
13169.n
PEMCd
1326.82
PEMCh
138.84
PEMCx
17.49
PEMF
221.36
PEMFx
0.12
PEMFd
602.69
PFO/EMA
n.60
PFO/EMAd
8.04
PFO/EMC
200.21
PFOIEMCh
5.27
PFO/SSA
0.14
PFO/SSAd
1.02
PFOA
215.07
PFOAd
8.93
PFOAh
2.34
~tldl2llte.
PFOC
PFOCh
PFOCd
PSSlEMA
PSSlEMAd
PSSlEMC
PSSlFOA
PSS/FOAd
PSSIFOC
PSSA
PSSAd
PSSC
PUBF
PUBFx
PUSCh
R2UBG
R4SBF
R4SBFx
Brule
l1UBHh
l2ABGh
12UBFh
12USCh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PABHx
PEMlABF
PEMlABFd
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMlFOF
PEMISSC
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFOIEMCh
tiectafeB
161.28
7.46
12.06
0.27
0.71
0.59
7.20
1.46
6.45
4.64
5.84
0.91
0.15
44.35
0.11
603.92
884.44
0.29
5684.42
66.20
0.00
19.33
2.19
3.89
3.55
328.94
259.86
49.01
8.46
0.23
1044.90
13.66
25.12
4.65
3.30
0.26
8.11
0.39
2965.14
755.90
8.17
3664.99
298.45
10.25
0.47
16n.87
2.60
0.16
2.33
0.13
1.37
~tldI2lltf1.
tiectacflB
13.52
0.77
4.56
3.32
0.25
0.17
0.26
0.58
2.03
0.46
19.55
PFOA
PFOAh
PFOC
PFOCh
PFOCx
PSSA
PUBFh
PUBFx
PUBGx
PUSAh
R4SBF
~
L1UBGh
L1UBHh
l2ABF
l2ABFh
l2ABFx
12ABGh
L2UBGH
12USCh
PABIEMF
PABIEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFH
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCh
PEMISSA
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFO/EMA
PFO/EMC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCx
127.40
4116.82
50.26
12.64
0.60
42.17
18.85
2.67
19.30
18.63
7.27
585.29
60.92
60.99
6.57
185.00
2.87
4.64
4.79
0.49
1.70
1.00
0.22
1042.44
207.91
11.79
1299.93
140.66
21.09
0.97
17.18
109.68
0.94
2.71
14.32
1.24
5.75
4.34
0.56
2.86
t1UOOIl1l
tiega(§
8.66
PSSlEMA
PSSlEMC
PSSA
PSSAd
PSSAh
PSSC
PSSCh
PUBFh
PUBFx
PUSCh
R4SBF
0.13
7.66
1.00
12.45
0.27
62.97
1.68
0.96
4.18
68.66
Campbell
L1UBGh
L1UBHh
L2ABF
L2ABFh
L2ABG
L2UBF
L2UBFh
L2USA
L2USCh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMISSA
PEMISSC
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOIEMC
PFO/SSA
PFOA
PFOAd
1484.96
6864.50
74.05
17.01
627.71
1.09
3.32
5.65
30.75
57.79
3.85
111.79
215.75
119.14
23.49
21.12
1.91
586.84
5.23
0.16
1.45
0.56
9.56
0.84
2.25
18.26
1.34
3166.64
67.68
20.06
4353.97
45.45
207.35
0.14
331.74
92.05
9.99
1.56
22.75
0.39
t1Uri~U11l
PFOC
PFOCh
PSSlEMA
PSS/EMC
PSSIFOA
PSSlFOC
PSSA
PSSAh
PSSC
PSSCd
PSSCh
PUBFx
PUBGx
PUSCh
R4SBA
R4SBF
tiectare~
26.17
0.14
0.25
2.17
0.32
1.34
7.78
0.22
6.01
4.15
3.95
0.09
0.46
0.53
0.28
63.92
Charles Mix
L1UBGh
310.56
L1UBHh
9860.16
L2ABF
206.48
L2ABG
895.38
L2ABGh
83.40
L2UBFh
189.97
L2USCh
105.29
PABIEMF
200.09
PAB/EMFh
10.71
PABlEMFx
0.15
PABF
168.12
PABFd
1.29
PABFh
307.14
PABFx
228.82
PABG
1.48
PABGh
28.58
PABGx
20.42
PEMlABF
1700.96
PEMlABFd
82.00
PEMlABFh
46.01
PEMlABFx
0.86
PEMIFOA
39.75
PEMlFOAd
5.31
PEMlFOAh
1.44
PEMIFOC
93.56
PEMlFOCd
0.36
PEMlFOCh
3.12
PEMlFOCx
2.31
PEMISSA
103.24
PEMlSSAd
2.39
PEMISSC
47.30
PEMlSSCd
0.24
PEMlSSCh
1.94
PEMA
1768.74
PEMAd
996.83
t1Urill.U1e.
tieg{j{§
t1 UlihlJ1e.
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFO/EMAd
PFOIEMC
PFOIEMCd
PFO/EMCh
PFOIEMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlFOC
PSSA
PSSAd
PSSC
PUBFx
PUBGx
PUBHh
PUSC
PUSCh
R2UBF
R2UBG
R2UBH
R2USA
R2USC
R4SBA
R4SBF
R4SBFx
40.95
0.03
4312.94
589.85
21.65
1.70
442.33
14.44
27.64
2.25
116.72
0.46
23.65
1.06
5.52
0.62
103.88
4.14
5.01
0.38
48.49
0.92
6.52
1.39
20.11
0.11
3.78
0.42
7.26
4.13
1.41
1.07
1.10
3.20
8.16
43.82
970.58
40.44
81.56
0.36
122.38
1.66
PABGh
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOF
PEMISSC
PEMISSA
PEMlSSB
PEMISSC
PEMlSSCh
PEMA
PEMAx
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFd
PFOIEMA
PFOIEMC
PFOIEMCd
PFOIEMCh
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCH
PFOCd
PSSlEMA
PSSlEMC
PSSlFOA
PSSIFOC
PSSA
PSSAd
PSSC
PSSCd
PUBFx
R4SBF
Clark
L2ABF
L2ABG
L2ABGh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGx
12.02
541.71
32.73
338.66
30.18
16.12
142.01
254.77
9.44
tiecta(§
8.75
10322.56
1889.74
21.86
1.11
34.43
10.25
189.91
16.74
3.13
0.46
3.70
2.36
34.06
0.21
2523.84
0.09
1076.88
0.41
6027.98
803.13
2.36
3.59
369.63
9.72
7.23
25.05
78.14
3.00
0.63
0.29
4.30
41.89
7.11
0.82
60.71
2.01
5.47
0.98
2.81
7.86
3.13
15.15
0.55
20.85
1.68
13.08
2.07
Attribute
Hectares
Attribute
0.14
17.41
9.13
21.91
37.33
0.72
21.43
5.92
1.59
27.92
85.53
3.21
17.65
4.28
23.18
288.70
2.73
1260.99
1073.06
0.78
0.10
394.01
278.43
1.34
4.56
23.28
5.27
11.60
1.53
12.05
0.33
3.70
25.04
1.23
0.22
5.08
1.49
0.39
0.54
44.03
102.88
2.89
4.36
23.52
17.67
0.91
88.46
24.87
1000.53
Codington
l1UBG
1773.91
L2ABG
4189.33
L2ABGx
23.35
l2UBGx
21.93
l2USA
32.98
PA8IEMF
97.58
PABF
31.59
PABFh
35.12
PABFx
128.60
PABG
0.71
PABGx
2.27
PEMlABF
5029.00
PEMlABFx
8.46
PEMlABFd
63.10
PEMlABFh
2.66
PEMIFOA
13.43
PEMIFOC
30.06
PEMlFOCx
1.28
PEMISSA
4.63
PEMISSC
15.58
PEMA
1380.43
PEMAh
2.33
PEMAd
621.01
PEMC
2753.87
PEMCh
0.75
PEMCd
329.53
PEMCx
1.16
PEMF
658.57
PEMFd
247.91
PEMFh
0.34
PEMFx
1.46
PFO/EMA
3.03
PFO/EMC
7.25
PFO/EMCx
16.37
PFO/SSC
0.18
PFO/SSC
2.17
PFOA
12.26
PFOC
16.48
PFOCd
0.77
PFOCx
0.04
PSS/EMC
3.68
PSSlFOA
2.08
PSS/FOC
1.34
PSSA
616
PSSAd
0.51
21.11
PSSC
PUBFx
20.33
PUBGx
25.66
R4SBF
173.49
R4SBFx
4.23
gay
l2ABFx
L2ABG
PAB/EMF
PABF
PABFh
PABFhx
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCx
PEMJSSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFO/EMA
PFO/EMAd
PFO/EMC
PFO/EMCd
PFO/EMCx
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSs/USA
PSSA
PUBFx
PUBGx
PUs/SSA
PUs/SSC
PUSA
R2UBG
R2UBGx
R2UBH
R2USA
R2USC
R4SBC
R4SBF
30.30
222.38
0.94
4.01
351 Appendix B 1. polygon wetlands
Hectares
ANribute
Hectares
Davison
l1UBGh
291.31
L2ABGx
30.90
PAB/EMF
13.47
PAB/EMFd
1.36
PABF
53.74
PABFd
0.12
PABFh
44.60
PABFx
90.36
PABGh
4.75
PABGx
12.99
PEMlABF
158.08
PEMlABFd
18.90
PEMlABFx
4.66
PEMIFOA
12.35
PEMlFOAd
9.22
PEMIFOC
69.26
PEMlFOCd
2.94
PEMJFOCh
1.91
PEMJFOCx
10.40
PEMJSSA
3.03
PEMA
2722.71
PEMAd
1034.91
PEMAh
1.57
PEMAx
0.64
PEMC
2411.78
PEMCd
568.88
PEMCh
0.42
PEMCx
0.31
PEMF
43.80
PEMFh
10.79
PEMFx
0.49
PFOiEMA
0.48
PFO/EMAd
0.66
PFO/EMC
27.07
PFOIEMCd
1.03
PFO/EMCh
1.25
PFOA
63.38
PFOAd
8.34
PFOAh
4.01
PFOC
30.22
PFOCd
2.47
PFOCh
0.38
PSSA
1.80
PSSAh
2.80
PSSC
0.15
PUBFx
72.47
0.14
PUSCh
R2UBG
131.51
R4SBA
0.47
R4SBF
299.50
ANribute
QDy
l1UBG
l1UBGh
l1UBH
L2ABF
L2ABG
l2ABGh
l2UBG
l2USA
l2USC
PA8IEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABF
PABFh
PABFx
PABGh
PABGx
PEMJABF
PEMlABFd
PEMlABFh
PEM/ABFx
PEMJFOA
PEMlFOAd
PEM/FOC
PEMISSA
PEM/SSB
PEM/SSC
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFO/EMCd
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCx
Hectares
3715.48
14.03
1204.41
788.55
2038.20
98.20
15.29
195.66
505.55
1507.39
34.17
30.05
0.10
270.38
54.92
149.69
4.17
26.11
12973.82
511.11
5.48
0.20
5.24
2.49
35.40
8.46
7.87
18.46
3481.87
1761.61
11.64
2.47
5.33
4613.03
935.70
1.50
6.29
2710.99
246.26
21.54
0.04
2.56
7.97
0.47
2.09
0.63
1.25
36.04
2.92
0.42
20.58
0.62
1.19
~l1.ril1.U1.e.
Hecta[§
PSSIEMC
PSSlEMCd
PSSlFOC
PSSA
PSSAd
PSSC
PUBFh
PUBFx
R4SBF
11.72
0.70
2.47
7.84
1.34
15.n
7.82
46.69
12.39
gg
L1UBG
L1UBH
L2ABG
L2UBG
PABIEMF
PABlEMFd
PABlEMFh
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PABHx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSA
PEMISSC
PEM/SSCd
PEMA
PEMAd
PEMAh
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFO/EMCd
194.43
302.48
21n.72
8.27
174.60
123.93
7.90
158.73
0.57
7G.48
122.08
16.41
4.01
0.10
2832.55
923.23
6.14
0.14
2.33
5.45
16.76
6.27
3.20
1.38
2.51
4.00
978.01
567.25
0.16
89.53
1.49
2239.78
1149.60
6.62
3.28
274.26
35.36
0.91
0.13
0.41
5.38
4.04
~l1.ribll.tB.
H~tare.s
PFO/EMCx
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PFOCx
PSS/EMC
PSS/EMCd
PSS/FOA
PSS/FOC
PSSA
PSSAd
PSSC
PSSCd
PUBFx
PUSC
R4SBF
0.21
1.86
15.62
3.27
54.31
25.76
0.42
1.09
0.55
0.60
3.22
8.17
0.84
10.69
7.61
16.99
0.10
97.28
~lt.ribute
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMA
PSS/EMC
PSSIFOA
PSSA
PSSC
PSSCd
PUBFx
PUBGx
R4SBF
Hectare~
Attribute.
HectiJ.r~
13.52
4.30
0.12
0.15
32.91
4.75
0.58
7.34
1.57
1.14
1.00
0.53
4.23
1.95
25.28
13.53
1.34
PEMFx
PEMU
PFO/EMA
PFO/EMC
PFOA
PFOAh
PFOAx
PFOC
PFOCh
PSSlEMA
PSSA
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUSCx
R4SBF
0.84
2.45
2.89
10.03
23.54
1.06
0.11
5.79
0.58
0.60
1.66
4.24
88.75
177.28
63.28
6.48
2.73
51.42
~
.I2ruml.M
L2A8F
L2ABGh
PABIEMF
PAB/EMFh
PABIEMFx
PABF
PABFd
PABFh
PABFx
PEM/ABF
PEMlABFd
PEMlABFh
PEM/FOA
PEMIFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSA
PEM/SSC
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFOIEMA
PFO/EMC
7.80
40.59
59.99
11.91
1.24
81.33
25.70
25.59
179.84
881.79
8.76
3.73
3.13
2.24
70.76
31.35
0.20
1.14
35.48
1401.67
1004.28
2.13
0.38
0.10
2737.45
389.40
8.35
3.85
187.98
56.13
10.10
0.80
14.96
L1UBGh
L2ABF
L2ABFh
L2ABG
L2ABGh
L2UBG
L2UBGh
L2USA
L2USC
PABIEMF
PAB/EMFd
PAB/EMFh
PABF
PABFh
PABFx
PABGx
PEMlABF
PEMlABFh
PEM/FOA
PEMIFOC
PEMIFOCh
PEMlFOCx
PEMISSC
PEMlUBFh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
269.26
153.11
10.06
488.18
13.81
125.97
14.85
2.67
41.30
391.12
20.11
41.97
175.57
106.65
143.67
2.36
594.93
2.80
6.36
4.94
0.84
0.31
2.98
2.28
6832.08
171.30
0.59
5.35
18218.28
152.72
13.85
3.47
511.39·
9.00
Faulk
L1UBGh
19.94
L2ABF
74.95
L2ABFh
7.65
L2ABG
489.71
L2ABGh
68.22
L2UBFh
99.91
L2UBGh
93.82
L2USC
5.49
650.60
PABIEMF
PABlEMFh
71.83
PABF
158.25
PABFh
361.94
PABFx
196.15
PABGh
41.91
PABGx
3.33
PEMlABF
351.71
2.11
PEMlABFd
PEMlABFh
44.76
PEMIFOA
6.12
7.65
PEMIFOC
PEMIFOCh
1.03
1.14
PEMlFOCx
PEMlFOFh
1.37
0.61
PEM/SSA
PEM/SSC
0.59
PEMA
6300.36
PEMAd
617.56
PEMAh
13.01
PEMAx
1.38
PEMC
17352.85
474.20
PEMCd
46.71
PEMCh
PEMCx
3.50
Appendix 81, polygon wetlands / 36
~ltrilluti
Hectares
PEMF
PEMFx
PEMFd
PEMFh
PEMU
PFOIEMA
PFOJEMCx
PFO/sSA
PFOA
PFOC
PFOCh
PSSA
PSSC
PUBlFOFh
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
R4SBF
R4SBFx
145.88
021
0.70
9.55
12.65
0.39
0.39
026
24.59
421
1.52
2.70
0.96
0.92
0.14
234.51
141.77
29.04
5.37
375.07
0.98
IiriD1
L1UBHh
L1UBHx
L2ABF
L2ABG
L2ABGh
PABJEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABIFOC
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOB
PEMIFOA
PEMIFOC
PEMIFOCd
PEMIFOCh
PEMIFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMlSSCh
172.40
278.61
10.23
568.03
35.56
299.36
10.55
10.34
1.32
1.28
298.86
23.56
108.72
88.86
19.36
14.01
578.86
26.86
11.38
5.15
0.20
6.56
16.64
0.78
0.14
0.49
9.83
29.04
2.20
0.73
37/ Appendix 81. polygon wetlands
tie£.mc§
~Ifli~mtl!
PEMA
PEMAd
PEMAh
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOJEMA
PFOIEMC
PFOJEMCx
PFO/SSA
PFOIEMC
PFOB
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSJEMA
P5SJEMC
PSSlEMCd
PSS/FOC
PSSIFOCd
PSSA
PSSAd
PSSC
PSSCd
PSSCh
PSSCx
PUBF
PUBFx
PUBGx
PUSAh
PUSCx
R2UBG
R2UBH
R4SBF
R4SBFx
1062.85
717.77
0.18
7.08
0.92
1850.31
489.01
10.71
2.22
1282.44
88.70
31.25
0.98
3.84
10.84
0.22
1.84
7.42
1.88
393.99
12.68
0.83
59.39
7.88
1.43
1.22
0.43
2.68
1.30
0.30
2.43
23.90
3.30
51.09
5.74
0.99
0.59
0.16
16.57
3.57
0.77
0.19
0.00
5.45
54.25
1.36
Hrunlln
L1UBG
L2ABFx
L2ABG
PABIEMF
PABlEMFx
3036.49
0.10
3530.99
102.30
2.32
~Iflibutl!
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMIFOCd
PEMlFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PEMF
PEMFx
PFOIEMA
PFOJEMC
PFOIEMCd
PFOIEMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFQC
PFOCd
PFOCx
PSSlEMC
PSSlFOC
PSSA
PSSC
PSSCd
PUBFx
PUSC
R4SBF
t/.egj{j{ti
~llIIbutf.
Hecta(i~
18.47
104.97
6.36
3710.13
709.68
10.71
12.83
0.84
86.85
24.48
0.40
3.15
0.12
12.50
2.14
959.10
230.04
2559.48
528.10
2.12
121.56
2.63
1.85
35.19
1.75
0.31
1.20
8.66
19.66
1.17
61.29
7.09
0.10
8.78
6.85
2.50
6.41
1.19
4.96
1.03
209.77
PABFh
PABFhx
PABFx
PABGh
PABHh
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMlSSAd
PEMISSC
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFOJEMA
PFO/EMC
PFOJEMCh
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFQCh
PFOCx
PSSJEMAd
PSSlEMC
PSSIFOA
PSSA
PSSC
PSSCd
PSSCh
PUBFx
PUBGx
PUSCx
R2UBF
R4SBF
R4SBFx
1005.34
4.69
546.67
HAnd
L2ABF
L2ABFd
L2ABFx
L2ABG
L2ABGh
PABlEMCh
PABIEMF
PABlEMFd
PABlEMFh
PABF
619.48
13.34
5.39
414.60
139.35
4.33
619.84
2.84
4724
167.27
23.94
0.04
2187.45
624
45.68
3.37
27.69
4.38
3.49
1.83
0.92
m9.53
1497.36
10.28
17731.31
935.43
51.38
526
108.90
3.71
1.60
0.53
2.42
3.78
1.74
51.66
3.30
1.37
0.10
30.73
0.37
11.19
1.35
029
0.65
0.41
8.36
6.01
0.40
0.78
37.65
0.13
0.30
52.57
266.83
0.25
tf!nIgn
L2ABF
L2ABG
11.04
50.28
Anribute
tiectares
~nribll1.fl.
Hectar~
Anribll1.fl.
L2ABGh
L2ABGx
NP
PABIEMF
PABIEMFd
PABF
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PFOIEMA
PFOIEMC
PFOIEMCh
PFO/EMCx
PFOA
PFOAd
PFOC
PFOCd
PSSlEMCd
PSSA
PSSC
PUBFx
PUBGx
R2UBG
R4SBF
59.91
25.93
1726.44
50.10
16.48
50.76
36.25
116.21
15.83
810.34
71.20
0.13
1.59
0.85
15.63
3.58
1708.80
572.57
0.18
0.19
2484.65
326.39
1.24
22.78
1.64
45.52
0.70
1.78
13.95
1.73
6.30
3.47
0.58
0.54
0.00
14.47
0.05
248.01
95.08
PABFh
PABFx
PABGh
PABGx
PEMIABF
PEMlABFh
PEMlABFx
PEM/FOC
PEMlFOCh
PEMlFOCx
PEMISSA
PEMlSSAh
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMC
PFO/EMCh
PFO/SSCh
PFOA
PFOAh
PFOC
PFOCh
PSSIFOC
PSSA
PSSAh
PSSC
PSSCh
PUBFx
PUSCh
R4SBF
819.10
126.53
22.67
2.66
10.24
1.25
0.14
4.45
1.38
1.49
4.39
11.27
0.21
2139.58
164.31
115.89
0.56
2982.79
34.37
103.24
24.04
9.38
229.63
0.38
1.10
2.38
0.61
5.62
3.61
6.28
6.59
0.15
5.21
34.96
0.52
7.94
3.31
0.20
149.39
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMlFOAd
PEMlFOAh
PEMIFOC
PEMlFOCd
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFOIEMA
PFO/EMAd
PFOIEMC
PFOIEMCd
PFOIEMCh
PFOIEMCx
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMAd
PSSA
PUBF
PUBFh
PUBFx
PUSAh
PUSCh
R2UBG
R2USA
R2USC
R4SBF
~
L1UBGh
530.48
L1UBHh
14302.10
L2ABF
83.94
L2ABFx
0.90
L2ABGh
72.51
L2UBFh
2.54
L2USAh
3.29
L2USCh
59.30
PABIEMF
21.13
PAB/EMFh
6.50
PABlEMFx
0.48
PABF
22.29
Hutchinson
L1UBGh
42.55
L2ABF
40.30
L2ABG
162.65
L2ABGh
22.71
PABIEMF
28.49
PABlEMFh
1.80
PABF
197.24
PABFd
7.14
PABFh
162.72
PABFx
216.30
PABGh
22.69
PABGx
39.47
Hecta.r~
347.93
36.74
30.41
47.57
4.31
2.58
34.22
2.52
1.38
3463.44
1953.66
0.84
0.32
4040.83
590.59
8.52
2.46
79.34
23.63
2.50
14.25
5.15
45.03
24.n
0.49
2.58
49.10
11.26
1.71
16.08
0.76
2.10
2.27
7.17
0.16
1.46
0.26
8.86
0.25
0.06
332.03
0.10
0.30
7.73
Hyde
L1UBHh
L2ABF
L2ABFh
L2ABFx
L2ABG
L2ABGh
L2USCh
601.49
619.25
25.94
1.67
625.63
77.14
2.94
AnrilJJl1.fl.
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFh
PEMIFOC
PEMlFOCh
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOIEMC
PFOA
PFOC
PFOCh
PSSlFOCh
PSSA
PSSC
PSSCx
PUBFx
R4SBF
Hectares
414.08
26.76
24.99
1138.93
248.25
16.46
5.06
14.49
25.61
1.71
7.79
3248.73
308.44
14.51
10657.59
175.48
62.41
0.61
87.40
4.22
0.07
0.84
8.24
7.28
0.35
1.35
2.18
1.13
0.10
12.90
4.05
Jerauld
L2ABF
126.15
L2ABFd
54.10
L2ABFx
1.21
L2ABG
56.66
PABIEMF
93.17
PABlEMFd
39.74
PABlEMFh
2.39
PABlEMFx
1.55
PABF
49.23
PABFH
42.46
PABFX
31.97
PABFh
230.69
PABFx
89.75
PABGH
3.73
PABGh
8.76
PABGx
13.20
PEMlABF
1024.46
PEMlABFd
72.33
PEMlABFh
6.13
PEMlABFx
0.18
Appendix B1, polygon wetlands / 38
~t1.ci.l2utfJ.
tff1ftlif(§
AtlJibutfJ.
tfegMfl.S
~t1.abute.
t:!.egares
~t1til2utft
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOfEMA
PFOIEMC
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSIEMC
PSSlFOA
PSSIFOC
PSSA
PSSAd
PSSC
PSSCh
PUBFx
R4SBF
3.93
1.15
9.43
5.76
0.26
7.07
0.73
1.11
3135.01
517.36
3.59
0.10
2648.57
424.84
5.18
. 1.49
49.32
0.05
3.35
0.07
1.66
9.57
0.32
028
39.54
14.99
1.14
28.47
10.05
0.70
0.38
0.14
1.36
2.38
3.56
0.73
4.47
0.21
33.24
121.83
PEMlABFd
PEMlABFh
PEM'ABFx
PEMfFOA
PEM'FOAd
PEMfFOC
PEMlFOCd
PEMfFOCh
PEMfFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFO/EMA
PFOfEMAd
PFOIEMC
flFOIEMCd
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMC
PSSlEMCd
PSSlFOC
PSSA
PSSAd
PSSAx
PSSC
PSSCd
PUBFh
PUBFx
R4SBF
1059.88
1.91
0.28
9.80
0.17
59.13
4.34
0.57
0.29
1.48
14.36
0.38
4076.83
857.55
0.71
0.10
3703.09
11n.82
1.00
1.92
220.78
1.94
37.52
0.84
23W'
2.80
0.83
42.50
8.78
0.41
119.87
36.12
0.86
0.39
9.89
0.95
3.47
3.08
0.29
0.09
4.48
3.39
0.12
15.76
55.40
PABJEMF
PABJEMFd
PABfEMFh
PABF
PABFh
PABFx
PABGx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEMIFOA
PEMfFOAd
PEMfFOC
PEMfFOCd
PEMlFOCx
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFO/EMA
PFO/EMAd
PFO/EMC
PFOIEMCd
PFO/EMCx
PFO/SSC
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCx
PSSlEMA
PSSlEMC
PSS/EMCd
PSS/FOCd
PSSA
PSSAd
PSSC
PSSCd
PUBF
PUBFx
R4SBF
633.69
76.84
1.18
146.79
79.13
174.85
2.69
4054.55
4.15
411.39
1.31
1.74
3.40
39.23
0.44
4.37
0.81
6.09
845.95
1205.83
0.12
1896.02
1195.67
0.67
2.16
33.07
29.05
6.52
2.75
61.83
36.17
3.16
1.29
28.02
7.55
0.22
63.89
37.76
0.24
0.26
3.26
2.04
0.75
2.41
0.19
6.04
0.56
8.24
10.61
69.08
l.JMgJn
L1UBGh
20.13
L2ABGh
55.99
PABF
3.10
PABFd
1.31
PABFh
37.95
PABFx
53.49
PABGh
17.50
PABGx
41.80
PEMlABF
252.60
71.17
PEMlABFd
PEMlABFh
5.79
PEMlABFx
13.88
PEMlFOA
9.76
PEMIFOC
1.49
PEMISSA
3.66
PEMA
993.65
PEMAd
1514.54
PEMAh
1.12
PEMC
1101.89
PEMCd
512.29
PEMCh
5.09
PEMCx
2.55
PEMF
4.56
PEMFd
1.87
PEMFh
9.23
PEMFx
1.05
PFO/EMA
34.33
PFOIEMAd
0.23
PFOfEMC
45.37
PFOIEMCx
4.55
PFOA
64.21
PFOAd
3.55
PFOAx
0.49
PFOC
13.39
PFOCd
1.44
PFOCh
1.07
PFOCx
1.32
PSSlEMC
0.00
PSSA
1.05
PSSC
0.73
PSSCd
0.97
PUBFx
11.08
PUBGx
5.75
R2UBF
0.33
R2UBG
213.76
R2USA
19.96
R2USC
2.33
R4SBF
0.73
Kingsbury
L2ABG
4307.17
L2ABGh
11.30
PABIEMF
257.57
PAB/EMFh
8.22
PABF
134.59
PABFd
6.43
PABFh
62.49
PABFx
322.23
PABGh
2.98
PABGx
20.38
PEMlABF
9813.31
39/ Appendix 81, polygon wetlands
l.m
L1UBG
L2ABF
L2ABFx
L2ABG
L2ABGx
L2UBG
1696.00
98.60
0.12
914.75
9.47
26.74
tfect(1Cf1§
MmtWI
L1UBG
L1UBGh
248.55
37.51
,
Attribute
l1UBH
L2ABF
L2ABG
L2ABGd
L2ABGh
L2UBGh
l2USA
PABIEMF
PABIEMFd
PABF
PABFd
PABFh
PABFx
PABGh
PEMlABF
PEMlABFd
PEMlABFh
PEMlABGx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFOCd
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFOIEMC
PFOIEMCd
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSS/EMC
PSSlFOA
PSSlFOC
PSSA
PSSAd
PSSC
Hectares
Attribute
Hectares
1855.07
20.36
3987.89
15.30
PSSCd
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUBHh
R4SBF
R4SBFx
2.11
2.97
68.12
108.66
30.14
19.80
0.12
5.32
33.80
30.41
0.20
231.14
0.53
693.98
4.65
12.36
12.54
6.45
2540.66
96.54
10.10
1.61
14.78
4.09
24.30
11.63
8.56
2.20
3793.66
963.14
3.25
0.25
2523.39
318.98
2.57
1.24
5223.70
482.53
52.98
17.40
3.10
5.12
2.28
0.56
37.59
4.50
23.40
0.92
1.74
0.26
5.83
0.26
2.04
0.80
8.51
1.86
7.62
2.n
~
L2ABF
L2ABFx
L2ABG
L2ABGh
PAB/EMF
PABlEMFd
PABlEMG
PABF
PABFh
PABFx
PABGh
PABGx
PEMJABF
PEMJABFd
PEMJABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFOIEMAd
PFO/EMC
PFO/EMCd
PFOfEMCh
PFO/EMCx
PFOA
PFOAd
PFOC
PFOCd
PSS/EMA
PSSIEMAd
146.83
0.34
406.25
218.16
507.62
20.91
10.73
111.17
81.89
169.98
5.12
3.12
1380.78
68.10
10.26
7.72
0.54
18.22
1.43
3.27
1754.11
1372.38
3.28
3960.63
741.81
0.35
6.62
23.08
0.30
3.89
6.15
0.41
127.51
3.24
0.22
3.96
24.20
3.24
33.44
5.38
1.02
0.83
Attribute
Hectares
PSSA
PSSC
PUBFh
PUBFx
0.78
4.74
2.21
23.61
6.22
136.84
A2UBG
R4SBF
McPherson
11 UBGh
76.64
L2ABF
57.39
L2ABG
1488.07
L2ABGh
80.09
PABIEMF
247.94
PABlEMFh
11.54
PABF
446.64
PABFh
162.39
PABFx
258.59
PABGh
5.18
PABGx
4.62
PEMlABF
2147.84
PEMlABFd
1.05
PEMlABFh
25.95
PEMIFOA
1.55
PEMIFOC
6.58
PEMISSA
1.18
PEMISSC
0.57
PEMA
6150.17
PEMAd
74.16
PEMAh
1.79
PEMAx
0.10
PEMC
11994.43
PEMCd
49.46
PEMCh
4.44
PEMCx
1.69
PEMF
2326.44
PEMFh
18.58
PFO/EMA
0.50
PFO/EMC
6.12
PFO/SSA
1.34
PFOA
11.26
PFOAd
0.21
PFOC
3.20
PFOCh
2.09
PSSA
0.09
PSSC
0.18
PUBFx
4.27
R4SBF
5.78
MiMr
L2ABF
L2ABG
L2ABGh
PABIEMF
45.23
157.71
77.67
115.05
Attribute
PABIEMFh
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCx
PEMISSA
PEMISSAd
PEMISSC
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFOIEMA
PFO/EMAd
PFOIEMC
PFO/EMCx
PFOA
PFOAd
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlFOC
PSSA
PSSC
PUBF
PUBFh
PUBFx
PUBHx
PR4SBF
R4SBFx
~
5.12
66.12
5.61
73.28
258.84
13.79
7.10
2838.53
183.76
11.46
1.84
2.31
15.87
1.28
1.92
0.32
0.70
1975.96
722.96
o.n
3938.50
575.43
1.70
1.24
40.74
3.06
2.23
2.79
0.15
54.64
2.01
22.32
5.61
56.34
2.98
0.70
0.21
0.18
0.36
0.76
3.15
0.80
1.96
17.72
1.57
82.14
1.08
Minnehaha
l1UBG
76.41
L2ABF
253.22
L2ABFx
0.81
L2ABG
1026.58
Appendix B1, polygon wetlands / 40
At1d.bUl.t1.
PAB/EMF
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMlFOAx
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMISSC
PEMlSSCd
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFOIEMA
PFOIEMAd
PFO/EMC
PFOIEMCd
PFOIEMCx
PFO/SSCx
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSJEMC
PSSlFOA
PSS/FOAd
PSS/FOC
PSS/FOCd
PSSA
PSSAd
Hegs&.~
Attril1.ute
tiet;.tare.~
137.01
185.57
4.59
62.52
115.78
24.21
SO.83
1139.08
173.01
3.36
0.92
21.10
0.94
0.26
59.12
4.33
2.13
21.14
0.53
1.92
3.46
PSSC
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUSAx
PUSC
PUSCx
R2UBG
R2UBGx
R2USA
R2USC
R3UBG
R4SBA
R4SBC
R4SBF
R4SBFx
1.81
0.09
0.24
45.61
3.86
56.69
0.39
0.26
3.24
363.07
53.96
4.55
13.67
2.68
6.43
0.33
312.68
7.08
Moody
L2ABG
PAB/EMF
PABlEMFd
PABlEMFh
PABlEMFx
PABF
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMlSSAd
PEMISSC
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFO/EMAd
173.78
127.89
4.46
7.56
0.16
39.17
71.72
116.12
17.64
933.18
215.88
1.17
4.59
3.20
11.36
122.58
20.76
9.04
0.38
1.46
9SO.35
527.75
1.91
794.92
323.60
0.90
5.61
22.07
11.72
0.17
0.38
3.40
1.76
l.n
7.45
1594.94
1135.91
14.09
1.56
1302.40
587.86
1.92
4.47
29.69
10.34
5.84
o.n
58.95
7.94
3.33
1.09
52.67
7.64
0.24
42.07
9.04
0.33
0.52
2.67
16.44
1.22
0.42
0.93
7.18
0.82
41/ Appendix B1, polygon wetlands
.4ttribyte.
PFO/EMC
PFOIEMCd
PFOIEMCh
PFO/SSA
PFO/SSCd
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PSSJEMC
PSSlFOC
PSSA
PSSAd
PSSC
PSSCd
PUBFh
PUBFx
PUBGx
R2UBG
R2USA
R2USC
R4SBA
R4SBF
tiectare~
43.14
8.12
1.24
0.13
1.42
35.12
11.58
0.37
77.75
1.90
1.86
0.95
1.70
1.74
0.53
0.56
0.29
13.25
0.21
356.78
0.19
0.42
0.60
54.87
Poner
L1UBFh
L1UBGh
L1UBHh
L2A8F
L2ABGh
L2UBF
L2UBFh
L2UBGH
L2USCh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PEMlABF
PEMlABFh
PEMIFOA
PEMIFOAh
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMISSA
PEMlSSAh
PEMISSC
PEMlSSCh
PEMA
0.51
954.85
6519.87
82.29
52.07
0.04
2.95
52.54
59.79
31.93
9.43
27.03
528.45
125.69
18.59
184.22
8.75
1.04
8.14
1.09
0.99
0.18
0.37
2.82
1.28
1.27
4029.12
Attdl1.ute
PEMAx
PEMAd
PEMAh
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMU
PFOIEMAh
PFOIEMCh
PFOA
PFOAd
PFOAh
PFOC
PFOCh
PSSA
PSSAh
PSSC
PSSCh
PUBlEMFh
PUBFh
PUBFx
PUBGh
PUBGx
PUSCx
PUSCh
R4SBF
Hectart1.~
1.30
318.76
44.16
0.16
5555.39
151.28
43.94
4.35
504.63
2.18
30.35
0.45
0.20
7.89
1.48
1.40
0.52
0.67
1.97
1.14
2.51
0.14
1.31
169.04
103.98
11.66
6.12
0.42
0.56
0.19
~
L1UBG
L1UBHh
L2ABF
L2ABFx
L2ABG
L2ABGh
L2UBGh
PABIEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFb
PEMlABFd
81.23
3938.39
56.21
18.42
1889.64
374.43
139.38
670.57
1.74
66.83
15.74
677.78
35.54
46.69
103.72
31.32
39.14
29.21
3408.56
0.55
164.99
,
~1td1l1!1~
Hecta{M
~tJ.ril1l!1e.
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAh
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMlSSAh
PEMlSSB
PEMISSC
PEMfSSCd
PEMlSSCx
PEMlUBFh
PEMlUBGh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCf
PEMCh
PEMCx
PEMF
PEMFb
PEMFd
PEMFh
PEMFx
PFOIEMA
PFO/EMB
PFOIEMC
PFO/EMCd
PFO/EMCh
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOBd
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMB
PSSlEMC
PSSlEMCd
PSSlEMCh
1137.50
2.72
21.90
1.07
28.37
1.02
11.14
0.28
22.39
0.69
14.89
236.74
79.11
0.45
2.27
0.01
0.10
6214.97
1434.28
285.05
9.15
47.62
5573.72
838.53
0.33
501.60
35.69
3781.91
1.07
237.86
4n.00
36.87
7.73
8.24
15.19
0.33
14.42
0.61
4.93
1.89
156.98
17.79
47.22
0.40
61.97
10.97
49.48
5.61
4.60
37.20
53.60
0.76
2.06
PSSlFOC
PSSA
PSSAd
PSSB
PSSC
PSSCd
PSSCh
PSSCx
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
R2UBHx
R4SBF
R4SBFx
tle£aC€$
2.03
69.15
1.40
24.18
53.23
3.85
13.93
4.05
0.42
10.34
74.11
2.64
4.08
7.66
32.18
2.50
Srulm
L2ABF
L2ABFd
L2ABFx
L2ABG
L2ABGd
PABIEMF
PABIEMFd
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABGH
PABGh
PABGx
PEMlABF
PEMlABFh
PEMlABFd
PEMlABFx
PEMIFOA
PEMlFOAd
PEMlFOAx
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAx
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
63.67
11.16
0.09
37.75
63.38
234.97
89.63
4.43
47.67
198.00
27.14
115.44
4.05
3.49
10.81
1493.04
0.48
401.16
0.57
22.69
7.11
0.47
52.15
14.44
0.99
1.24
7.51
8.34
5820.00
0.18
2925.45
0.07
7297.47
1651.05
0.31
~ttribute.
Hgga.res
~1ld.!1.uffl.
PEMCx
PEMF
PEMFd
PFOIEMA
PFO/EMAd
PFOIEMC
PFO/EMCd
PFO/EMF
PFOA
PFOAd
PFOC
PFOCd
PFOCx
PSSlFOA
PSSA
PSSAd
PSSC
PSSCd
PUBFx
PUBGx
PUSCh
R2UBG
R2USA
R4SBF
15.76
57.35
82.95
11.92
4.08
47.06
7.89
8.10
86.34
12.92
66.85
7.39
2.24
0.79
22.01
2.29
2.89
0.50
21.95
3.69
0.06
360.30
1.27
288.66
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFO/EMA
PFOIEMC
PFO/EMCx
PFO/SSAd
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCx
PSSlFOCx
PSSA
PSSC
PSSCd
PSSCx
PUBFx
R2UBF
R2UBG
R4SBF
R4SBFx
SR!nk
L1UBH
L2ABF
L2ABG
L2A8Gh
L2USA
PABIEMF
PABlEMFh
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMISSA
PEMlSSB
PEMI$SC
PEMA
539.56
190.78
575.82
166.79
4.68
538.04
14.18
2.01
211.81
2.33
96.63
317.84
6.67
55.31
1080.15
29.25
20.68
1.92
62.89
64.41
6.42
0.71
11.05
11.00
0.20
1.48
14406.17
tlflQt9.(~
1220.71
14.61
1.60
4.78
2.68
11208.41
428.35
1.88
16.83
86.45
0.36
5.54
1.66
0.48
17.03
3.39
3.31
1.22
1.12
285.29
6.82
5.72
98.58
2.25
3.62
1.13
10.65
1.69
0.18
0.59
17.30
149.37
702.09
1331.04
2.02
SYl!¥
L1UBGh
L1UBHh
L2ABF
L2ABFh
L2ABG
L2ABGh
L2UBFh
L2USAh
L2USCh
PABIEMF
PABlEMFh
PABF
PABFh
PABFhx
PABFx
PABGh
1868.14
12385.15
184.30
64.07
548.53
37.32
12.90
0.08
57.69
150.99
6.76
3.11
821.23
0.35
227.30
41.88
t!.~rMM
dttritJ.ute
PEMlABF
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCh
PEMISSC
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOIEMC
PFO/EMCh
PFOA
PFOAx
PFOC
PFOCh
PSSlEMC
PSSA
PSSC
PSSCh
PUBFx
PUSAh
PUSCx
R4SBF
346.00
32.15
0.68
1.97
3.64
1.40
0.46
4959.20
469.92
19.68
0.64
5172.20
157.43
46.79
3.48
14.73
12.88
0.20
3.35
12.95
0.76
0.32
1.43
0.65
2.30
1.51
1.31
13.22
0.09
0.37
47.81
IYrntr
L2ABG
L2UBFx
PABF
PABFd
PABFh
PABFx
PABG
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSAd
PEMA
PEMAd
100.52
12.61
45.12
1.49
84.79
96.n
1.39
16.95
430.76
34.19
0.46
0.29
5.09
0.55
27.08
4.73
11.19
2.06
1693.35
1988.96
431 Appendix 81, polygon wetlands
dttritJ.ule.
Hecti!re~
6PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFOIEMAd
PFO/EMC
PFOIEMCd
PFO/EMCh
PFOIEMCx
PFO/SSA
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PUBFx
R2UBG
R2USA
R2USC
R4SBF
0.10
1748.44
920.81
1.21
1.90
110.15
122.13
3.07
3.98
1.88
51.37
18.70
1.35
18.55
0.80
38.28
9.16
0.75
34.50
12.50
1.52
1.03
1.56
35.25
39.92
2.52
1.09
29.68
UniQn
l2ABF
l2ABG
PABIEMF
PABlEMFx
PABF
PABFh
PABFx
PABGh
PEMlABF
PEMlABFd
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
101.13
121.50
27.42
0.66
79.08
28.05
36.08
24.12
181.68
16.50
4.17
84.38
8.17
4.34
310.92
15.43
0.27
697.74
471.44
3.36
1.38
351.48
172.69
dnribll1.t:.
tl.c.gg{I1B
Al1Iibut~
t!.ectg~
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSSIFOA
PSSlFOC
PSSIUSA
PSSA
PSSC
PSSCd
PUBFx
PUBG
PUBGx
PUS/SSA
PUSA
PUSCh
R2UBF
R2UBG
R2UBH
R2UBHx
R2USA
R2USAx
R2USC
R4SBF
R4SBFx
13.61
3.03
6.99
0.46
4.43
0.10
207.70
26.87
9.n
13.01
14.94
318.75
17.16
0.44
6.62
2.51
1.73
0.65
26.13
0.91
8.43
9.68
46.94
43.34
22.18
0.51
31.37
0.51
17.99
0.80
1.46
1.32
0.39
93.54
1043.21
35.59
PABlEMFh
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCx
PEMlFOCh
PEMISSA
PEMA
PEMAx
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PEMFh
PFOIEMA
PFOIEMAx
PFO/EMC
PFO/SSA
PFOfSSC
PFO/SSCh
PFOA
PFOC
PFOCd
PSSlEMA
PSSlEMC
PSSA
PSSCh
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUBHx
PUSAh
PUSAx
PUSCh
R4SBF
0.97
63.45
320.19
73.08
384.66
13.30
3.12
2.99
0.56
4.03
0.94
3706.91
1.44
153.96
77.87
3597.84
92.75
17.32
2.39
812.53
6.99
7.11
0.52
0.68
0.48
0.70
0.50
0.23
24.30
4.92
0.75
0.78
0.31
4.78
0.85
0.24
52.46
48.96
32.04
0.96
0.09
0.13
0.27
0.18
5.74
n.32
4.48
66.84
5.29
2.29
Walworth
l1UBGh
l1UBHh
L2ABF
L2A8Fh
l2ABG
l2ABGx
l2ABGh
L2UBFh
L2USCh
PABIEMF
1295.49
6078.81
33.03
147.31
782.83
10.79
61.37
7.58
115.10
239.24
YruJJmm
l1UBGh
L1UBHh
l2ABF
l2ABFx
L2ABG
L2ABGh
59.12
1577.92
129.62
0.16
121.43
31.82
~ttritJ.l!.t~
Hectgr~§
7.77
0.60
0.96
124.14
4.79
145.05
67.95
27.02
5.77
176.25
14.54
0.91
9.91
4.18
7.03
1.34
PAB/EMF
PABlEMFh
PAB/EMFx
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFOCd
At1.ribu&.
PEM/FOCh
PEM/SSA
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFO/EMAd
PFO/EMAh
PFO/EMC
Hectares
~ttrif2ute
0.31
8.50
1021.30
1161.48
0.32
1483.28
398.05
1.02
4.78
82.82
19.69
30.33
56.99
1.36
4.50
39.31
PFO/EMCd
PFO/EMCh
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSS/EMC
PSS/FOA
PSSIUSA
PSSlUSC
PSSA
PSSAh
Hectgfl1S
~ttril2!ll~
12.67
1.71
43.03
29.15
1.58
21.36
1.02
2.26
1.49
1.18
0.40
2.85
10.69
40.72
2.19
5.57
PSSC
PSSCd
PUBFx
PUBGx
PUS/SSA
PUS/SSC
PUSAh
PUSCh
PUSCx
R2UBG
R2UBH
R2USA
R2USC
R4SBF
ti~ctaf~S
18.74
0.40
14.06
8.12
12.54
19.60
0.06
0.20
0.09
326.22
931.56
31.84
84.38
12.51
Linear Wetlands
Le.ngth (m I
Mnbute
.,
AYrQm
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFO/EMC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PUBFx
R4SBF
R4SBFx
2372.4
316.3
5529.5
888.4
147.3
299.4
35.0
245849.8
1610.4
3462.3
395348.8
651.7
388.0
439308.7
108.9
1585.2
1111.5
19077.5
1461.4
11219.4
671.8
11963.4
120.4
191.5
2107.0
988.5
74481.5
130.8
Beadle
PABFx
3653
771.8
PEMlABF
175.1
PEMIFOC
90.5
PEMIFOCh
AltniMB.
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFO/EMC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PSSC
PUBFx
PUSCx
R4SBC
R4SBF
R4SBFx
Le.nglh lml
410382.4
4020.0
15477.2
686668.6
1542.5
410.7
935130.1
2218.9
156.7
1117.0
39935.1
363.8
1772.1
1371.9
20428.8
1252.2
620.0
1956.4
194.7
727.5
28.2
10790.6
181162.8
840.7
Bon Homme
PABF
916.8
PABFh
386.8
PABFx
548.1
PEMlABFh
92.7
174.4
PEMIFOA
PEMIFOC
72.7
119401.6
PEMA
PEMAh
57.5
PEMAd
2596.3
Attflf2ute
Length (ml
9508.3
PEMAx
529244.5
PEMC
8280.8
PEMCX
990.4
PEMCd
209.3
PEMCh
150234.3
PEMCx
1645.2
PEMF
PEMFh
541.2
PEMFx
750.2
PFO/EMC
745.9
PFO/EMCx
255.6
46100.9
PFOA
372.2
PFOAX
434.4
PFOAd
PFOAh
2713.1
1639.2
PFOAx
PFOC
50667.1
PFOCh
208.6
1079.7
PFOCx
PSSlFOA
392.9
319.4
PSSA
209.9
PUBFx
145.3
R2USC
R4SBA
29175.6
17145.4
R4SBC
R4SBF
132038.6
1141.2
R4SBFx
Brookings
56.6
PABFx
286.4
PEMIFOC
454616.0
PEMA
2503.0
PEMAd
7478.2
PEMAx
1085781.4
PEMC
~t1nt2!l1B.
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PUBFx
R4SBF
R4SBFx
Length (m)
3230.6
211.5
459060.2
359.0
62817.8
1590.5
1204.9
2424.8
13900.8
426.7
2739.5
102.6
124.3
39062.2
2590.7
Brown
PA8JEMF
356.7
1658.8
PABF
PABFh
350.3
PABFx
2321.3
PEMlABF
13935.6
PEMlABFx
297.9
414.0
PEMIFOA
PEMlFOCx
676.2
PEMA
353381.0
PEMAd
967.3
PEMAx
92332.7
PEMC
455743.6
PEMCd
5038.3
PEMCh
106.4
PEMCx
466530.3
23217.1
PEMF
PEMFx
1897.7
PFO/EMC
167.4
Appendix B 1, polygon and linear wetlands /44
A!1.riblltli!
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCd
PFOCx
PSSlFOA
PUBFx
R4SBF
R4SBFx
Length (m!
Attribute
62.0
143269.3
1436.1
1907.9
941.8
35563.6
2566.4
5315.6
3832.4
6103.8
196.8
194411.9
39881.4
PFOA
PFOAx
PFOAh
PFOC
PFOCh
PSSA
PSSC
PSSCx
PUBFx
R4SBA
R4SBC
R4SBF
~
PABF
341.4
311.7
PABFh
1105.4
PABFx
PEMIFOC
150.2
157.4
PEMIFOCh
152.4
PEMlFOCx
220038.5
PEMA
1259.1
PEMAd
PEMAx
5254.4
273096.5
PEMC
547.6
PEMCd
PEMCh
444.1
257895.9
PEMCx
107.2
PEMFx
15285.4
PFOA
11472.5
PFOAh
1424.1
PFOAx
14493.8
PFOC
PFOCd
113.7
254.8
PFOCh
290.9
PFOCx
16376.6
R4SBA
9443.4
R4SBC
87574.0
R4SBF
147.3
R4SBFx
Buffalo
271.6
L2UBGh
924.5
PABF
142.2
PABFh
26.7
PABFx
PEMlABF
214.6
373521.0
PEMA
97.2
PEMAd
116.5
PEMAh
924.3
PEMAx
364305.7
PEMC
PEMCX
3450.1
223.3
PEMCd
PEMCh
24.1
49318.6
PEMCx
PEMF
404.5
PEMFh
192.1
12.2
PEMFx
45/ Appendix 81, linear wetlands
L~ngth
(m!
5869.6
132.6
2949.5
20824.6
528.8
1570.7
467.1
192.1
246.4
57866.7
49794.5
145838.1
Campbell
L2UBFh
597.8
PABIEMF
225.0
PABF
1483.0
473.9
PABFh
PABFx
1041.9
1687.4
PEMlABF
PEMlABFh
289.3
279914.4
PEMA
PEMAd
35.8
PEMAx
4166.1
PEMC
278196.6
PEMCh
1702.7
PEMCx
18368.9
9282.8
PEMF
PEMFh
713.8
15133.4
PFOA
PFOAh
2081.6
181.4
PFOAx
PFOC
1149.6
PFOCh
129.2
PFOCx
384.0
4534.2
PSSA
167.8
PSSC
20547.4
R2SBA
R4SBA
38688.3
10252.1
R4SBC
R4SBF
81235.7
R4SBFx
1547.0
Charles Mix
PABF
1272.1
PABFh
944.4
PABFx
2524.4
8275.1
PEMlABF
PEMlABFh
545.5
PEMlABFx
2051.0
159.7
PEMIFOC
PEMlFOCx
451.4
1144.2
PEMISSC
PEMlSSCd
36.4
PEMA
369756.4
PEMAh
118.7
PEMAd
2881.3
6081.0
PEMAx
713536.9
PEMC
~t!.ribll1li!
Lflng1.h lro!
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFOA
PFOAx
PFOAd
PFOAh
PFOC
PFOCh
PFOCx
PSSC
PUBFx
PUBGx
PUSCh
R2UBF
R2USA
R2USC
R4SBA
R4SBC
R4SBF
R4SBFX
R4SBFx
550.6
2379.3
329289.9
3523.2
687.2
1368.2
212.7
1441.3
90623.5
1216.3
607.3
14069.8
82190.1
1135.4
6246.7
1436.3
86.3
23.1
20.4
352.7
8842.1
524.8
73170.6
11104.5
145003.9
152383.1
8776.0
mm
PABF
52.1
PABFx
5979.2
PEMlABF
6565.7
PEMlABFh
2157.3
PEMlABFx
13.0
PEMIFOC
286.0
PEMA
265091.1
PEMAd
804.2
PEMAx
8687.6
PEMC
786117.4
PEMCX
215704.9
PEMCd
1208.7
PEMCh
58.6
PEMCx
234690.8
PEMF
4080.3
PEMFx
128.4
PFO/EMC
795.7
PFOA
72361.7
PFOAd
2259.1
PFOAh
3774.8
PFOAx
1564.0
PFOC
16496.8
PFOCh
137.7
PFOCx
3849.4
PSSA
1624.7
PSSC
231.5
PSSCx
64.1
PUBFx
258.9
R4SBF
5509.7
~l1.ril2!l1fJ.
~fJ.ng1.h
{ro!
~
PABF
732.4
PABFh
14.0
PABFx
162.0
PEMlABF
631.3
PEMA
65039.6
PEMAd
1452.4
PEMAx
10347.9
PEMC
200012.0
PEMCd
1504.7
PEMCx
245510.7
PEMF
354.9
PEMFx
2956.8
PFOIEMC
727.9
PFOA
31702.2
PFOAd
259.9
PFOAh
141.9
PFOAx
13162.2
PFOC
23447.5
PFOCh
129.6
PFOCx
2183.2
PSSA
47.1
R2UBG
36782.1
R2UBGx
5487.8
R2USA
1557.9
R2USC
1831.3
R4SBA
835.5
R4SBC
4960.0
R4SBF
45641.3
R4SBFx
47102.4
Codlngton
L2USA
6577.6
PABFh
84.4
PABFx
285.1
PEMlABF
4219.7
PEMIFOC
583.4
PEMA
293053.9
PEMAd
340.0
PEMAx
4092.9
PEMC
617946.9
PEMCd
950.2
PEMCh
300.7
PEMCx
45252.8
PEMF
7113.9
PEMFx
1749.7
PFOA
39250.3
PFOAD
152.4
PFOAx
3.7
PFOC
3352.6
PSSC
805.2
PUBFx
411.5
R4SBF
66048.8
R4SBFx
693.4
.
.
~t1.dbule
Length (m'
~
PABF
914.4
PABFx
1326.3
PEMlFOCx
36.5
PEMA
114840.5
PEMAd
6054.3
PEMAx
7674.9
PEMC
365793.7
PEMCh
469.4
PEMCd
3103.1
PEMCx
343864.7
PEMF
243.6
PEMFx
586.9
PFOA
18463.1
PFOAd
1298.4
PFOAh
3573.7
PFOAx
754.5
PFOAh
160.2
PFOC
10461.4
PFOCd
2222.0
PFOCx
1936.1
PSSA
142.7
PUBFx
496.6
R4SBF
71773.5
R4SBFx
12128.4
-,
~
12USA
59007.1
796.4
L2USC
PAB/EMF
1684.9
PABFh
55.3
PABFx
768.7
PEMlABF
28077.5
PEMlABFx
n2.2
PEMA
252761.2
4500.0
PEMAd
PEMAx
22120.0
PEMC
320304.9
PEMCd
1550.2
PEMCh
635.9
PEMCx
104895.7
PEMF
14565.0
PEMFh
2212.0
PEMFx
1734.0
41243.0
PFOA
PFOAd
468.4
PFOAh
673.4
PFOAx
313.7
PFOC
4022.7
486.7
PFOCx
PSSlEMC
57.8
PSSA
4406.0
157.0
PSSC
PUBFx
187.1
R2USA
799.2
45743.6
R4SBF
Attribute
Length 1m)
~
PABFh
187.3
PABFx
194.9
PEMlABF
2146.7
PEMIFOC
278.7
PEMA
310944.5
PEMAd
4813.9
PEMAx
4610.6
PEMC
1266714.9
PEMCd
6139.0
PEMCx
252802.5
PEMF
2914.4
PFO/EMC
286.0
PFOA
31nO.0
PFOAd
1895.1
PFOAx
101.8
PFOC
28033.3
PFOCd
639.0
PFOCx
1848.7
PSSA
2501.2
PSSC
2017.2
PUBFx
7753.2
R4SBC
28.8
R4SBCx
20.9
R4SBF
160036.8
R4SBFx
2964.4
QQ.yg/M
PABF
1629.0
PABFh
135.7
PABFx
1048.3
PEMIFOC
448.9
PEM/FOCx
1123.3
PEMA
118538.0
PEMAd
1053.2
PEMAx
2526.2
PEMC
226065.7
711.7
PEMCd
PEMCh
96.7
214528.7
PEMCX
PEMF
803.5
1085.7
PFO/EMC
PFOA
13248.6
PFOAh
362.1
PFOC
10160.8
PFOCh
805.5
PFOCx
1195.8
PUBFx
50.9
R4SBCx
4490.0
R4SBf
57313.9
R4SBFx
41509.2
~rJ.nllY1e
,ength (ml
Attribute
Lengrll (m!
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PEMFh
PFO/EMC
PFOA
PFOAh
PFOAx
PFOC
PFOCx
PUBFh
PUBFx
R4SBF
R4SBFx
2403.8
381857.4
370.4
90028.8
465603.1
122.1
691.6
247365.3
6413.8
251.7
1673.2
2448.5
2734.5
6627.2
528.3
1278.0
459.0
334.0
1255.3
11825.5
146.5
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PSSCx
PUBFx
R2UBG
R4SBA
R4SBAx
R4SBC
R4SBCx
R4SBF
R4SBFx
19.3
863n4.6
1816.3
170.4
141515.5
1125.2
259.4
95695.9
248.3
310.4
423.2
10080.3
251.0
926.8
34.4
10420.8
5673.3
471.4
260.7
733.1
9164.1
15018.5
114273.1
3469.8
235197.5
2840.5
~
L2USC
PABF
PABFx
PEMlABF
PEMA
PEMAh
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCx
PFOCh
PUBFh
PUBFx
PUSA
R4SBC
596.8
2028.7
358.6
1743.0
466256.4
46.0
982.4
111637.7
656301.2
310.1
317.3
255659.9
803.6
2490.8
3657.1
258.2
1249.0
297.1
1014.1
195.3
488.6
59.3
614.2
26.1
1161.2
R4SBF
96877.0
R4SBFx
96.1
~
Edmunds
12USA
2020.6
12USC
1920.1
PABF
177.9
PABFh
205.9
PABFx
394.0
PABFh
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
60.2
339.3
391.5
361756.2
1581.9
5900.9
I:I!!!!lln
PABFx
PEMlABF
PEMIFOA
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PEMFx
PFOIEMC
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PSSC
PUBFx
R4SBF
R4SBFx
22.0
2336.4
286.1
641.6
143061.0
1001.8
1882.0
348524.0
1969.2
73465.1
823.5
6529.9
159.2
88855.1
2383.1
296.7
11108.2
654.4
2339.8
191.3
82.1
50.0
27319.8
318.7
Appendix 81, linear wetlands / 46
Al1!ibUIg
Lf!nglh 1m 1
HBruI
279.8
PABFh
335.5
PABFx
520.6
PEMIFOC
987619.9
PEMA
3284.1
PEMAd
209.3
PEMAh
17630.3
PEMAx
1664055.4
PEMC
1508.7
PEMCd
531.6
PEMCh
850236.0
PEMCx
343.8
PEMFx
327.0
PFO/EMC
20313.0
PFOA
7963.8
PFOAh
3409.4
PFOAx
23168.2
PFOC
338.1
PFOCh
1371.7
PFOCx
1825.9
PSSA
597.4
PUBFx
4028.4
R4SBA
2460.6
R4SBC
27204.0
R4SBF
tI!!l!9n
102.7
PABF
20.1
PABFh
480.9
PABFx
242.6
PEMlABF
103.6
PEMlABFd
58979.5
PEMA
PEMAd
1869.9
688.7
PEMAx
PEMC
203220.7
965.5
PEMCd
PEMCx
340747.6
117.7
PFOIEMC
PFO/EMCx
70.3
39322.5
PFOA
PFOAd
3009.3
59.6
PFOAh
5816.9
PFOC
PFOCd
182.0
PFOCx
892.1
96.7
PSSAx
PUBFx
69.9
87145.5
R4SBF
R4SBFx
680.6
HYghu
160.5
L2UBFh
2414.4
PABF
PABFh
427.3
191.7
PABFx
PEMA
368782.6
PEMAh
369.6
PEMAx
4434.8
47/ Appendix 81. linear wetlands
(ml
Attribute
Length lml
419789.4
3332.7
146767.4
747.9
271.0
228.7
6767.8
2032.4
4057.2
245.0
174.1
1440.9
58.6
67.0
33.3
71910.5
38433.5
30206.9
3226.7
PEMCh
PEMCx
PEMF
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PUBFh
PUBFx
R4SBA
R4SBC
R4SBF
288.2
296316.8
51.5
2340.0
85.1
2168.7
872.3
1913.4
568.4
21.8
119.8
17683.8
10740.4
15165.6
L~ngtt!
A!tnl2ule
PEMC
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOA
PFOAh
PFOC
PFOCh
PFOCx
PSSA
PSSAh
PSSC
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
Hutchinson
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PEMFh
PFO/EMA
PFO/EMC
PFO/EMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PUBFx
PUSCx
R4SBF
R4SBFx
491.0
921.2
2481.1
29.5
181.5
2227.9
7312
152964.8
3215.2
32360.2
n8735.8
4597.7
1392.2
292464.1
1381.1
204.3
517.3
335.8
534.5
470.2
37124.5
1703.0
2556.8
1993.9
45n8.1
690.5
2353.6
275.5
30.8
181523.5
7516.6
tOO!l
PABFh
PEMA
PEMAd
PEMAx
PEMC
57.3
630162.2
478.0
12289.0
757209.5
Jerauld
1491.5
PABF
75.2
PABFh
294.2
PABFx
229.3
PEMlABF
997.1
PEMIFOC
58.8
PEMlFOCx
382851.3
PEMA
2200.4
PEMAd
PEMAx
6251.1
476517.7
PEMC
PEMCd
2348.8
96.7
PEMCh
PEMCx
241904.7
n9.0
PEMF
416.8
PEMFh
PFOA
26821.0
PFOAd
2595.9
PFOAh
6129.8
PFOAx
n8.6
11544.2
PFOC
PFOCx
1346.0
PSSA
1089.1
216.9
PSSC
PUBFx
299.6
R4SBC
6540.0
R4SBF
56315.0
Kingsbyry
PABF
93.3
PABFx
848.2
PEMlABF
133.9
PEMlFOCx
238.4
PEMA
230862.3
PEMAd
586.9
PEMAx
5750.9
PEMC
573926.9
PEMCd
2261.2
PEMCx
369578.5
PFO/EMC
364.9
PFOA
93375.0
PFOAd
3327.6
PFOAh
2448.6
PFOAx
900.2
L~l!gllllm)
~ttril1!!.t~
28804.1
3608.0
5583.6
203.5
131.8
265.9
33499.5
24397.2
PFOC
PFOCd
PFOCx
PSSC
PSSCx
PUBFx
R4SBF
R4SBFx
bIDm
PABF
PABFx
PEMlABF
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSAx
PSSC
PUBFx
R4SBF
R4SBFx
481.1
560.3
189.5
673.7
282.6
78951.5
5265.9
8188.4
446668.0
2089.6
219151.8
462.1
46888.8
5829.4
436.2
2386.1
26867.8
3707.9
207.4
1267.5
186.0
98.0
312.8
192.6
81187.2
4647.2
~
L2USAh
PABFh
PABFx
PEMlABFx
PEMIFOA
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCx
PEMFx
PFO/EMA
PFOCx
PFOA
PFOAx
PFOC
PFOCx
PSSA
PSSAh
196.6
37.2
2095.5
64.7
372.8
153158.9
8071.3
23.8
28917.9
339202.3
1546.1
375150.0
2864.3
68.9
583.6
691723.9
539.7
25891.3
6151.8
974.4
251.6
lltlribU1.~
~_{ml
PSSAx
PUBFx
R2UBG
R2USA
R2USC
R4SBC
R4SBF
R4SBFx
207.6
337.5
296.4
326.8
6.7
3053.0
98430.5
20303.8
MmbAll
L2USA
L2USC
PABIEMF
PABFh
PABFx
PEMlABF
PEMlABFx
PEMIFOA
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/SSA
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCh
PSSA
PUBFx
PUBGh
PUBGx
R4SBA
R4SBC
R4SBCx
R4SBF
R4SBFx
4790.6
570.2
162.3
47.3
In.8
5684.0
513.5
909.1
5721.2
546070.9
2063.2
45301.3
541599.2
1655.2
46.8
70196.0
142458.0
385.0
2923.5
2661.5
324.4
17434.2
746.4
511.6
12290.5
558.7
941.4
459.5
347.3
169.6
297.9
305.4
9717.7
9033.0
62905.6
52056.5
McCook
PABF
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
101.0
312.9
2105.8
130486.8
4937.8
1933.7
566559.8
369.8
41.1
454101.4
3On.O
lltldtlUl§.
~§.n!l1h
PEMFx
PFO/EMC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCx
PSSA
PSSC
PUBF
PUBFx
R4SBF
R4SBFx
297.2
655.3
51042.1
1224.1
890.3
889.2
10683.4
1009.2
382.2
718.4
18.3
399.4
125350.0
3613.0
lml
McPherson
PABFh
59.5
PABFx
581.4
PEMlABF
15953.7
PEMlABFx
416.9
PEMA
497036.2
PEMAd
85.5
PEMAx
26857.2
PEMC
611079.5
PEMCh
589.2
PEMCx
8n83.3
PEMF
65213.1
PEMFh
227.2
PEMFx
860.2
PFOA
6nl.3
PFOAh
74.5
PFOAx
90.1
PFOC
520.8
PUBFx
156.4
R4SBF
34179.8
Min!!
PAB/EMFd
PABFx
PEMlABF
PEMlABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCx
PUBFx
R4SBF
R4SBFx
253.8
654.4
2510.8
520.5
160224.6
3710.1
36.8
1092.3
529060.8
4785.4
462280.1
29213.1
1249.4
523.0
217.8
16816.2
980.2
662.5
12689Q.4
328.9
~tt.ribut~
~eD.gltJ. lml
Minnehaha
PABF
ln4.0
PABFh
136.5
PABFx
560.9
PEMlABF
4629.8
PEMlABFh
508.6
PEMlABFx
106.4
PEMIFOA
8n.3
PEMIFOC
2199.1
PEMA
326750.3
PEMAd
6440.7
PEMAx
26034.5
PEMC
844376.9
PEMCd
2109.0
PEMCh
28.1
PEMCx
295889.4
PEMF
2501.4
PEMFx
1466.3
PFO/EMC
372.0
PFO/EMCx
470.6
PFOA
136915.4
PFOAd
3018.6
PFOAh
1451.9
PFOAx
12400.7
PFOC
22n2.8
PFOCd
547.9
PFOCx
4109.7
PSSA
1260.3
PSSAd
435.6
PSSAx
222.9
PSSCx
353.9
PUBFx
328.0
PUSAx
57.4
PUSCx
84.4
R2UBG
290.1
R2USC
123.9
R4SBA
123.6
R4SBF
173263.6
R4SBFx
21136.7
~
PABF
1178.8
PABFx
516.8
PEMlABF
3590.1
PEMlABFx
939.5
PEMIFOC
1280.0
PEMA
255191.0
PEMAd
4898.3
PEMAx
25425.2
PEMC
743461.5
PEMCd
1885.5
PEMCh
61.1
PEMCx
248468.7
PEMF
495.7
PEMFh
61.4
PEMFx
980.2
PFO/EMC
858.6
PFO/EMCx
141.9
PFOA
25209.7
Len!l1h {m!
~tt.ribute
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PSSAd
PSSC
PSSCd
PUBFx
PUBGx
R2UBG
R4SBA
R4SBF
R4SBFx
38132
634.2
3611.8
16250.7
929.2
2967.0
164.2
100.6
363.9
307.8
38.7
46.2
785.0
159.8
89400.0
8327.4
Potter
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMU
PFOA
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSSA
PUBFh
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
33.2
93.0
362253.5
35.1
238.3
25560.3
315278.8
233.8
495.6
88543.1
1339.7
247.1
24.4
3975.6
1889.2
421.7
148.2
991.0
131.9
366.9
368.5
824.4
98646.9
25964.0
38023.2
392.6
~
L2ABGh
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
1068.0
245.6
1532.9
122.5
198.2
13745.0
3232.0
399385.2
927.3
40059.1
909318.3
2547.6
683.2
Appendix 81. linear wetlands 148
Le.n!l1t1.lml
Attrillutfl
Len!l1t1.lm I
At1.n"b,ute
~en!l1t1.lml
AtlIil1!J1f!.
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PSSCh
PUBFx
R4SBA
R4SBAx
R4SBC
R4SBF
R4SBFx
184649.4
36858.6
662.6
6339.9
132.3
40289.6
2050.0
9376.9
2139.1
13096.3
131.0
4416.8
2074.9
7278.4
2008.9
276.1
434.1
32588.0
4861.9
60926.5
287335.8
5278.3
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PUBFx
R4SBA
R4SBF
R4SBFx
526304.7
3806.1
24.7
983795.7
1935.4
502.7
123840.0
521.1
1033.1
1653.9
5883.1
71.2
4801.3
454.5
645.5
22.2
69022.5
16863.4
PEMCx
288844.2
PEMF
59.5
4n.O
PFOIEMA
PFOIEMCx
153.9
PF01Cd
64.4
PFOA
58214.0
PFOAd
705.0
1965.2
PFOAh
PFOAx
3044.8
PFOC
34522.8
47.6
PFOCd
PFOCh
42.4
PFOCx
49n.2
PSSA
150.8
561.4
PUBFx
R2UBG
41308.2
R2UBGx
615.0
R2USC
71.5
R4SBC
722.9
R4SBF
162741.7
36514.5
R4SBFx
Sanborn
PABF
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMFx
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCx
PSSA
PUBFx
R4SBF
R4SBFx
149.5
38.4
1359.6
95407.1
4334.2
19782.7
176213.0
13362
458993.3
760.0
37353.8
2892.9
2670.1
3104.0
204.0
2207.8
383.7
745.3
64090.7
2936.3
Spink
814.2
l2USA
69.2
PABIEMF
146.7
PABFh
1837.1
PABFx
134.7
PEMlABF
476.6
PEMIFOA
71.1
PEMlFOCx
PEMA
486138.1
10734.7
PEMAd
PEMAh
291.9
25620.7
PEMAx
l2UBFh
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOA
PFOAh
PFOAx
PFOC
PSSAh
PSSC
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
SYIlv
637.3
1710.1
195.5
312720.5
441.0
6863.3
433183.6
84.3
805.7
192335.8
49.1
1178.9
22623.8
3881.0
3339.7
251.9
949.6
172.6
369.5
124.5
38372.9
19446.9
23732.4
443.5
Turner
846.8
L2ABFx
1537.6
PABF
81.9
PABFh
PABFx
703.0
PEMlABF
2071.4
105134.6
PEMA
8586.3
PEMAd
23352.9
PEMAx
576815.8
PEMC
2231.1
PEMCd
96.2
PEMCh
Union
PABIEMF
194.2
PABlEMFx
4236.5
PABF
254.4
PABFh
149.9
PEMlABF
166.5
PEMlABFx
14254.3
PEMA
79045.9
PEMAd
2094.6
PEMAx
20846.8
PEMC
134475.3
2709.6
PEMCd
PEMCx
174933.3
PEMF
193.2
71122.6
PFOA
PFOAd
243.5
PFOAh
455.1
PFOAx
3853.3
PFOC
6716.2
PFOCx
1670.2
241.1
PSSA
PUBFx
116.3
4743.4
R2UBG
R2USA
266.6
189.4
R2USC
R4SBCx
389.6
R4SBF
79683.0
R4SBFx
28802.1
Walworth
L2UBFh
519.5
PABF
934.0
PEMIFOA
310.0
PEMA
309816.3
At1.!ib.!!l.e
~f1.n!l1t1.lm}
PEMAx
PEMC
PEMCh
PEMCx
PEMF
PFO/SSA
PFOA
PFOAh
PFOC
PFOCh
PSSA
PSSAx
PSSC
PUBFh
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
15139.6
218844.0
1339.9
33704.5
2272.9
449.4
8558.4
1103.1
661.3
266.1
1608.4
233.5
164.0
173.4
320.1
80595.4
07057.6
39178.7
1357.6
Yankton
PABF
223.6
PABFh
1354.9
PABFx
718.3
PEMlABF
412.9
PEMIFOA
396.1
PEMA
100768.3
PEMAd
3216.4
PEMAx
9282.9
PEMC
362186.8
PEMCd
2643.4
PEMCh
394.8
PEMCx
184219.9
PEMF
627.3
PEMFh
519.3
PFOIEMA
732.2
PFOIEMC
5014.7
PFOIEMCx
514.0
PFOA
51553.0
PFOAd
518.7
PFOAh
5802.1
PFOAx
4582.6
PFOC
69327.4
PFOCh
300.5
PFOCx
5562.1
PSSA
319.6
PUBFx
563.0
PUSCx
76.0
R2USC
79.0
R4SBA
7358.8
R4SBC
713.2
R4SBF
92158.4
R4SBFx
43380.7
Point Wetlands
Attdl2u.ti
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PUBFx
tiuCDb.f1.l.
AYmm
Bud1I
(~
PABFx
PEMISSC
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOA
PFOC
PSSA
PUBFx
9
975
103
727
13
1
8
33
4
1
5314
147
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOIEMC
PFOA
PFOC
PUBFx
2
147
8338
51
2
21
2163
5
1
60
1
10
2
53
469
5
24
3
1
1
43
0.78
PUSCx
.....
Bon Homme
PABFh
3
PABFx
9
PEMA
507
PEMAd
76
PEMAx
3
PEMC
121
PEMCd
4
PEMCh
3
PEMCx
4
PFOA
1
PFOAd
1
PUBFx
1
Brookings
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PFOCx
PUBFx
Atttril2utf1.
f::!.umbe.r
I!:2Jtn
5
675
61
1
195
3
1
4
1
1
1
12
Bn!Jft
13
16
733
39
401
4
PABFh
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PEMFx
PFOA
PUBFx
30
9
1
3
1
~
PABF
PABFh
PABFx
PEMA
PEMAd
PEMC
PEMCh
PEMCx
PFOA
PFOCx
PUBFx
1
5
2
332
4
60
2
3
1
1
8
Campbell
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCh
PEMFh
PSSA
7
1124
2
1
3
352
2
1
1
~t!.rit2ut§.
Number
Charles Mix
PABFh
4
PABFx
20
PEMlABF
1
PEMA
817
PEMAd
143
PEMAh
1
PEMAx
1
PEMC
379
PEMCd
16
PEMCh
59
PEMCx
21
PFO/EMCx
1
PFOA
1
PFOCx
1
PUBFx
5
PUSCh
2
~
16
2
2083
61
1
839
8
20
2
1
42
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PSSA
PUBFx
Clay
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCx
PFOA
Codlngton
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOA
PUBFx
1
3
209
68
5
30
1
7
3
3
803
19
296
6
1
1
18
~ttriblJ.t§.
f::!.umber
Davison
9
1
1126
172
1
637
17
10
4
2
PABFx
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMFx
PFOA
PUBFx
44
Qu
1
3
2814
115
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PSSA
PUBFh
PUBFx
17
988
15
1
8
1
15
1
1
19
Qg
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOC
PFOCx
PSSA
PUBFx
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOA
PFOC
PUBFx
2
1251
127
1027
75
11
3
1
1
2
~
3
294
21
91
3
13
2
1
1
Appendix B 1. point wetlands /50
Number
Attdfl.ute
Edmunds
PABFx
35
7471
PEMA
PEMAd
22
49
PEMAx
PEMC
2090
5
PEMCd
PEMCx
28
PFO/EMA
PFOA
1
PFOC
24
PUBFx
At11.ribute
PABF
PABFh
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOIEMCx
PFOA
PUBFx
Faulk
Grant
874
52
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOC
PFOCx
PUBFx
554
7
1
6
4
1
1
4
tfi!nIJ1l
1
187
1
89
6
1
4
PABFx
PEMA
PEMAd
PEMC
PEMCx
PFOC
PUBFx
I:I!ru!
PABFh
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOC
PSSA
PUBFx
1
1
3
1153
122
378
13
9
1
4
5
I:fygb§
16
6147
42
30
841
5
2
1
11
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMU
PUBFx
Numfl.er
~
1
1
8592
139
772
3
7
3
1
29
51 / Appendix B 1, point wetlands
9
1
3
4
826
3
2
PABFh
PABFhx
PABFx
PABGx
PEMA
PEMAd
PEMAh
PEMC
PEMCh
PEMCx
PFOA
PUBFx
36
2
2
2
12
Hut~hinson
2
19
1319
219
2
241
6
6
16
8
1
13
1
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOAd
PUBFx
PUSCh
PABFh
PEMA
PEMAd
PEMC
PEMCx
PUBFx
~
1
5292
26
229
12
6
Jerauld
PABFh
PABFx
PEMlFOCx
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PUBFx
2
3
1
642
32
141
3
1
3
19
Number
Attribute
Kingsbury
PABFx
6
PEMA
1848
PEMAd
70
PEMC
249
PEMCd
29
PEMCx
7
PFOA
9
PUBFx
28
I.m
PABFx
PEMlABF
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOC
PUBF
PUBFx
3
1
2
542
130
1
111
14
2
6
2
1
22
Lincoln
1
12
369
254
3
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PUBFx
65
11
1
39
1
16
~
PABFx
PEMlABF
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PFOA
PSSC
PUBFh
PUBFx
PUBGx
8
1
1
3141
23
15
2130
9
23
30
5
1
1
6
2
~
PABFx
PEMIFOA
PEMlFOCx
PEMA
PEMAd
6
2
5
1537
382
~t1.ritJ.!J.ff:.
rY!!.mfl.c.r
3
495
21
26
6
1
PEMAh
PEMC
PEMCd
PEMCx
PFOA
PFOAd
PUBFx
30
Mcpherson
PABFx
20
PEMlABF
1
PEMA
6364
PEMAd
5
PEMAx
10
PEMC
3188
PEMCd
2
PEMCh
I
PEMCx
14
PEMF
1
PUBFx
15
Min!r
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PEMF
PFOA
PSSA
PUBF
PUBFx
5
1815
157
607
37
20
1
7
1
3
26
Minnehaha
PABFh
PABFx
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOAx
PFOC
PUBFx
PUSAx
PUSCx
~
PABFh
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
1
4
1
625
260
20
167
16
2
26
5
2
4
28
1
2
1
2
1
404
79
3
249
1
I,~
A"ribY1~
PEMCx
PFeil.
PFOAd
PFOC
PSSC
PUSFx
PUBGx
I~h.!mb~r
2
6
1
1
1
5
2
f!mmr
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMU
PFOA
PSSA
PUBFx
2
4
1776
Atttritl.Ulfl.
Numtl.f1l
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOC
PSSA
PUBFx
1
5
~
PABF
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PSSC
PUBFx
1
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOAx
PFOCx
PUBFx
1958
231
1
368
7
1
4
1
2
1
27
SRink
23
14
1853
5
1
6
4
1
1
36
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFO/EMCx
PFOA
PFOCx
PSSA
PUBFx
24
5795
102
5
467
5
19
1
1
1
1
143
9
6
2
3
1
1
15
31
Union
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PUBFx
R2USC
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCx
PSSA
PUBFx
PUSAx
1
13
695
305
1
1
3147
Number
Turner
36
2
8
209
14
4
6
2
1
~t1.ri!lute.
SIn!mn
2
1
57
20
1
34
4
1
5
3
7
Attribute
[y'umtl.fl.r
Walworth
PABFh
3
PEMA
1521
PEMAd
3
PEMAx
18
PEMC
316
PEMCd
1
PEMCh
4
PEMCx
4
PFOA
3
PFOAx
1
PUBFx
5
Yankton
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOIEMC
PFOA
PUBFx
11
12
434
147
1
84
5
11
4
1
4
2
~
3
1
2011
19
1
79
1
1
1
37
1
Appendix 81. point wetlands / 52
Appendix B2. Palustrine. lacustrine. and riverine wetlands delineated by the National Wetlands Inventory In eastern
South Dakota counties from photography acquired 1979·1986.
Linear Wetlands, Length (m)
Polygon Wetlands, Hectares
County
Aurora
Beadle
BonHomme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
lake
Uncoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potier
Roberts
Sanbom
Spink
Sully
Turner
Union
Walworth
Yankton
Palustrine
Lacustdae
Rivedne
County
13,m.0
37,938.4
169.9
1,637.3
3,664.4
2,999.5
2.533.4
102.1
1,001.2
1.163.9
375.7
1,493.9
19.6
68.7
64.2
1,269.0
2.1
1,371.5
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codlngton
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
Lake
Uncoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanbom
Spink
Sully
Tumer
Union
Walworth
Yankton
6,6n.6
11,133.1
39.558.7
11,209.3
3,909.6
9,554.9
11,678.6
24.451.2
3,852.7
11.601.1
7,525.3
29,615.1
9,990.6
7,354.9
27,807.5
27,326.7
7,727.3
9.381.5
32,991.8
6,396.6
6,939.0
11,543.7
16,518.1
B.681.6
22.138.3
11,135.3
4,851.1
17.397.7
10.508.5
23.972.4
11,040.2
7.036.8
4,555.0
11.948.6
27.094.4
20,905.7
30,396.4
12.533.5
7,584.5
3,379.9
9,759.2
5,1642
s,no.o
4.517.7
9,109.1
11,651.3
586.5
17.6
6,041.5
322.2
8,575.4
2,682.9
48.4
1,119.3
859.7
1,064.9
6,567.6
1.192.2
147.2
15,055.1
268.2
1,954.1
238.1
4,31B.5
2,745.7
76.1
6,299.1
711.6
1,702.2
280.6
1.357.0
178.8
7,724.9
6.497.7
176.1
1,4n.7
15.158.2
113.1
222.6
8,532.4
1,920.1
53/ Appendix 82. polygon and linear wetlands
In.7
431.5
12.4
97.3
1.3
51.4
376.1
61.1
209.8
319.7
343.1
149.4
340.2
4.1
121.8
55.4
69.1
237.1
8.1
143.1
5.8
83.2
764.S
412.9
0.2
42.3
650.2
2,184.5
47.8
73.2
1,329.0
5.7
1,386.5
Pa/ustrjae
Lacustrine
Riverine
1.147.816
2,127.179
922.139
2.098.918
1,620,590
804.198
823.230
621,344
1,742,472
1.419,341
800,522
1.020,040
884,418
808,654
1,928,594
595,619
1,213,225
1,506,796
1,503,508
686.664
3.585,870
657,059
962,634
1,368,736
1,704,943
1,167.335
1.323,295
851.346
1,015,686
1.402.659
1,232,237
1,314,357
1.214.792
1,701,193
1,343,873
803,495
1,694.213
807,838
2,180.795
981.281
1.114,543
517,974
595,900
811,832
0
0
0
0
0
0
272
597
0
0
0
6,578
0
59.804
0
0
3,941
597
0
0
0
0
161
0
0
0
0
0
197
5.361
0
0
0
0
0
0
1.068
0
814
637
847
0
519
0
74,612
192.174
179.646
41.653
234,293
113.542
253,499
152,271
248.241
5,510
144,199
66.742
83,902
46.543
163,051
103.313
11,972
98,134
380,697
27,639
33,693
87,826
143,n8
189,040
43,590
62,855
57.897
85.834
122,418
134.018
128,963
34,180
127,219
194.938
98.672
163.027
390,991
67,027
85,908
81,996
241.974
114,074
228.189
143.690
Point Wetlands, Number
County
"
Aurora
Beadle
BonHomme
BrOOkings
Brown
Brule
Buffalo
Campbell
Chartes Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
Lake
Lincoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanborn
Spink
Sully
Turner
Union
Walworth
Yankton
Palustrine
LaCustrine
Riverine
1,869
6,013
733
960
10,856
1,250
419
1,493
1,472
3,075
327
1,147
2,023
3,999
2,500
429
9,727
7,095
1,504
289
9,548
1,690
901
1,853
5,566
847
2,246
837
772
5,396
2,514
9,621
2,679
1,164
758
2,070
5,093
2,601
6,452
2,155
1,195
128
1,879
716
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
0
0
Appendix 82. point wetlands /54
....... _
UUZ4
Appendix 83. Summary of wetlands delineated by the National Wetland Inventory in eastem
South Dakota counties by Cowardin et al. (1979) classes. Photography used to delineate
wetlands was acquired 1979-1986.
Class
EM
AB
UB
US
FO
SS
S8
EM/AB
ABlEM
EMIFO
FOIEM
FOISS
SSlFO
SSlEM
EMISS
US/SS
SSlUS
EMIUS
UBIFO
Class
EM
AS
UB
US
FO
SS
S8
EM/AB
ABIEM
EMIFO
FOIEM
FO/SS
SSIFO
SSIEM
EM/SS
US/SS
SSIUS
EMIUS
UBIFO
Qlass
EM
AS
UB
US
FO
SS
SB
EM/AB
ABIEM
EMIFO
FOIEM
FO/SS
SSIFO
SSIEM
EM/SS
US/SS
SSIUS
EMIUS
UBIFO
dll(Ora
8.cm tiQmmfJ.
8.eacIJe
785.21
70.73
0.00
44.48
0.00
102.08
1,907.28
207.23
39.76
29.44
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
4,111.38
690.55
4,395.55
116.27
89.04
92.76
19.36
1,587.58
32.25
41.52
40.45
6.27
58.74
1.20
27.25
3.05
192.82
0.00
0.00
Brule.
9,384.06
716.31
5,687.32
19.80
22.46
0.18
19.56
1,093.53
6.09
45.07
3.85
0.00
0.00
0.00
0.39
0.00
0.00
0.00
0.00
Bllffalo
2,820.05
823.71
4,412.03
6.86
29.09
84.37
68.66
192.53
37.95
7.00
3.67
0.00
0.00
8.80
1.23
0.00
0.00
0.00
0.00
Qamrdl§.11
8,285.12
1,212.02
8,354.46
36.94
49.47
22.14
64.21
592.25
61.65
12.42
9.99
1.56
1.67
2.43
21.87
0.00
0.00
0.00
0.00
Q/s~
Codingtga
DavisQ!1
Da~
3,041.88
106.49
1,121.15
253.60
34.02
102.88
4.96
116.68
9.13
45.13
29.23
0.00
0.00
0.00
291.44
41.19
44.09
0.00
0.00
5,997.46
4.411.02
1,841.87
32.98
29.58
27.80
6,796.36
237.49
495.31
0.15
108.83
In.73
299.98
181.65
14.84
106.11
30.52
0.00
0.00
0.00
3.04
0.00
0.00
0.00
0.00
13,798.34
3.430.26
5,003.76
701.22
61.81
24.97
12.40
13.490.63
1.571.73
43.15
13.11
1.89
2.47
12.43
34.79
0.00
0.00
0.00
0.00
4.n
5,103.24
97.59
44.78
26.66
2.36
3.42
3.69
20.22
0.00
0.00
0.00
0.00
8.mwn
Broo/{inga.
6,920.58
2,271.79
1,229.40
0.00
217.08
12.06
309.15
2,867.14
318.48
213.51
104.96
1.29
12.99
22.09
7.79
0.00
0.00
0.00
0.00
34,333.55
2,444.90
815.21
3.83
232.36
31.47
309.07
1,351.89
642.85
241.45
115.04
11.71
2.61
2.63
33.81
0.00
0.00
0.00
0.00
10,862.n
30,283.30
2,146.51
1,555.56
0.12
407.19
11.40
884.74
6,960.90
367.95
643.35
291.14
1.17
15.13
1.59
8.96
0.00
0.00
0.00
0.00
C.tJ.arl~MI!
QIMs.
10,824.94
1,017.61
13.09
0.00
118.05
38.25
2.07
12,235.30
368.84
254.51
99.45
4.60
11.00
3.80
40.81
0.00
0.00
0.00
0.00
8,219.40
1,941.18
11,389.90
231.63
170.76
11.46
124.41
1,829.84
210.97
145.88
148.07
0.00
0.11
20.11
155.13
0.00
0.00
0.00
0.00
Deuel
5,346.45
2,550.13
522.19
0.11
99.40
27.34
97.28
3,762.08
306.44
34.04
10.06
1.87
3.83
1.65
7.91
0.00
0.00
0.00
0.00
55 / Appendix 83. polygon wetlands
.. , ........ ~ • . _m
_.
...... :::=:=a
i _4
... t
Class
EM
AS
UB
U5
FO
SS
SB
EMlAB
ABIEM
EMIFO
FOIEM
FOISS
SSlFO
SS/EM
EM/55
USISS
SSJUS
EMlUS
UBIFO
QJa~
EM
AS
UB
US
FO
SS
SB
EM/AB
ABIEM
EMIFO
FOIEM
FO/SS
SSlFO
SSlEM
EM/55
US/55
SSJU5
EMlU5
UBIFO
Class
EM
AB
UB
U5
FO
55
SB
EMlAB
ABlEM
EMlFO
FOIEM
FOISS
5S1FO
5S1EM
EM/SS
US/SS
SSlU5
EMIUS
UBIFO
Doug}M
5.801.87
360.89
38.83
0.00
63.71
6.72
1.35
894.29
73.14
107.70
15.78
0.00
1.01
2.71
36.63
0.00
0.00
0.00
0.00
tiaad.
28,124.82
2,940.17
90.35
0.30
100.11
15.58
267.09
2,239.38
674.27
38.94
6.75
1.75
0.41
0.95
2.76
0.00
0.00
0.00
0.00
J.~I1Id.
6.789.01
707.99
33.24
0.00
95.31
8.99
121.84
1,103.12
136.87
27.62
11.25
0.60
3.75
0.14
1.85
0.00
0.00
0.00
0.00
25.921.38
1,093.45
750.16
46.72
31.10
1.66
51.42
597.74
453.22
12.48
12.93
0.00
0.00
0.61
2.99
0.00
0.00
0.00
0.00
Faulk.
24.978.64
1,402.20
624.55
5.49
30.34
3.67
376.06
398.61
722.44
17.33
0.79
0.27
0.00
0.00
1.22
0.00
0.00
0.00
0.92
Grant
5.544.47
1.167.23
476.80
0.97
479.34
85.65
55.62
622.27
321.58
24.85
14.92
1.85
2.75
4.43
41.82
0.00
0.00
0.00
0.00
Hamlin
4,403.05
3,660.92
3,041.46
1.04
89.32
10.12
209.78
4.430.54
104.63
128.57
39.12
9.87
6.85
8.79
14.77
0.00
0.00
0.00
0.00
tiaflson
5.116.84
366.25
262.54
0.00
25.46
0.54
95.09
881.68
66.60
21.67
49.66
0.00
0.00
0.58
0.00
0.00
0.00
0.00
0.00
Hughes.
5.804.22
1,150.63
14.838.45
62.81
22.11
48.65
149.39
11.65
28.13
7.34
3.49
0.61
0.15
0.00
15.88
0.00
0.00
0.00
0.00
Hutchinson
10,166.19
871.28
385.18
0.73
83.32
0.16
7.73
415.09
30.29
91.23
92.30
0.00
0.00
7.18
1.38
0.00
0.00
0.00
0.00
H't.rJ.e.
14.559.51
2,783.37
614.40
2.94
15.88
3.43
4.05
40.12
440.85
9.51
0.84
0.00
1.36
0.00
0.00
0.00
0.00
0.00
0.00
yac!J.la
4.147.89
211.18
251.08
22.30
85.51
2.76
0.73
343.47
0.00
11.26
84.50
0.00
0.00
0.00
3.66
0.00
0.00
0.00
0.00
MarshaJl
13,365.73
4.787.39
2,401.39
0.20
68.43
20.11
8.10
2,648.92
231.68
54.82
25.63
2.84
2.85
6.10
10.77
0.00
0.00
0.00
0.00
E.d.mlJn~
I$jfl~buO!
10.041.79
4.867.62
15.89
0.00
208.98
11.36
55.41
10.875.39
265.80
74.33
64.26
0.84
3.48
10.86
16.23
0.00
0.00
0.00
0.00
La~e.
5,208.59
1.426.45
1.741.61
0.00
137.68
9.22
69.08
4,471.43
711.72
49.21
110.46
1.29
0.76
5.57
6.91
0.00
0.00
0.00
0.00
Class
EM
AB
UB
U5
FO
55
5B
EM/AS
ABIEM
EMIFO
FOIEM
FO/55
5S1FO
SSfEM
EM/5S
US/55
5SJU5
EMIUS
UBIFO
Q.lass
EM
AB
UB
US
FO
55
5B
EM/AB
ABIEM
EMIFO
FOIEM
FO/5S
SSIFO
SSfEM
EM/5S
US/SS
5SJU5
EMlU5
UBIFO
McCook
7,866.50
1,142.92
32.05
0.00
66.29
5.53
136.85
1,466.89
539.28
23.47
141.52
0.00
0.00
1.86
0.00
0.00
0.00
0.00
0.00
Potter
10.685.72
834.17
7,821.61
60.79
11.99
5.78
0.20
192.97
41.37
11.47
0.66
0.00
0.00
0.00
5.75
0.00
0.00
0.00
0.00
M.cPtJ.e.rson
20,621.30
2.503.03
80.92
0.00
16.80
0.28
5.78
2,174.85
259.49
8.14
6.62
1.34
0.00
0.00
1.76
0.00
0.00
0.00
0.00
M.iD.fll.
7,262.66
705.40
22.07
0.00
88.20
3.92
83.23
3,035.60
120.18
19.48
59.60
0.00
0.36
0.19
2.96
0.00
0.00
0.00
0.00
BQbeC1.~
San/lQm
19.475.73
3,302.16
4.258.28
0.00
350.45
169.83
34.68
4.714.33
754.90
63.80
45.55
6.83
2.04
98.23
356.57
0.00
0.00
0.00
0.00
17,850.66
582.74
385.96
1.34
175.78
27.72
288.66
1,895.28
329.03
97.88
79.08
0.00
0.79
0.00
1.71
0.00
0.00
0.00
0.00
Millne.OOha
4,683.22
1,724.16
602.66
22.13
112.54
9.83
326.55
1,316.40
137.02
109.07
76.88
1.09
19.03
2.68
15.15
0.00
0.00
0.00
0.00
SJ1iDk.
SuI!¥.
27,400.58
1,624.03
1,408.35
4.68
402.31
13.14
1.333.07
1.132.01
554.25
145.51
23.74
2.35
1.13
0.00
12.69
0.00
0.00
0.00
0.00
10,856.99
1.928.14
14.279.43
58.24
15.48
5.14
47.82
378.16
157.76
6.30
3.56
0.00
0.00
0.65
1.87
0.00
0.00
0.00
0.00
Q.la.~
TIJID.f1.r
!i.llion
Wal!t:QC1.l!
Yen~on
EM
AS
UB
U5
FO
55
5B
EM/AB
ABIEM
EMIFO
FO/EM
6,590.17
347.08
87.80
3.61
97.78
1.57
29.68
465.73
0.00
48.66
95.87
0.81
0.00
0.00
2.06
0.00
0.00
0.00
0.00
1,726.76
389.99
1,222.63
151.44
347.89
66.04
7.59
202.36
28.09
96.91
244.35
27.96
18.13
27.05
326.64
0.81
46.95
0.00
0.00
8An.19
4,203.13
657.79
2,917.02
116.59
99.92
26.92
12.52
191.71
9.34
22.80
116.55
0.00
2.86
1.59
8.51
32.16
51.42
0.00
0.00
FO/SS
5S1FO
5SfEM
EM/55
US/55
SSJU5
EMlU5
UBIFO
57 / Appendix 83, polygon wetlands
1,492.11
7,516.71
115.69
29.99
5.63
5.74
397.97
240.22
10.73
1.69
1.45
0.00
1.10
0.95
0.00
0.00
0.95
0.00
Mooc!y
2,639.45
418.45
370.56
0.63
126.74
4.56
55.48
1.154.84
140.09
166.97
57.68
1.57
0.96
1.87
1.85
0.00
0.00
0.00
0.00
Linear Wetlands. Length (m)
Class
...
t.
"-
EM
AB
UB
U5
FO
SS
SB
EM/AB
ABIEM
EMIFO
FO/EM
FO/SS
SSlFO
5S1EM
EM/55
Class
EM
AB
UB
U5
FO
55
5B
EM/AB
ABlEM
EMIFO
FOIEM
FO/55
5S1FO
SSlEM
EM/SS
C.lass
-Q
EM
AB
UB
U5
FO
55
5B
EM/AB
ABlEM
EMIFO
FOIEM
FO/55
5S/FO
SSlEM
EM/55
~umm
~rJ.I~
BDD. tiCllDIIle.
Brooking§.
fJ.mWIl
1,088,314
81,218
989
0
46,813
74,612
1,036
0
334
1,112
0
0
0
0
2,056,007
365
726
28
65,744
2,151
192,794
n2
0
266
1,117
0
0
0
0
815,180
1,852
210
145
102,844
319
179,501
93
0
247
1,002
0
0
393
0
2,013,241
56
124
0
85,105
103
41,653
0
0
286
0
0
0
0
0
1,399,215
4,331
197
0
0
0
234,293
14,234
357
1,090
167
62
6,104
0
0
Brule.
758,644
1,759
0
0
43,335
0
133,542
0
0
460
0
0
0
0
0
Buffalo.
789,140
1,094
518
0
30,305
2,230
253,500
215
0
0
0
0
0
0
0
Camp-bell
592,382
2,999
598
0
19,060
4,702
152,271
C.l1ades. MiK
1,522,489
0
Qla~
281,668
909
42,270
3,389
71,027
47
98,539
631
0
0
728
0
0
0
0
Codiagton
674,825
370
412
6,578
42,849
805
66,742
4,220
1,9n
225
0
0
0
0
0
0
l2a.vison
842,632
2,241
497
0
38,870
143
83,902
0
0
0
583
37
0
0
0
0
0
0
0
0
0
0
4,n3
441
9,387
209,005
1,369
238,542
10,872
0
1,000
1,654
0
0
0
118
Da~
706,214
824
187
60,603
47,208
4,563
45,744
28,850
1,685
0
0
0
0
58
0
Clack.
1,296,788
6,031
259
0
100,444
1,920
5,510
8,736
0
0
0
0
0
0
0
Deuel
1,842,801
382
7,753
0
64,288
4,518
16,351
2,147
0
279
286
0
0
0
0
Q{~
EM
AB
UB
US
FO
SS
SB
EM/AB
ABlEM
EMIFO
FOIEM
FO/SS
SSIFO
SSIEM
EM/SS
QIass
EM
AB
UB
US
FO
SS
SB
EM/AB
ABlEM
EMIFO
FOIEM
FO/SS
SSIFO
SSIEM
EM/S5
C.1m
EM
AB
UB
US
FO
SS
SB
EM/AB
ABIEM
EMIFO
FOIEM
FO/55
SSIFO
SSIEM
EM/5S
Doug/as
444,021
2,813
51
0
25,773
0
103,313
0
0
1.572
1,086
0
0
0
0
Hand
2,519,084
615
597
0
56,565
1,826
33,693
0
0
521
327
0
0
0
0
Jfl.raulc!.
1.113,367
1,861
300
0
49,216
1,306
62,855
229
0
1,056
0
0
0
0
0
Ec!.mund§.
803,889
778
1,589
3,941
11,627
0
11.972
2,404
0
0
2.449
0
0
0
0
Han~on
342,618
604
70
0
49,283
97
87.826
346
0
0
188
0
0
0
0
Kin!J§.buC}'.
1,182,967
942
266
0
138,048
335
57,897
134
0
238
365
0
0
0
0
Faulk.
1,494,806
2,387
674
623
7,160
0
98,134
1.743
0
0
0
0
0
0
0
GianI
1,225,980
400
993
0
107,791
16,566
379,964
392
0
0
0
0
0
0
0
H!f1lht:§.
0
3,033
194
0
13,276
1,566
143,778
0
0
0
0
0
0
0
0
Hutcl1inson
1,160,468
3,884
276
31
92,201
0
189,040
211
0
2.959
1,341
0
0
0
0
/djke
760.778
1,041
193
0
87,592
597
85,835
190
0
956
0
0
0
0
0
Lincoln
908,935
2.133
634
530
102,341
1,434
121.787
65
0
373
69
0
0
0
0
Hamlia
424,459
22
50
0
105,638
274
27,639
2,336
0
928
159
0
0
0
0
Hyde
1,696,795
57
141
0
7,948
0
43,590
0
0
0
0
0
0
0
0
Ma~ball
1.355,361
225
815
5,361
32,483
460
134,018
6,198
162
6,630
0
324
0
0
0
Ii
,.
Linear WeUands, Length (m)
Class
....
EM
AB
UB
US
FO
SS
SB
EM/AB
ABIEM
EMJFO
FOIEM
FO/SS
5S1FO
SSiEM
EM/5S
Class
EM
AB
UB
U5
FO
5S
SB
EM/AS
ABlEM
EMIFO
FO/EM
FO/5S
5S1FO
5S1EM
EM/55
Class
EM
AS
\
UB
US
FO
55
SB
EM/AB
ABlEM
EMJFO
FO/EM
FOISS
5S1FO
SSIEM
EM/SS
McCook
1.161.805
414
418
0
65,739
1,101
128,963
2,106
0
0
655
0
0
0
0
McPhe.~on
1,289,732
641
156
0
7,457
0
34.180
16,371
0
0
0
0
0
0
0
Mine.r
1,161,190
654
663
0
49,000
0
127,219
3,031
254
0
0
0
0
0
0
Mianf1haha
1.505,597
2,472
618
265
181,213
2,273
194,524
5,245
0
3,076
843
0
0
0
0
Potter
794,251
126
1,193
0
7,558
367
163,027
0
0
0
0
0
0
0
0
Boberts
1,581,432
2,922
434
0
83,575
9,564
390,991
13,745
246
3,232
132
0
0
0
0
Sanborn
756.827
188
647
0
48,433
384
67,027
1,360
0
0
0
0
0
0
0
SJ1.ink
2,039,155
1,984
646
814
137,804
455
85,908
135
69
548
0
0
0
0
0
TIJ.me.r
1,005,121
3,270
42,485
72
103,584
15,084
199,979
2,071
0
0
631
0
0
0
0
Union
414,299
Walworth
581,118
943
1,013
0
10,589
2,006
228,189
0
0
310
0
449
0
0
0
663,860
2,297
563
155
137,647
320
143,611
413
0
396
6,261
0
0
0
0
404
4,860
456
84,061
241
108,874
14,421
4,431
0
0
0
0
0
0
M.
1,280,929
1,696
870
0
53,416
937
97,887
4,530
0
1,280
1,001
0
0
0
0
s.1lllY.
97.087
1,906
762
0
8,422
542
81,996
0
0
0
0
0
0
0
0
Yaa~Qn
Class
EM
AB
UB
US
FO
SS
S8
EM/A8
EMIFO
FOIEM
EMISS
Qlm
EM
A8
U8
US
FO
S5
SB
EM/AB
EMIFO
FOIEM
EM/SS
~1l!Qm
1,827
9
33
0
0
0
0
0
0
0
0
B.Qa liQJ1lmfl
ftrarl.lr
5,959
4
43
1
4
1
0
0
0
0
5
8ru/i
EMtalo.
1,217
29
1
0
3
0
0
0
0
0
0
401
8
8
0
2
0
0
0
0
0
0
718
12
1
0
2
0
0
0
0
0
0
ftmiOOI.
B.rown
941
5
12
0
2
0
0
0
0
0
0
10,641
149
53
0
12
0
0
0
0
1
0
C!amoball
Cl1adti Mix.
Clarlc
1,485
7
0
0
0
1
0
0
0
0
0
1,437
24
5
2
2
0
0
1
0
1
0
3,012
16
42
0
2
1
0
2
0
0
0
..
r-
Qlal!
Qodi!lgto.n
EM
AB
UB
US
FO
SS
SB
EM/A8
EMIFO
FOIEM
EM/55
320
4
0
0
3
0
0
0
0
0
0
1,125
3
18
0
1
0
0
0
0
0
0
Cia§§.
Doug/a.s
Ectmllmii
Eallik
422
3
1
0
3
0
0
0
0
0
0
9,665
35
24
0
2
0
0
0
0
7,068
16
11
0
0
0
0
0
0
0
0
ala§§.
EM
AB
U8
US
FO
5S
5B
EM/A8
EMIFO
FOIEM
EM/SS
61 / Appendix 83, point wetlands
1
0
Qal'lSQll
1,987
9
44
0
2
0
0
0
1
0
0
Q~
DiU"
3,959
4
20
0
15
1
0
0
0
0
0
2,491
2
2
0
4
1
0
0
0
0
0
timar
liamlin
1,494
0
4
0
6
0
0
0
0
0
0
283
1
4
0
1
0
0
0
0
0
0
Q.lass
Hanct.
Ha(1son
I:f.llgh~~
I:f.!d.rnin~n
Hyde
EM
AS
UB
US
FO
SS
SB
EM/AB
EMIFO
FO/EM
EM/SS
9,513
2
29
1,675
5
5
0
0
4
1,809
21
13
1
9
5,556
1
6
0
3
1
871
16
12
0
2
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
CI~
~ral!.lr1
Kiag§.bu(J.
Lake
Lincoln
Marshall
822
5
19
0
0
0
0
0
2,203
6
28
0
9
0
0
0
0
0
0
800
3
23
742
13
16
0
1
0
5,371
8
9
0
5
1
0
1
1
0
0
EM
AS
UB
US
FO
SS
SB
EM/AB
EMIFO
FO/EM
EM/SS
1
0
0
0
8
0
0
1
2
0
0
0
0
0
0
0
0
0
0
0
0
Moody
738
McCook
M~Ph§.!jQn
Mine.r
2,464
6
30
0
7
0
0
0
7
0
0
9,585
20
15
0
0
0
0
1
0
0
0
2,637
5
29
0
7
1
0
0
0
0
0
Class
e,otter
SQiaK
Sully
2,057
6
5
0
1
Robert$.
5,053
1
36
0
1
1
0
1
0
0
0
Sanbom
EM
AB
UB
US
FO
SS
SB
EM/AB
EMIFO
FO/EM
EWSS
2.570
0
2.112
4
27
6,396
25
31
0
0
3
3
0
0
0
0
0
0
1
0
1
0
0
0
0
Wal!mrth
1,867
C/a~
EM
AS
"'
0
0
0
0
0
0
0
UB
US
FO
SS
SB
EM/AB
EMIFO
FOIEM
EM/SS
1
0
0
0
0
0
Cla~
Tumer
UniQn
EM
AB
1.159
14
15
0
4
1
0
122
3
3
7
0
US
US
FO
SS
SB
EM/AS
EMIFO
FOIEM
EMlSS
0
0
0
0
0
2
0
0
0
0
1
1
0
0
0
0
3
5
0
4
0
0
0
0
0
0
Minn§.haha
1,116
5
28
3
7
0
8
1
0
1
0
0
0
3
11
0
0
0
1
0
0
37
0
Yen~
686
23
2
0
4
0
a-
0
0
1
0
Appendix 83, pOint wetlands / 62
Appendix 84. Summary of weUands, by water regime. delineated by the National WeUands Inventory in eastem
South Dakota counties from photography acquired 1979-1986.
Cou!l1X
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Cha~es Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
Lake
Uncoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Polter
Roberts
Sanbom
Spink
Sully
Tumer
Union
Walworth
Yankton
A
5.545.54
16,816.17
2,034.23
4,414.09
15,602.45
3,750.14
1,320.02
3,297.90
3,254.44
3,749.41
2,882.60
2,078.91
3,866.44
5,521.29
1,583.56
2.437.04
7,048.26
6.967.03
2,238.85
1,229.35
9,358.46
2,302.08
2,488.75
5,561.96
3,582.14
3,725.27
5,040.25
2,105.04
2,646.60
4,868.01
3,166.99
6,242.40
2,736.26
2,875.54
1,551.64
4,420.13
8.314.27
8,918.92
16.049.24
5,466.34
3,749.12
2,335.29
3,976.50
2,409.30
B
0.00
11.72
0.00
5.40
0.00
0.00
0.00
0.00
0.00
2.37
0.00
0.00
0.00
13.21
91.04
0.10
0.00
0.00
10.09
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.17
354.42
0.00
7.68
0.00
0.00
0.00
0.00
0.00
C
4,668.58
8,002.80
2,119.19
3,064.41
5,237.73
4,037.10
1,544.43
4.722.19
5,361.19
7,261.29
973.19
3,201.73
3,128.70
6,180.84
3,547.37
3,344.77
8,457.90
17,900.32
2,557.41
3,357.96
18,824.03
2,889.89
3,237.12
4,775.05
10,919.64
3,160.46
5,169.13
3,362.64
1,694.56
2,930.25
4,910.89
12,068.87
4,655.23
2,142.79
1,416.87
5,824.67
7,366.61
9,183.02
11,855.51
5,454.58
2,856.05
733.64
3,841.46
2.140.29
F
3,564.93
3,754.34
2,867.62
3,866.16
9,652.93
3,392.25
1,142.28
1,683.92
3,765.69
13.433.99
242.11
6,502.55
812.41
19,371.69
4,845.35
1,568.59
2,485.30
2,916.25
2,949.79
4,997.67
5,738.39
1,294.91
1,485.71
1,192.93
2,648.21
2,073.24
11,960.98
5,832.11
468.22
9,569.83
2.695.63
5,709.35
3,754.66
2,481.72
1,624.59
1,775.05
11.062.28
3,146.25
4,098.68
1,937.52
1,006.84
526.15
2,211.64
832.22
G
269.94
1,990.23
125.44
3,158.22
3,090.74
125.73
256.01
2,159.67
1,385.10
592.65
142.64
6,037.21
471.47
5,911.52
2,400.86
54.14
984.24
751.40
640.56
6,573.85
578.39
400.03
628.34
622.13
724.30
82.37
4,341.86
2,649.68
354.96
4,411.53
649.63
1,654.63
256.29
1,658.33
548.43
1,095.87
2,591.21
483.51
1,506.71
2,495.89
158.81
257.68
2,182.47
579.53
H
0.00
0.00
4,359.55
0.00
0.00
5,684.67
4,263.11
6,864.51
10,831.83
0.00
1,000.54
0.00
0.00
1,204.42
302.58
0.00
0.00
0.00
456.49
0.00
0.04
0.00
14,302.11
0.00
601.50
0.00
0.00
0.00
0.00
1,855.20
0.00
0.00
0.00
0.00
0.00
6,519.88
3.946.05
0.00
539.57
12,385.16
0.00
0.00
0.00
0.00
ColJ.a~
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
lake
Lincoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanborn
Spink
Sully
Turner
Union
Walworth
Yankton
t1
283,353
475.279
212,515
532.780
600,817
271,111
443,048
365.283
583,396
356.168
124,547
343,561
152,963
386,292
356,638
135,728
484,167
584,410
500,521
237.958
1,046,284
104,426
455,797
232.255
666,079
428,718
337.252
148,231
262,285
618,917
191,787
530,915
196.267
515,990
319,209
493,388
549,088
162.825
651.601
366.043
201,631
178.170
417.815
184.531
Q
852,526
1,658,450
751,000
1.565.638
975.541
557.041
485,679
310.352
1,241,385
1,043,937
480,307
669,192
727,887
432,908
1,558,810
460,713
719.888
916,045
1,142,457
438,944
2,544,518
552,013
612,866
1,130,007
1,067,037
741.571
984,702
701,230
751,585
652,330
1.034,139
699,973
1,013.923
1,173,438
l,016,9n
431,787
1,183,362
642,059
1.524758
647,176
908.591
321,084
363,038
631.032
F
(i
86,549
0
186.244
0
138.271
0
42,192
0
278,526
0
89,587
0
148,002
272
98,758
0
175.908
23
24,745
0
97.596
0
80.607
0
87,470
0
95.801
0
176,198
0
102,491
0
25,082
0
105,072
0
240,475
733
37,401
0
28,761
0
88,846
0
37,908
0
195,514
0
15,416
0
59,901
0
59.238
0
87,720
0
124,134
296
270,323
468
135,275
0
117,649
0
131,822
0
206,413
290
105,529
831
41.322
0
352,754
1.068
69,982
0
91,158
0
50,696
0
205.218 41.923
128,051 4.743
44.756
0
139,959
0
Point Wetlands. Number
Qountl!
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
lake
Lincoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanborn
Spink
Sully
Turner
Union
Walworth
Yankton
A
1.078
5.465
588
738
8,422
n5
337
1.131
963
2,148
285
823
1,301
2.962
1.379
317
7.544
6,219
930
188
8,732
1,279
833
1,549
5,318
674
1,927
679
627
3,184
1,931
6.379
1.980
913
493
1,824
3,185
2,192
5.904
2.033
1.005
78
1.546
586
Q
749
501
132
204
2.232
444
66
354
479
867
38
303
665
1,012
1,117
108
2.124
848
570
96
785
401
40
270
241
149
285
131
116
2.164
547
3.205
664
218
254
233
1,866
382
492
81
161
51
325
105
F
42
47
12
18
202
31
16
8
30
60
4
21
57
25
4
4
59
27
4
5
31
10
23
34
7
24
34
27
29
46
36
37
35
33
9
11
42
27
56
41
29
6
8
25
a
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
4
0
0
0
0
0
0
2
0
0
0
0
2
0
0
0
0
0
0
0
0
0
Appendix 84. linear and point wetlands /64
Appendix 85. Summary of wetlands, by special modifier, delineated by the National WeUands Inventory in eastern
South Dakota counties from photography acquired 1979-1986.
Linear WeUands, Length (m)
Countl£
Aurora
Beadle
BonHomme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codinglon
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
Lake
Uncoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanborn
Spink
Sully
Turner
Union
Walworth
Yankton
d.
1,682.1
4,328.4
967.4
2,021.4
4,117.6
1,072.7
334.4
119.1
1,699.8
3,821.9
1,446.9
1,262.9
1,648.9
3,497.4
2,859.3
1,528.9
344.1
1,094.6
1.393.8
1,506.5
2,465.2
996.9
198.7
2,667.8
483.9
1,1412
3,161.7
3,016.6
2,107.4
1,912.0
2,218.1
136.0
1,501.2
1,949.2
1,143.1
471.5
2,750.7
5,488.0
1,712.5
628.1
3,117.2
681.3
247.5
1.648.7
x
363.3
755.6
130.6
389.6
475.6
281.3
75.6
121.9
266.2
282.1
91.6
255.2
223.3
235.3
150.6
231.8
342.7
368.0
416.3
137.8
605.3
175.9
162.0
272.3
269.2
180.5
361.5
208.7
136.0
147.3
218.6
274.4
292.9
367.8
167.2
249.7
352.8
177.1
437.0
246.2
194.7
152.2
152.6
103.4
11
359.3
539.8
4,836.0
87.8
7,054.5
6,208.4
4,082.8
8,972.2
12,030.6
251.8
1,046.3
41.2
364.0
249.4
411.1
103.2
639.7
1,134.1
409.4
18.9
1,352.5
97.1
16,336.1
303.7
2,005.5
308.4
90.6
81.7
153.9
2,144.5
325.4
383.6
188.7
120.4
85.2
8,490.4
7,173.4
35.3
872.3
15.496.8
93.2
1.120.3
8,226.1
2.821.9
65/ Appendix 85, polygon and linear wetlands
",
b
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
4.2
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.7
0.0
0.0
0.0
0.0
0.0
0.0
0.0
CQuntl£
Aurora
Beadle
Bon Homme
Brookings
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codinglon
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
Hughes
Hutchinson
Hyde
Jerauld
Kingsbury
Lake
Uncoln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Polter
Roberts
Sanborn
Spink
Sully
Turner
Union
Walworth
Yankton
K
452,234
954,718
165,367
474,475
608,909
266,378
50,853
25,690
370,713
255.236
326,913
52,580
368,806
131,279
270,297
266,473
340,429
368,860
170,275
84,905
873,924
343.727
155,057
340,873
309,598
250,933
407,696
236,775
437,217
181,097
462,556
116,746
466,737
363,223
291,464
115,968
246,035
488.036
1,035.792
222.839
359.614
249,103
50,674
248.900
d
3,844
7,179
4,021
7,751
12,758
1,921
320
36
4,434
4,272
3,217
1,443
12,678
6,519
13,487
1,765
493
1,551
3,898
6,009
4,793
6,131
0
9,516
563
7,145
9,784
16,893
9,618
5,409
6,532
86
9,999
12,552
11,935
269
5,656
8,768
15,133
525
11,635
5,040
0
6.379
h
14,848
2,274
4,210
1,417
4,931
12,641
4,225
5,989
19,850
6,129
285
385
4,203
3,577
187
1,400
9,532
4,651
1,727
a
9,323
80
6,897
6,260
3,105
6,719
2,449
644
509
4,129
932
951
560
2,125
757
4,263
26,607
0
1,496
7,845
2.286
605
3,484
8.372
Couall
r/.
Aurora
Beadle
116
152
81
Bon Homme
Brooklngs
Brown
Brule
Buffalo
Campbell
Charles Mix
Clark
Clay
Codington
Davison
Day
Deuel
Douglas
Edmunds
Faulk
Grant
Hamlin
Hand
Hanson
64
56
43
4
2
159
69
68
25
189
130
202
24
27
47
59
1
142
135
~
11
50
72
18
23
281
27
14
10
49
79
15
1
0
5
1
5
43
7
4
22
68
47
16
17
136
59
11
11
37
18
66
0
2
0
0
3
0
0
0
0
1
0
1
1
Q.ollnty.
Hughes
Hutchinson
Hyde
Jerautd
Kingsbury
Lake
Uncaln
Marshall
McCook
McPherson
Miner
Minnehaha
Moody
Potter
Roberts
Sanbom
Spink
Sully
Tumer
Union
Walworth
Yankton
d.
!
t1
3
226
26
35
22
50
12
9
18
1
26
99
41
144
265
30
3
0
0
70
2
32
404
54
67
59
51
1
3
1
0
84
3
14
23
56
1
8
1
1
1
4
1
4
7
7
194
276
81
50
28
238
107
19
314
24
4
152
32
81
41
38
9
28
19
22
.+.
Fig 43. Eastern South Dakota U.S. Geological Survey 8-digit hydrologic units (watersheds).
Appendix 85, point wetlands / 66
Appendix C1. Wetlands delineated by the National Wetlands Inventory in eastern South Dakota hydrologic units from
photography acquired 1979-1986. Attribute is the NWI code for Cowardin et al. (1979) classification.
Polvgon Wetlands
Attribute
Hectares
HU 07020001
L1UBG
L1UBHh
L1UBHx
L2ABF
L2ABFx
L2ABG
L2A8Gh
L2UBGh
PABIEMF
PABlEMFd
PAB/EMFh
PABlEMFx
PAB/FOC
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOB
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMISSC
PEMlSSCd
PEMlSSCh
PEMlSSCx
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
PEMCd
PEMCf
PEMCh
PEMCx
PEMF
217.79
1,850.49
278.61
36.61
18.42
1,081.20
368.33
139.00
610.66
7.65
19.69
17.06
1.28
641.76
39.34
139.66
149.91
6.24
29.50
36.57
1,918.38
0.55
167.60
17.33
5.03
24.29
0.20
34.60
3.68
0.65
0.78
13.39
0.39
86.45
2.85
0.73
2.27
3,695.29
1,665.15
4.19
7.54
19.03
0.92
4,625.55
976.22
0.33
23.86
10.46
3,087.34
67/ Appendix C1, polygon wetlands
Attribute
PEMFd
PEMFh
PEMFx
PFO/EMA
PFO/EMB
PFO/EMC
PFOIEMCd
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOAx
PFOB
PFOBd
PFOC
PFOCd
PFOCh
PFOCx
PSSIEMA
PSS/EMB
PSS/EMC
PSSlEMCd
PSS/EMCh
PSS/FOC
PSS/FOCd
PSSA
PSSAd
PSSB
PSSC
PSSCd
PSSCh
PSSCx
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUSAh
PUSCx
R2UBG
R2UBH
R4SBF
R4SBFx
Hectf1rf1s
238.99
52.24
12.85
7.82
8.24
22.99
0.16
0.83
6.11
3.44
527.95
26.49
24.74
0.73
1.88
0.40
87.52
18.56
5.17
2.46
1.52
4.18
32.61
2.06
0.42
2.34
2.43
62.14
4.12
0.49
86.10
9.00
1.79
0.59
0.16
10.97
62.64
2.64
9.58
0.77
0.19
0.01
5.45
68.58
3.86
Attribme
t:!.ectarf1s
HU 07020003
L1UBG
L1UBH
L2ABG
L2ABGh
L2UBG
PAS/EMF
PABlEMFd
PAB/EMFh
PASF
PABFd
PABFh
PABFx
PABGh
PABHx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFO/EMCd
PFOIEMCx
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PSS/EMC
449.76
302.48
1,277.70
13.73
8.27
115.92
121.57
0.75
142.87
4.84
42.57
55.80
13.78
0.10
1,750.63
839.39
8.31
0.26
1.23
5.45
10.28
3.82
1.20
2.62
1.38
3.62
669.62
511.53
0.16
89.22
1.11
1,172.40
977.92
3.98
0.67
203.74
32.67
0.42
0.13
0.41
13.03
4.04
0.21
0.43
10.55
3.41
42.42
26.85
0.82
~ttribute.
PSSIEMCd
PSSJFOC
PSSA
PSSAd
PSSC
PSSCd
PUBFx
R4SBF
R4SBFx
t:!.ectar~
0.55
2.62
6.45
0.89
5.30
4.13
8.39
25.21
1.35
HU 09020101
L1UBHh
L2ABF
L2ABG
L2ABGh
L2UBGh
PABIEMF
PABlEMFd
PABJEMFh
PASF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMfABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAh
PEMfFOC
PEMlFOCd
PEMlFOCh
PEMISSA
PEMlSSAd
PEMISSAh
PEMlSSB
PEMISSC
PEMfUBFh
PEMlUBGh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
2,260.29
11.15
608.25
41.63
0.38
144.06
1.36
63.02
314.49
14.02
14.12
29.12
25.07
31.63
4.63
1,916.67
10.71
1,134.04
2.72
2.91
1.07
4.90
0.56
10.63
14.12
0.30
14.89
16.87
16.54
0.01
0.10
3,102.35
486.61
281.04
1.72
8.68
2,400.49
282.88
488.64
Attribute
.,
PEMCx
PEMF
PEMFb
PEMFd
PEMFh
PEMFx
PFOJEMA
PFOJEMC
PFO/EMCh
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSJEMB
PSSJEMC
PSSlEMCh
PSSA
PSSAd
PSSB
PSSC
PSSCd
PSSCh
PSSCx
PUBFx
R2UBHx
Hectares
27.54
1,741.78
1.07
75.05
456.29
25.56
1.29
5.87
14.42
0.66
0.31
24.07
3.15
22.47
21.21
0.85
45.73
4.42
3.51
33.01
24.14
1.63
25.07
0.42
23.69
22.91
0.95
13.13
4.05
4.26
7.65
HU 09020105
L1UBGh
L2ABF
L2ABG
L2A8Gh
12UBGh
PABJEMF
PABlEMFd
PABF
PABFh
PABFx
PABGh
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMIFOC
PEMISSA
PEMISSC
PEMA
PEMAd
37.51
9.63
203.81
33.80
18.39
28.94
0.53
129.44
8.22
8.73
6.45
233.93
81.56
2.98
5.88
8.52
2.79
0.48
1,159.85
303.30
Attribute
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFO/EMA
PFOJEMC
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PFOCx
PSS/EMC
PSSIFOA
PSS/FOC
PSSA
PSSC
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
Hectares
3.25
0.13
989.25
122.02
1.96
0.08
879.99
301.66
44.41
2.21
1.56
1.94
0.56
12.06
0.83
9.77
0.28
0.26
0.26
0.50
0.80
2.90
3.20
0.16
6.56
22.71
13.20
9.28
Attribute
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMF
PEMFh
PFO/EMC
PFO/SSA
PFO/SSC
PFOA
PFOC
PFOCh
PSSlEMA
PSS/EMC
PSS/FOA
PSSlFOC
PSSA
PSSAh
PSSC
PSSCd
PSSCh
PUBFx
PUBGx
PUSAh
PUSAx
PUSCh
R4SBA
R4SBF
Hectares
77.02
60.06
1,615.06
43.64
206.19
213.46
100.67
6.11
0.29
O.SO
8.41
11.93
0.14
1.04
2.17
0.32
1.34
5.43
0.22
4.26
4.15
4.09
0.96
0.46
0.13
0.27
0.61
0.28
69.70
HU 10130102
L1UBGh
L1UBHh
L2ABFh
L2ABG
L2ABGh
L2UBF
L2UBFh
L2USCh
PAB/EMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFh
PEMlABFx
PEMlFOAd
PEMIFOC
PEMISSA
PEMISSC
PEMlSSCh
PEMA
2,547.75
11,473.17
164.33
73.67
SO.50
1.09
7.27
111.16
3.85
39.39
339.18
79.91
19.53
1.33
102.12
18.53
0.16
0.56
5.69
1.53
17.56
1.34
2,640.08
HU 10130105
L1UBFh
L1UBGh
L1UBHh
L2ABF
L2ABFh
L2ABG
L2ABGh
L2ABGx
L2UBF
L2UBFh
L2UBGh
L2USAh
L2USCh
PABIEMF
PAB/EMFh
PABF
PABFh
PABFx
PABGh
PEMlABF
PEMlABFh
PEMIFOA
0.51
3,572.39
27,561.90
197.86
38.12
1,004.19
74.91
10.79
0.04
22.04
52.54
0.08
181.25
40.62
11.17
19.91
1,192.66
258.54
56.33
354.32
27.29
4.26
Attribute
PEMlFOAh
PEMIFOC
PEMIFOCh
PEMlFOCx
PEMISSA
PEMlSSAh
PEMISSC
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOIEMA
PFO/EMAh
PFO/EMAx
PFOIEMC
PFOIEMCh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PSSlEMC
PSSA
PSSAh
PSSC
PSSCh
PUBJEMFh
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
PUBHx
PUSAh
PUSCh
PUSCx
R4SBF
Hectares
8.14
2.90
7.08
0.75
0.96
2.82
2.07
1.73
8,303.47
561.64
96.69
2.33
0.16
6,651.96
147.79
81.81
5.72
1,107.03
15.42
6.03
2.72
0.16
0.45
0.68
0.20
2.51
16.93
1.48
1.20
0.76
2.19
1.40
0.96
7.57
7.77
3.79
2.18
1.31
0.24
186.14
102.27
42.03
6.35
0.09
0.09
0.86
0.79
6.50
Appendix C 1, polygon wetlands / 68
~tto12u1f:.
I::f.mac§
Attribute
HU 10130106
l2ABF
l2ABG
l2ABGh
L2UBG
L2USA
PABJEMF
PABF
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMIFOA
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOIEMA
PFOIEMC
PFOIEMCh
PFOISSA
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PSSA
PSSC
PUBFh
PUBFx
PUBGh
PUBGx
PUSCx
256.72
2,274.27
56.72
125.97
5.65
542.99
508.49
165.81
252.10
23.49
4.38
0.89
2,323.24
5.46
12.64
0.84
1.59
2.85
0.70
6,921.37
266.48
4.09
0.65
17,875.45
226.38
19.94
2.99
2,603.82
2.43
2.18
27.63
0.65
10.47
0.20
1.97
0.23
44.74
0.39
0.19
22.04
0.75
0.37
5.53
1.93
38.68
82.14
1.68
4.57
2.73
69/ Appendix C1. polygon wetlands
I::f.ectares
HU 10140101
324.35
L1UBGh
29,187.43
L1UBHh
426.55
l2ABF
29.91
l2ABFh
1.44
l2ABFx
895.38
l2ABG
188.65
l2ABGh
189.98
12UBFh
3.29
L2USAh
160.48
12USCh
199.94
PABIEMF
61.85
PABlEMFh
PABlEMFx
0.48
187.86
PABF
PABFd
3.90
PABFh
1,536.64
PABFx
723.48
PABG
1.46
PABGh
78.31
PABGx
34.42
PABHx
0.23
PEMlABF
4,250.06
PEMlABFd
233.68
PEMlABFh
87.11
PEMlABFx
2.63
PEMIFOA
29.14
PEMlFOAd
2.45
PEMlFOAh
1.44
PEMIFOC
154.53
PEMlFOCd
5.72
PEMlFOCh
6.36
PEMlFOCx
2.23
PEMlFOF
8.11
PEMISSA
3.28
PEMlSSAh
11.27
PEMISSC
42.65
PEMlSSCh
1.94
PEMA
7,440.98
PEMAd
2,481.66
PEMAh
169.56
PEMB
0.10
PEMC
12,030.48
PEMCd
1,227.49
PEMCh
150.84
PEMCx
20.34
PEMF
2,892.22
PEMFd
22.89
PEMFh
363.07
PEMFx
0.33
PFOIEMA
6.84
PFOIEMC
15.48
PFOIEMCh
3.70
PFOIEMCx
0.62
Attcibute
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSS/FOA
PSSlFOC
PSSA
PSSAd
PSSAh
PSSC
PSSCh
PSSCx
PUBFh
PUBFx
PUBGx
PUSAh
PUSC
PUSCh
R4SBF
Hectares
0.B1
46.50
5.08
14.57
0.38
53.80
2.37
13.96
4.65
10.23
1.27
0.13
0.15
14.23
1.42
40.78
6.51
70.91
0.10
0.26
8.32
5.35
0.46
0.17
6.87
10.92
HU 10140103
L1UBHh
l2ABF
L2ABFh
L2ABG
L2ABGh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFh
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
29.61
348.47
25.95
207.91
50.93
138.92
15.79
67.11
760.37
203.14
19.05
2.66
126.03
18.46
2.76
0.32
1.49
1.40
0.83
3,662.49
361.83
9.31
1.07
7.136.66
181.04
36.04
Attdbute
PEMCx
PEMF
PEMFh
PFOIEMC
PFO/EMCh
PFOA
PFOC
PFOCh
PSSlFOCh
PSSA
PSSC
PUBFx
R4SBF
I::f.sctsces
12.14
11.71
8.70
0.84
3.21
13.80
B.n
1.17
1.35
0.18
0.20
21.31
196.84
HU 10140105
L1UBGh
L1UBHh
l2ABF
L2ABFd
l2ABFx
l2ABG
12ABGh
12UBGh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PABHh
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOIEMA
PFOIEMC
PFOIEMCh
127.40
14.27
432.80
22.25
4.60
245.71
58.71
18.85
175.00
3.45
29.50
1,205.64
254.42
103.00
0.04
2,297.33
44.53
33.26
0.33
5.44
13.07
9.50
5.10
1.73
0.39
0.22
2,628.63
427.93
14.29
4,263.02
350.01
23.n
0.78
74.58
5.65
0.07
2.61
2.71
0.72
Attribute
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PSSA
PSSC
PSSCh
PUBFh
PUBFx
PUBGx
PUSCh
R4SBF
Hectares
26.11
2.17
0.71
11.92
0.94
1.86
4.69
0.91
0.07
1.68
9.89
0.14
0.12
111.71
HU 10160003
1
'\
llUBGh
l2ABF
L2ABFd
L2ABG
L2ABGh
PABIEMF
PABIEMFd
PABlEMFh
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOAh
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMISSA
PEMlSSAd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
334.26
36.02
58.69
55.57
1,429.09
242.62
100.66
0.75
30.99
9.37
68.60
272.12
1.17
47.90
2,207.51
335.75
4,405.01
0.43
335.84
113.14
7.82
142.16
35.14
21.04
7.55
1.35
10,262.66
1422.03
59.48
0.55
11.649.92
1,246.16
139.33
10.93
382.59
626.61
7.73
1.56
77.19
Attribute
Hectares
Attribute
Hectares
PFO/EMAd
PFO/EMC
PFO/EMCd
PFO/EMCh
PFO/SSAd
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PSSlEMA
PSS/EMAd
PSS/EMC
PSS/FOA
PSS/FOAd
PSSlFOC
PSSA
PSSAd
PSSC
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
R2UBG
R4SBF
R4SBFx
8.04
191.41
5.12
5.27
1.02
206.54
12.12
2.13
155.85
11.92
9.21
0.65
0.71
0.59
1.49
1.46
6.45
3.89
5.84
0.20
0.15
28.32
48.70
16.94
7.43
670.80
376.64
2.77
PFOA
PFOC
PSSA
PSSC
PUBFx
PUSCh
R4SBF
16.18
3.60
1.12
0.46
29.28
0.11
293.27
HU 10160004
l1UBGh
PABIEMF
PAB/EMFh
PABF
PABFh
PABFx
PABGh
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMIFOC
PEMISSA
PEMISSC
PEMlUBFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFO/EMC
613.54
96.30
8.15
20.17
33.14
146.08
2.39
554.17
1.18
25.94
13.82
5.35
3.92
0.57
0.78
3,790.29
87.36
1.82
0.29
2,441.61
38.47
2.84
7.27
69.15
2.31
1.22
HU 10160005
l1UBGh
L2ABG
L2ABGh
L2UBGh
PABIEMF
PAB/EMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMlABGx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PFOIEMA
PFO/EMC
PFOIEMCx
PFO/SSA
PFOA
PFOAd
PFOAx
PFOC
PFOCd
PFOCx
PSSlEMCd
PSS/FOA
PSSA
PSSAd
PUBFh
14.03
69.99
119.84
12.02
68.66
16.11
43.36
23.37
57.18
1.66
7.65
550.60
60.37
1.60
0.06
1.61
13.55
1.20
10.49
4.30
0.14
3,438.59
697.05
8.41
2.00
1,422.90
275.63
0.49
1.18
399.88
97.53
9.62
0.98
9.49
2.09
0.78
24.55
4.01
0.36
11.39
0.76
1.19
0.70
4.54
2.56
0.98
16.39
Attribute.
PUBFx
R2UBG
R4SBF
R4SBFx
Hecta(e~
42.96
0.80
210.85
0.29
HU 10160006
L2ABF
L2ABFx
L2ABG
L2ABGh
L2ABGx
L2UBF
PABIEMF
PABlEMFd
PABlEMFh
PAB/EMFx
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMlFOAx
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMlSSB
PEMISSC
PEMlSSCd
PEMlSSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFOIEMA
PFOIEMAd
568.72
2.48
1,253.85
338.79
105.54
13.96
1,239.89
81.31
76.00
6.44
341.26
2.54
779.30
1,106.92
27.56
17.02
4,217.50
256.57
64.25
4.59
138.15
16.91
0.47
233.21
59.48
2.34
11.49
11.30
2.09
2.56
39.65
4.67
0.21
30,782.88
4,583.73
8.85
0.15
16.50
2.68
31.275.15
3,103.05
109.30
41.11
334.98
9.24
24.68
2.17
0.48
47.66
5.79
Appendix Ct. polygon wetlands / 70
dtlcillll1§.
PFOIEMC
PFOIEMCd
PFO/EMCh
PFOIEMCx
PFO/EMF
PFO/SSA
PFO/SSC
PFO/SSCx
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSSlEMCd
PSS/FOA
PSSIFOC
PSSlFOCx
PSSA
PSSAd
PSSC
PSSCd
PSSCh
PSSCx
PUBFh
PUBFx
PUBGx
PUSCx
R2UBG
R2UBGx
R4SBF
R4SBFx
Hgm~
141.98
8.99
0.63
4.82
8.10
3.01
8.52
1.70
475.11
28.89
1.00
191.56
4.69
6.47
1.93
0.24
3.76
0.38
5.89
2.38
1.13
53.16
4.79
22.00
0.86
0.71
0.36
0.12
171.70
4.78
4.12
1,487.08
3.62
1,305.35
1.07
HU 10160007
n,33
l2ABF
l2ABFh
L2ABG
12UBFh
12UBGh
PAS/EMF
PABlEMFh
PASF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCx
PEMA
10.06
239.19
79.90
32.00
656.32
10.25
271.27
148.65
110.22
947.14
2.56
1.95
1.93
0.63
4,067.92
71 / Appendix C1. polygon wetlands
Mribule
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMU
PFOJEMA
PFOIEMC
PFO/EMCx
PFO/SSA
PFOA
PFOC
PSS/EMA
PSSA
PSSC
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
ti~til.~
180.61
2.13
5.83
18,966.53
137.58
15.69
2.30
560.54
10.34
1.37
1.05
1.07
0.39
1.34
12.27
2.87
0.60
0.37
0.55
4.24
115.66
158.60
7.73
2.29
HU 10160008
L1UBGh
L2ABF
L2ABFh
L2ABG
L2ABGh
L2UBFh
L2UBGh
L2USA
L2USC
PABIEMF
PABlEMFd
PABlEMFh
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMlFOFh
PEMISSA
PEMISSC
325.15
88.88
7.65
861.26
85.63
20.01
76.67
7.35
46.80
420.83
20.11
108.16
155.30
1.81
285.17
303.50
13.66
13.17
684.41
8.71
9.08
18.22
1.56
2.04
1.37
0.59
3.58
~tldlXlti
PEMlUBFh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFO/EMA
PFO/EMC
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSSA
PSSC
PSSCx
PUBlFOFh
PUBF
PUBFh
PUBFx
PUBGh
PUBGx
R4SBF
R4SBFx
ti~/J.C§
2.28
11,641.70
570.15
11.84
2.17
19,845.38
405.57
38.84
4.81
119.12
0.70
13.74
0.21
13.73
2.43
9.72
0.26
45.30
0.51
1.11
0.11
6.96
3.62
0.30
3.40
0.78
0.59
0.92
0.14
204.30
127.54
84.60
5.72
768.30
1.83
HU 10160009
L1UBH
L2ABF
L2ABFh
L2ABFx
L2ABG
L2ABGh
PABlEMCh
PABIEMF
PABlEMFh
PABF
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
539.56
463.87
8.67
1.45
1,135.52
263.31
4.33
833.28
66.18
171.44
907.41
552.27
61.12
43.15
516.52
4.74
~ ttrillll1fl
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
PFOIEMC
PFO/EMCh
PFOfSSAd
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSS/EMAd
PSSlEMC
PSS/FOA
PSSA
PSSC
PSSCd
PUBFx
PUBGx
R2UBF
R4SBF
R4SBFx
tiectiJ.(e.~
79.89
1.62
8.62
14.84
3.33
5.31
0.61
0.92
10,930.60
1,551.71
19.62
0.55
23,186.67
816.38
84.08
8.65
152.73
0.62
4.82
0.07
1.26
2.31
3.06
1.22
1.74
66.85
3.93
7.10
0.10
76.92
8.39
4.65
0.29
0.65
0.44
8.63
2.76
0.59
38.34
0.13
244.11
707.05
0.34
HU 10160010
L1UBG
L1UBH
L2ABF
l2ABG
L2ABGd
L2UBG
L2USA
L2USC
3,964.03
3,059.49
817.96
6.419.18
15.30
15.29
195.87
505.55
,..
A«ribute
~--
PAB/EMF
PABJEMFd
PABlEMFh
PABIEMFx
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMISSA
PEMlSSB
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFO/EMCd
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PSS/EMA
PSSIEMC
PSSlFOA
PSS/FOC
PSSA
PSSAd
PSSC
PSSCd
PUBF
Hectares
1,805.45
34.17
13.58
0.10
831.76
4.65
29.07
161.00
2.50
25.09
17,125.87
557.32
2.92
0.24
24.20
9.55
54.78
12.14
227.73
24.05
4.252.38
1.837.91
3.65
0.46
32.32
6,264.40
1,068.76
1.47
6.37
6,880.19
317.48
14.80
0.04
25.92
10.67
0.64
0.33
1.76
49.53
2.38
0.52
0.06
26.59
0.89
5.46
10.64
3.28
3.30
22.24
2.51
22.85
3.79
3.23
Attribute
PUBFh
PUBFx
PUBGx
PUBHh
R4SBF
Hectares
24.02
64.89
0.22
0.12
11.67
HU 10160011
11 UBGh
L2ABF
L2ABFd
L2ABFx
L2ABG
L2ABGd
L2ABGh
L2ABGx
PAB/EMF
PAB/EMFd
PAB/EMFh
PAB/EMFx
PAB/EMG
PABF
PABFd
PABFh
PABFx
PABGh
PABGx
PEM/ABF
PEMlABFd
PEM/ABFh
PEM/ABFx
PEM/FOA
PEMlFOAd
PEMIFOAh
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMISSC
PEMlSSCd
PEMISSCh
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
392.88
378.41
56.35
0.65
618.51
63.38
126.44
56.83
661.55
154.23
17.48
1.55
10.73
598.85
202.34
648.51
963.21
96.90
139.04
5,196.32
612.45
40.94
5.82
76.85
19.56
3.00
159.45
16.52
2.18
18.13
7.78
0.32
1.42
7.63
1.38
18,805.96
8,353.73
8.36
1.44
21,572.30
4,108.00
14.82
12.43
273.74
109.15
45.80
Attnbute
Hectares
Attribute
Hectares
PEMFx
PFO/EMA
PFO/EMAd
PFO/EMAh
PFOIEMC
PFO/EMCd
PFO/EMCh
PFO/EMCx
PFO/EMF
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PFOCx
PSSIEMA
PSSlEMAd
PSSlEMCd
PSS/FOC
PSSA
PSSAd
PSSAh
PSSC
PSSCd
PSSCh
PUBF
PUBFh
PUBFx
PUBGx
PUSAh
PUSCh
PUSCx
R2UBG
R2UBH
R2USA
R2USC
R4SBA
R4SBF
2.49
50.00
9.91
4.50
239.79
34.82
12.07
5.80
0.64
0.32
0.28
237.99
56.14
7.75
138.61
29.49
10.94
8.36
1.18
8.00
1.54
0.36
11.23
0.61
8.38
9.44
0.90
0.21
2.26
2.64
171.37
0.05
0.31
0.27
0.09
l,191.n
34.68
3.48
5.96
0.47
624.01
PABJEMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFQCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMlSSAd
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
PFOIEMAd
PFO/EMC
PFOIEMCd
PFO/EMCh
PFOIEMCx
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSSIFOA
PSSlFOC
1.39
267.72
26.05
240.76
237.94
7.49
11.37
19.97
1,956.52
87.38
242.29
1.12
111.06
10.26
74.40
37.42
HU 10170101
l1UBHh
L2ABF
L2ABFx
L2ABG
L2ABGh
L2USA
L2USC
PAB/EMF
PABlEMFd
PAB/EMFh
5,155.99
325.83
0.49
291.38
91.97
0.17
0.80
280.56
5.70
3.06
2.03
2.83
708.61
2.39
85.57
0.24
2,722.76
1,235.65
1.32
0.41
4,037.60
497.61
4.23
8.76
669.05
69.24
116.82
2.08
142.n
0.46
42.89
1.37
3.83
2.78
6.27
271.22
7.17
0.73
0.29
58.83
4.46
3.65
8.21
43.79
2.51
66.99
0.93
Appendix C1, polygon wetlands / 72
~t1.rjbute
PSSlUSA
PSSlUSAh
PSSlUSC
PSSA
PSSAh
PSSC
PSSCd
PUBFx
PUBGx
PUBHh
PUS/SSA
PUs/SSC
PUSA
PUSC
PUSCh
R2UBF
R2UBG
R2UBH
A2UBHx
R2USA
R2USC
R4SBA
R4SBF
R4SBFx
Hectares
100.93
0.70
232.82
106.95
5.50
84.64
1.95
3528
21.76
1.07
36.06
40.33
2.37
0.93
0.60
8.55
84.83
4,620.66
8.12
199.32
504.13
2.67
136.30
2.98
HU 10170102
L1UBGh
L2ABF
L2ABFx
L2ABG
L2ABGh
L2UBFx
PABIEMF
PABfEMFd
PABfEMFh
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOC
PEMlFOCd
PEMlFOCx
59.12
192.55
0.78
689.97
218.16
12.61
749.32
8.78
0.60
0.96
360.35
15.73
313.79
498.47
1.39
15.60
45.21
6,nO.51
4.15
410.26
16.18
26.12
11.95
1.66
70.84
8.25
38.53
73 / Appendix C1, polygon wetlands
Atl.ribute
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
PFOIEMAd
PFO/EMC
PFO/EMCd
PFO/EMCh
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSS/EMC
PSSlFOCd
PSSA
PSSC
PSSCd
PUBFh
PUBFx
PUBGx
PUBHx
R2UBG
R2UBGx
R2USA
R2USC
R4SBC
R4SBF
R4SBFx
tf.ect9.rf!.~
1.28
4.07
0.38
7.039.47
6.182.99
4.64
0.34
8.019.85
2,920.06
2.53
14.57
202.71
150.89
10.90
1.05
36.41
8.29
277.98
47.59
1.82
27.71
0.80
0.73
118.76
43.14
1.41
0.22
163.48
32.17
3.42
2.50
1.47
7.47
0.30
72.93
0.60
0.56
2.21
72.62
4.36
1.57
122.96
24.87
2.52
1.09
0.94
164.74
1.08
Attrjll.llt~
Hecta(§§
HU 10170103
L2ABG
PABfEMF
PABF
PABFd
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCd
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PEMF
PEMFd
PFOIEMA
PFO/EMAd
PFO/EMC
PFO/EMCd
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PSSlEMC
PSSlFOC
PSS/FOCd
PSSA
PSSAx
PSSC
PSSCd
PUBFx
2,811.15
101.43
35.41
5.54
9.97
150.04
17.24
6,218.12
991.59
2.09
1.72
48.78
4.51
0.55
12.35
1.09
922.55
519.02
1,784.05
737.53
0.11
303.66
1.94
33.97
0.84
24.42
1.36
1.29
16.85
7.33
101.59
29.87
3.31
0.99
0.45
2.25
0.09
4.73
3.18
3.46
HU 10170201
LtUBG
L2ABF
L2ABG
L2USA
PABfEMF
PAB/EMFh
PABF
PABFd
PABFh
PABFx
283.17
12.02
7,004.53
32.98
508.96
15.92
60.29
0.70
29.44
269.54
Attrill.!d.e.
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMlFOCx
PEMlFOF
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFx
PFOIEMA
PFOIEMC
PFOIEMCd
PFOIEMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PFOCx
PSSlEMA
PSSlEMC
PSSIFOA
PSSlFOC
PSSA
PSSC
PSSCd
PUBFx
R4SBF
tf.ect9.r~s
13.52
16,484.23
2,654.81
1.58
1.99
38.11
4.00
263.Q1
41.50
0.19
3.05
3.13
3.24
44.55
2.14
2,993.86
1,854.39
3.05
0.09
8,131.76
1,653.18
0.19
4.23
535.95
18.39
0.19
18.81
72.28
5.47
0.31
1.49
11.63
43.11
6.99
105.97
27.00
0.39
0.98
8.56
8.20
12.57
6.35
30.47
1.19
15.83
3.61
--
'
,
~t1ribute.
Hectares
HU 10170202
l1UBG
l2ABFx
l2ABG
L2ABGx
L2UBG
L2UBGx
PABIEMF
PABIEMFd
PAB/EMFh
PAB/EMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOAx
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMISSC
PEMlSSCd
PEMA
PEMAd
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
5,069.12
0.10
5,945.85
23.35
143.78
21.93
610.96
67.19
5.86
6.40
74.99
8.58
124.24
394.86
0.71
36.64
5,015.93
677.30
10.04
32.67
26.89
9.73
4.85
259.04
9.29
0.20
26.40
4.75
23.42
5.83
4,965.91
1,672.95
5.72
0.38
4,437.96
1,074.39
7.70
37.92
446.01
246.48
0.83
3.34
21.06
Attribute
Hectar~
~ttribute
PFO/EMC
PFO/EMCd
PFO/EMCx
PFO/SSC
PFO/SSCd
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMA
PSS/EMC
PSS/EMCd
PSS/FOA
PSS/FOAd
PSS/FOC
PSSA
PSSAd
PSSC
PSSCd
PUBFx
PUBGx
PUSC
R2UBG
R4SBF
R4SBFx
118.36
5.39
16.74
3.74
1.42
96.46
9.22
1.00
0.60
177.94
10.58
0.20
4.02
11.43
18.57
2.04
12.55
0.76
2.22
13.98
2.26
19.90
3.41
96.27
92.71
1.14
91.09
854.24
4.23
PABFh
PABFx
PABGh
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOAx
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMISSAd
PEMISSC
PEMlSSCd
PEMISSCh
PEMlSSCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFO/EMA
PFOIEMAd
PFO/EMC
PFO/EMCd
PFOIEMCh
PFO/EMCx
PFO/SSA
PFO/SSC
PFO/SSCx
PFOA
PFOAd
HU 10170203
l1UBG
L1UBGh
L2ABF
L2ABFx
L2ABG
L2ABGh
L2ABGx
PAB/EMF
PAB/EMFd
PAB/EMFh
PAB/EMFx
PABF
PABFd
1,n2.41
20.13
226.01
0.36
1,542.91
55.99
9.47
320.68
57.70
7.56
0.82
269.66
5.90
Hectares
214.21
323.98
65.84
98.46
3,375.48
487.68
6.19
6.42
63.72
5.70
0.26
150.65
17.23
2.13
38.91
4.35
4.37
4.92
1.n
7.45
0.27
3,514.62
3,032.27
20.50
2.94
3,321.89
1,677.86
21.62
14.83
64.30
45.27
13.84
0.49
249.90
2.59
159.69
35.16
1.24
19.55
13.15
14.94
1.09
386.08
39.55
Attribute
Hectares
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMA
PSS/EMC
PSS/FOA
PSSlFOAd
PSS/FOC
PSSlFOCd
PSSlUSA
PSSA
PSSAd
PSSC
PSSCd
PUBF
PUBFh
PUBFx
PUBG
PUBGh
PUBGx
PUS/SSA
PUSAx
PUSC
PUSCh
PUSCx
R2UBF
R2UBG
R2UBGx
R2UBH
R2UBHx
R2USA
R2USAx
R2USC
R3UBG
R4SBA
R4SBC
R4SBF
R4SBFx
1.06
0.49
142.23
33.02
2.80
1.97
2.44
4.97
20.36
1.22
9.28
0.93
0.74
20.19
2.18
19.80
1.76
8.34
0.54
109.53
0.51
3.86
80.66
0.81
0.39
0.26
1.32
3.24
0.33
972.62
53.96
31B.61
27.46
58.05
4.48
22.16
2.68
7.04
0.33
356.40
8.06
Appendix C1, polygon wetlands / 74
Linear Wetlands
Attribute
Leath fm!
HU 09020101
l2ABGh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PSSCh
R4SBA
R4SBAx
R4SBC
R4SBF
R4SBFx
1068.0
136.1
12848.0
57.7
7537.7
51183.3
1008.4
4n.3
52303.5
9278.9
2314.7
10852.4
892.5
2252.3
113Q.4
1801.6
131.0
4416.8
1554.0
3516.6
no. 1
276.1
1961.2
3373.8
1218.5
5497.3
527.4
HU 10130102
l2UBFh
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCx
PEMF
PEMFx
PEMFh
PFOA
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
597.8
1483.0
430.7
576.9
1323.2
289.3
364735.8
35.8
5473.4
286942.9
2873.0
19782.6
23n8.1
860.2
390.6
9625.3
2580.6
124.8
766.8
129.2
384.0
75/ Appendix C1, linear wetlands
Attribute
Length (m!
Attribute
Length fm!
PSSA
PSSAx
PSSC
R2SBA
R4SBA
R4SBC
R4SBF
R4SBFx
4534.2
233.5
167.8
20547.4
69950.4
19442.2
115200.1
1547.0
PEMFh
PEMFx
PFO/SSA
PFOA
PFOAx
PFOAh
PFOC
PSSA
PSSC
PUBFh
PUBFx
R4SBC
R4SBF
323.2
251.9
449.4
18949.5
146.7
599.7
1565.0
1608.4
164.0
44.3
888.0
9760.5
13116.1
HU 09020105
PABIEMF
PABFh
PABFx
PEMlABF
PEMIFOA
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/SSA
PFOA
PFOAd
PFOC
PSSA
PUBFx
PUBGh
PUBGx
R4SBC
R4SBF
R4SBFx
n.9
47.3
In.8
453.7
302.7
373.2
162723.0
505.9
26405.0
169967.7
46.8
24149.9
20863.4
643.6
203.6
324.4
10700.4
228.6
6000.3
110.2
196.3
169.6
297.9
7165.0
30029.2
25583.8
HU 10130106
L2USA
PABIEMF
PABFh
PABFx
PEMlABF
PEMIFOA
PEMA
PEMAx
PEMC
PEMCh
PEMCd
PEMCx
PEMF
190.8
225.0
158.3
710.3
364.1
310.0
311092.1
21446.4
264104.9
251.4
73.2
58860.3
41586.4
HU 10160003
PAB/EMF
PABFh
PABFx
PEMlABF
PEMIFOA
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCd
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMC
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PUBFx
R4SBA
R4SBCx
R4SBF
R4SBFx
22.8
2n.6
1945.3
10757.1
814.0
3848.7
676.2
347841.4
1029.0
65474.8
507223.2
297.1
5090.3
362731.1
25542.2
520.9
2400.4
167.4
101925.3
1953.9
1543.2
1260.2
25969.7
5874.4
3507.8
3607.1
296.1
305.4
9033.0
44651.1
65665.0
Attribute
Length fm)
HU 10160004
PABF
PABFx
PEMlABF
PEMlABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PFOAh
PFOAx
PFOC
PUBFx
R4SBF
95.3
692.7
17357.9
714.8
278660.3
116.5
33766.4
379745.6
154.9
68.0
139384.0
1259.7
5847.8
74.5
99.0
12418.1
169.8
101545.4
HU 10160007
PABFx
PABFh
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOA
PFOAx
PFOC
PUBFh
PUBFx
65.3
90.9
275439.3
183.8
90227.3
187342.0
122.1
193.7
101943.8
16254.8
887.3
919.4
326.3
143.5
334.0
701.0
HU 07020001
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMIFOC
PEMA
PEMAd
PEMAx
PEMB
PEMC
PEMCd
245.6
1532.9
216.2
345.0
4596.7
3046.9
6679n.3
2642.5
36589.3
19.3
1630491.0
3658.4
Attribute
Lenth (m)
Attribute
Length (m)
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PSSCx
PUBFx
R2UBG
R4SBA
R4SBAx
R4SBC
R4SBCx
R4SBF
R4SBFx
205.9
251363.5
29170.1
1081.1
6772.2
132.3
126799.2
903.1
17435.0
596.1
21625.3
251.0
926.8
490.5
13943.0
7059.5
471.4
603.9
572.9
39790.9
16506.5
176533.7
3469.8
485944.2
7723.9
PSSC
PUBFx
R2USA
R4SBF
185.9
112.7
799.2
6443.5
HU 10160010
l2USA
l2USC
PABIEMF
PABFx
PEMlABF
PEMlABFx
PEMIFOA
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOA
PFOAd
PFOAx
PFOC
PFOCx
PSSlEMC
PSSA
63797.7
1366.6
61.4
4446.0
28601.7
259.9
206.3
1570.2
288111.9
4236.9
17007.7
287712.7
2098.0
215.0
85970.6
126195.5
385.0
612.2
1562.4
61362.7
615.3
821.0
5331.4
106.3
57.8
5916.5
HU 10160005
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMlABFx
PEMIFOC
PEMA
PEMAX
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCx
PSSlFOA
PUBFx
R4SBF
R4SBFx
603.3
1563.4
24.0
70.2
17660.4
513.5
332.2
260536.0
5149.7
1958.0
19675.7
359878.6
679.1
53.2
65623.0
6924.2
3199.5
268.3
62.0
67008.6
355.8
673.4
161.1
3142.3
459.9
6103.8
112.5
98937.6
689.2
HU 10160008
l2USA
l2USC
PABF
PABFx
PEMlABF
PEMA
PEMAh
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOfEMC
2834.8
2523.4
2207.5
969.2
4234.6
645462.4
46.0
1427.4
124385.6
955316.5
73.4
1026.9
453573.4
1608.5
3511.2
2455.4
Attribute
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PUBFh
PUBFx
PUSA
R4SBC
R4SBF
R4SBFx
Length (m)
5469.9
258.2
7879.9
945.8
1881.8
218.3
1299.4
59.3
443.1
26.1
1161.2
158714.9
96.1
HU 10130105
L2UBFh
PABF
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOA
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSSA
PSSAh
PSSC
PUBFh
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
1317.3
934.0
1712.9
288.5
653025.5
476.1
238.3
29420.3
614126.8
160.5
1160.2
187120.4
1411.1
1426.1
22623.8
24.4
9471.6
5178.2
511.2
850.8
1257.1
131.9
366.9
172.6
369.5
497.5
1101.0
186566.9
133517.9
m92.8
2340.6
HU 10170202
PABFh
PABFx
PEMlABF
PEMIFOC
PEMA
138.4
327.6
2104.5
869.9
1074052.7
Attribute
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFO/EMC
PFOA
PFOAd
PFOAh
PFOAx
PFQC
PFOCd
PFOCx
PSSA
PSSC
PUBFx
R4SBF
R4SBFx
Length 1m)
4124.0
17411.0
2659066.9
10108.4
471.1
711692.6
3755.0
126.8
286.0
101779.1
2536.0
1172.4
5775.6
34720.1
1749.4
3703.9
2360.0
805.2
628.7
236136.0
1737.6
HU 10160006
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFO/EMC
PFOA
PFOAH
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCd
PFOCx
1507.6
494.8
163.5
2073.1
5020.6
2157.3
585.8
476.6
175.1
90.5
71.1
1558947.3
16078.6
43415.2
2677077.7
7825.2
1136.8
2454306.4
2994.3
285.2
1725.7
168049.0
3774.8
963.4
992.3
5309.3
46052.0
137.7
1323.4
6557.2
Appendix C1, linear wetlands / 76
~ttribl!.te.
Le.nlh lml
Attribllte.
Le.ngJl1 unl
~ttd~l!le.
l.m1gttJ.lml
AU,ribllte.
PSSA
PSSC
PSSCx
PUBFx
PUSCx
A4SBA
A4SBC
A4SBF
R4SBFx
4{)6()2
PFOAh
PFOC
PFOCd
PFOCx
PSSA
PSSC
PUBFx
R2UBG
R4SBC
A4SBCx
R4SBF
R4SBFx
32.7
18616.9
639.0
1287.7
359.5
1841.0
n59.7
160.1
28.8
20.9
122365.6
4697.1
PFOAx
PFOC
PSSA
PSSAh
PUBFx
R4SBA
R4SBC
R4SBF
R4SBFx
712.6
1427.8
116.5
58.5
166.6
13534.5
13798.7
38373.7
233.6
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PUBFx
PUBFh
PUSCh
R4SBA
A4SBC
R4SBCx
A4SBF
R4SBFx
194.7
64.1
1900.4
28.2
2009.0
11060.4
321042.0
18258.4
HU 10170201
L2USA
PABF
PABFx
PEMlABF
PEMIFOA
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PEMFx
PFOIEMC
PF01Ax
PFOA
PFOAx
PFOAd
PFOC
PFOCd
PFOCx
PSSA
PSSC
PUBFx
A4SBF
65n.6
52.1
2432.2
5766.9
286.1
927.6
135125.4
659.9
7437.8
287060.2
330.4
143733.3
8896.9
n66.8
346.3
111.7
161093.2
1218.1
6257.4
21271.2
2088.9
4360.0
n8.7
313.6
202.5
3809.6
HU 07020003
99.7
PABFh
127.9
PABFx
PEMlABF
2409.7
PEMlFOC
60.6
142320.7
PEMA
4148.6
PEMAd
PEMAx
1184.9
PEMC
571137.3
2889.1
PEMCd
211.5
PEMCh
154570.8
PEMCx
3407.9
PEMF
26526.3
PFOA
1895.1
PFOAd
77 / Appendix C1. linear wetlands
HU 101§0009
PABFh
388.4
270.6
PABFx
PEMIFOC
520.6
791340.6
PEMA
3723.4
PEMAd
291.9
PEMAh
24222.7
PEMAx
1502452.3
PEMC
1665.0
PEMCd
442.7
PEMCh
947254.9
PEMCx
1306.2
PEMF
327.0
PFOIEMC
30126.8
PFOA
182.8
PFOAd
6217.5
PFOAh
1558.6
PFOAx
18400.8
PFOC
PFOCh
608.4
2165.2
PFOCx
1174.2
PSSA
PUBFx
937.9
2041.6
R4SBA
2460.6
R4SBC
20965.0
R4SBF
HI.! 19l~0103
PABF
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOAh
2414.4
30.5
191.6
395733.2
24.7
14732.6
421952.2
84.3
283.7
246152.6
7274.4
2626.5
ttU 10j1010a
PABF
93.3
PEMlFOCx
135.3
PEMA
44646.7
PEMAd
516.7
PEMAx
2304.1
PEMC
163099.9
PEMCd
547.7
PEMCx
130906.7
PFO/EMC
364.9
PFOA
58551.1
PFOAd
1847.1
PFOC
19473.6
PFOCd
2427.3
PFOCx
5216.9
326.6
PSSC
PSSCx
131.8
R4SBFx
23514.8
HI.! 10H0101
PABFh
1041.1
PABFx
7934.7
PABFh
484.6
PEMlABF
254.6
PEMlABFh
545.5
PEMIFOC
150.2
PEMlFOCh
157.4
PEMlFOCx
562.0
PEMISSC
1144.2
PEMA
946376.1
PEMAd
4268.7
PEMAh
604.9
PEMAx
10810.9
PEMC
13sn22.5
PEMCd
1278.5
PEMCh
5186.3
PEMCx
845159.4
4345.3
PEMF
PEMFh
1150.3
PEMFx
886.5
PFO/EMC
951.8
PFOA
70447.5
PFOAd
136.7
I.fHlglh {ml
19270.2
2701.9
49068.9
234.2
1181.7
3843.9
1324.3
805.9
676.9
21.8
20.4
200899.3
8n36.7
682.0
126548.4
40411.2
HU 10140105
L2UBGh
271.6
PABF
1266.0
212.4
PABFh
PABFx
385.9
PEMlABF
443.9
PEMlFOCx
58.8
890327.1
PEMA
PEMAd
1229.9
PEMAh
209.3
PEMAx
3671.9
PEMC
1002005.0
PEMCd
2180.8
PEMCh
165.0
PEMCx
252879.6
PEMF
808.6
PEMFh
416.8
PEMFx
356.0
PFOA
23246.5
PFOAd
696.5
PFOAh
12009.5
PFOAx
1327.5
PFOC
29026.2
1097.2
PFOCh
PFOCx
474.2
PSSA
1789.8
PSSC
369.6
PSSCx
192.1
PUBFx
3n.4
R4SBC
11649.0
R4SBF
247114.7
II
,.-
At1.rillu.te.
~e.ntl1lml
HU 10170102
L2ABFx
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
PEMlABFx
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFO/EMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PUBFx
R2UBG
R2UBGx
R2USC
R4SBA
R4SBC
R4SBF
R4SBFx
846.8
2852.2
333.0
2617.5
6754.8
508.6
64.7
834.4
395298.2
20963.0
50545.1
1858502.2
10510.9
189.8
1321235.5
3200.6
519.3
5629.4
737.3
6135.6
153.9
179063.4
8892.4
4552.9
17674.9
149546.6
984.2
375.0
16932.0
719.5
1198.8
78386.8
6102.9
71.5
835.5
63962
440622.6
132260.0
ANribute
Le.agtb. (ml
Attribute.
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFO/EMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSAx
PSSC
PUBF
PUBFx
PUSCx
R2USC
R4SBA
R4SBC
R4SBF
R4SBFx
103.6
274.3
460.0
3524.6
36.5
956600.3
21914.2
36.8
75984.7
2701853.1
13840.9
3025.7
2314948.7
3384.2
2102.5
1460.9
807.7
2026.1
1054.5
20n59.1
10915.3
21822.2
7283.8
107986.8
2608.1
996.7
12206.7
745.9
96.7
935.3
18.3
2141.2
106.8
79.0
3367.7
6270.2
627948.2
29275.3
PEMIFOA
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFOIEMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSAd
PSSAh
PSSAx
PSSC
PSSCd
PSSCx
PUBFx
PUBGx
PUSAx
PUSCx
R2UBG
R2USA
R2USC
R4SBA
R4SBC
R4SBCx
R4SBF
R4SBFx
HU 10170203
HU 10160011
PABlEMFd
PABF
PABFh
PABFx
PEMlABF
PEMlABFh
253.8
5251.7
2635.1
6135.7
3761.1
147.3
L2USAh
PABlEMFx
PABF
PABFh
PABFx
PEMlABF
PEM/ABFx
196.6
2130.3
2952.8
286.6
3213.6
7258.8
11984.2
Le.ngtll (ml
1250.1
4153.0
282.6
820682.3
22636.8
23.8
99158.9
2105217.8
8297.6
89.3
922059.8
2474.9
61.4
2686.4
68.9
1230.6
612.5
314512.5
72n.4
2337.5
19804.2
57359.6
2736.5
207.4
11n5.3
2659.5
536.3
251.6
528.6
553.7
307.8
353.9
869.5
46.2
57.4
84.4
1075.1
593.5
130.7
283.5
3053.0
389.6
414888.4
70234.2
ANribute.
Length (ml
HU 10170101
PABIEMF
PABlEMFx
PABF
PABFh
PABFx
PEMlABF
PEMlABFx
PEMfFOA
PEMfFOC
PEMlFOCx
PEMlSSCd
PEMA
PEMAh
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFO/EMC
PFOIEMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSSIFOA
PSSA
PSSC
PUBFx
PUBGx
R2UBF
R2UBG
R2USA
R2USC
R4SBA
R4SBC
R4SBCx
R4SBF
R4SBFx
194.2
2106.1
4071.1
658.6
2169.9
8441.7
5367.1
570.5
1069.9
1200.3
36.4
407050.9
57.5
3803.8
11168.7
1137517.0
1198.5
1908.3
388785.1
20n.5
541.2
1907.4
212.7
2321.1
255.6
108490.3
1843.1
10431.6
5459.1
135015.4
1450.5
5655.8
392.9
319.4
794.8
802.6
23.1
352.7
4743.4
10400.1
2691.0
55527.5
234n.3
3807.9
248411.9
20264.2
Appendix C1. linear wetlands / 78
Point Wetlands
~tJ.rilm1f!.
Number
HU 07020001
PABF
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PFOCx
PSSC
PUBFx
2,409
n
15
1,541
23
11
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOC
PSSA
PUBFx
3
807
105
578
46
7
3
ttU 0&020101
657
9
PEMA
PEMAd
PEMAx
PEMC
PEMCh
PEMCx
61
2
MY 090201 05
7
1,131
12
3
753
5
8
19
3
2
2
79/ Appendix C1, point wetlands
PABFh
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMU
PFOA
PFOAx
PSSA
PUBFx
PUSAx
6
3
2,464
21
1
17
238
1
5
8
2
37
4,820
27
17
2,126
14
2
10
1
1
3
8
HU 10H0101
PABFh
PABFx
PABGx
PEMA
PEMAd
PEMAh
t:J.umber
PEMC
PEMCd
PEMCh
PEMCx
PEMFx
PFO/EMCx
PFOA
PFOCx
PUBFx
PUSCh
907
21
90
28
4
2
17
2
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCh
PEMCx
PFOA
PUBFx
2
3.027
27
25
36
4
2,226
142
2
PABF
PABFh
PABFx
PEMA
PEMAd
PEMC
PEMCh
PEMCx
PFOA
PUBFx
5
4
1.365
12
235
7
2
14
HU ]0160g03
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOIEMC
PFOA
PFOC
PUBFx
Number
t1ttdlJum
tty 10160~
PABFh
PABFx
PEMlABF
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOC
PUBFx
2
5
1
3.773
13
8
1.049
1
17
3
21
tty 10160005
1
125
1
3
2
16
HY]0]40105
1
2
46
1
ttU ]0130106
PABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PFOA
PUBFx
t1tJ.ril2l1.tfl
HU 10140103
HU 10130105
1
2
32
HY 07020003
PABFx
PEMlABF
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PFOA
PUBFx
PU8Gx
Num!mr
AI1Iil1.!!lf1.
HU 10]30102
PABFh
3
PABFx
8
PEMA
1,152
PEMAd
1
1
PEMAh
PEMAx
3
PEMC
385
4
PEMCh
PSSA
1
137
6.352
26
1
15
2.305
3
1
50
1
7
50
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PUBFh
PUBFx
5
1.716
32
10
289
4
3
1
1
9
tty 10160006
PABFh
PABFx
PEMISSC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOC
PFOCx
PSSA
PUBFx
PUSCx
21
14,755
390
1
1,626
22
49
16
2
1
3
110
r
~t1ribU1i
fJ.l!.l1ltm.r
HU 10]§OIlQZ
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCx
PFOC
PUBFx
3
5,453
10
35
1,570
6
47
9,947
52
45
2,173
11
24
1
9
HI.! ]0]6g009
PABFh
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PFOAx
PFOC
PSSA
PUBFx
11,682
161
2
963
5
19
1
3
1
42
HI.! 1Q1§OO10
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
Nl!.mt2~
PEMCx
PEMF
PFOA
PSSA
PUBFh
PUBFx
27
15
16
1
20
HU 10160011
11
HU ]O]§ooga
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMU
PFOIEMA
PFOA
PUBFx
~ttri~l!.t~
10
2
3.400
100
19
2,327
20
PABF
PABFh
PABFx
PEMIFOC
PEM/FOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMFx
PFO/EMC
PFO/EMCx
PFOA
PFOAd
PFOC
PSSA
PUBF
PUBFx
PUSCh
1
12
48
8,150
1,031
5
2,856
86
14
76
4
1
1
22
2
1
1
3
128
HI.! 10110101
PABFh
PABFhx
PABFx
PEMlABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOC
PUBFx
R2USC
~t1ribtite
fJ.l!.mber
HU 10170]02
PABFh
PABFx
PEMlABF
PEMIFOA
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOIEMCx
PFOA
PFOAd
PFOC
PFOCx
PSSA
PUBFx
50
1
2
14
2
1
65
HU 10170]03
3
285
17
87
3
5
6
HI.! 1017Q201
17
1
757
134
4
247
10
11
26
2
1
8
7
PABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PFOA
PUBFx
Number
HU 10170202
3
32
1
2
5
3,013
1,039
3
5
740
67
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCx
PFOA
PUBFx
Attribut{l
6
972
34
1
332
8
6
2
40
PABFx
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PFOC
PFOCx
PUBFx
7
2,134
97
909
22
13
1
5
2
2
26
HU 10170203
PABFh
PABFx
PEMlABF
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PFOA
PFOAd
PFOAx
PFOC
PSSC
PUBF
PUBFx
PUBGx
PUSAx
PUSCx
6
18
1
3
1,463
542
1
26
534
34
4
57
16
1
2
5
1
66
2
1
2
Appendix e1, point wetlands /80
Appendix C2. Palustrine, lacustrine, and riverine wetlands delineated by the National Wetlands Inventory in eastem South Dakota hydrologic units from photography acquired 1979-1986.
li¥.cJ.mfQgic. !l.ai.t
ea.ll!.strine.
l.ac~tril1.e
Bjve.rine.
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
19,441.14
6,920.73
13,469.76
4,413.63
5,639.89
19,365.01
32,018.39
34,809.21
12,828.33
12,038.16
35,005.37
7,405.54
7,339.16
80,256.26
26,410.98
35,220.10
40,261.67
41,912.50
64,038.93
15,131.08
34,855.23
12,105.46
36,017.05
21,080.68
18,670.97
3,990.49
2,051.97
2,921.73
303.17
14,428.98
32,716.67
2,719.35
31,407.51
662.89
924.64
1,913.66
613.54
215.89
2,283.38
438.50
1,519.45
2,412.40
14,992.72
1,693.49
5,866.66
1,173.23
2,811.16
7,332.73
11,204.16
3,627.30
77.91
26.57
7.66
0.00
69.99
6.51
0.00
10.93
196.65
111.71
1,050.23
293.27
211.96
2,797.14
0.00
770.14
951.52
0.00
1,860.39
5,567.60
318.24
0.00
3.61
949.58
1,832.25
H'dimIQgic.ll.ait
09020101
10130102
09020105
10130106
10160003
10160004
10160007
07020001
10160010
10160005
10160008
10130105
10170202
10160006
10170201
07020003
10160009
10140103
10170103
10140101
10140105
10170102
10160011
10170203
10170101
ealuslrine
164,740.42
727,523.13
424,970.43
724,173.66
1,482,599.29
870,626.06
675,175.00
2,831,192.67
923,764.34
822,793.34
2,214,781.32
1,534,059.01
4,639,766.97
7,021,173.82
798,518.84
941,527.91
3,335,579.86
1,093,983.47
411,874.31
3,340,751.99
2,227,225.01
4,067,527.24
6,497,250.17
4,441,074.49
2,255,372.30
LaC!l5J.rinfJ.
1,068.04
597.89
0.00
190.81
0.00
0.00
0.00
0.00
65,164.46
0.00
5,358.33
1,317.37
0.00
0.00
6,577.65
0.00
0.00
0.00
0.00
0.00
271.67
846.85
0.00
196.66
0.00
Riverine.
12,578.43
226,687.44
62,778.08
22,876.70
119,654.66
101,545.46
0.00
730,542.30
7,242.79
99,626.82
159,972.33
400,218.59
237,873.79
352,370.05
3,809.64
127,272.83
25,467.35
65,940.63
23,514.84
456,277.99
258,763.84
664,675.87
666,940.63
490,648.33
369,676.61
81 / Appendix C2. polygon. linear. and point wetlands
tJY!fro~ !lail
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
eqIustrine
Larustrine
4,116
1,551
731
1,947
1,558
2,817
7,067
3,508
3.205
1,646
8,949
4,895
2,070
16,999
7,089
12,311
12,882
5,959
12,445
1,225
5,048
402
1,041
3,219
2,786
BtmilHl
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
0
0
0
0
0
Appendix 03. Wetlands delineated by the National Wetlands Inventol)' in eastern South Dakota hydrologic units by
Cowardln Bt al. (1979) classes. Photography used to delineate wetlands was acquired 1979-1986.
~
!:i.r.f!.rol.UnU
09020101
09020105
1013Ql0Z
10130105
17.72
0.44
2.63
1.37
7.64
0.00
0.00
0.00
0.00
9,379.76
1,094.16
2.272.60
0.00
121.93
90.25
0.00
3,064.15
208.45
20.09
21.60
0.98
0.00
62.32
62.74
0.00
0.00
0.00
0.00
4.956.22
767.88
14,030.72
112.20
20.49
18.18
69.99
120.83
3.85
6.25
6.12
0.80
1.67
3.22
20.44
0.00
0.00
0.00
0.00
16.982.84
2.853.35
31.546.60
183.09
24.00
21.32
6.51
381.62
51.80
23.15
4.02
0.00
0.00
0.97
7.61
0.00
0.00
0.00
0.00
~
1Q1:1D.1Q6
101401Ql
lQl~103
101~OlO5
1Q160003
EM
AB
UB
US
FO
5S
SB
EM/AS
ABlEM
EMIFO
FO/EM
FO/55
SSlFO
SSIEM
EM/55
US/55
SSlU5
EMIUS
UBIFO
27.953.48
3,542.92
253.07
8.39
68.52
7.47
0.00
2,323.24
543.00
20.55
11.34
2.21
0.00
0.00
3.56
0.00
0.00
0.00
0.00
26.800.02
4,108.33
29,715.73
171.30
143.35
133.99
10.93
4,573.51
262.29
210.Q1
26.65
0.61
0.28
11.52
59.16
0.00
0.00
0.00
0.00
11,421.04
1,685.64
50.93
0.00
21.75
0.40
196.65
144.50
154.72
4.58
4.06
0.00
1.36
0.00
2.24
0.00
0.00
0.00
0.00
7.788.79
2,356.73
172.26
0.12
43.74
5.69
111.71
2,375.47
178.46
33.12
6.05
0.00
0.00
0.00
2.36
0.00
0.00
0.00
0.00
25.809.59
2,009.56
1.106.64
0.00
397.80
9.94
379.43
6,948.71
344.04
655.17
287.06
1.02
9.42
1.96
8.91
0.00
0.00
0.00
0.00
CJw
EM
AB
UB
U5
FO
55
5B
EM/AB
ABIEM
EMIFO
FO/EM
FO/55
5S1FO
5S1EM
EM/5S
US/SS
SSlU5
EMIUS
UBIFO
QZQ20001
14,420.03
2,547.60
2,577.39
0.97
695.96
164.27
72.45
2.108.92
655.07
64.23
40.06
9.56
4.78
40.82
106.11
0.00
0.00
0.00
0.00
QZQ20003
3,663.64
1,551.43
768.92
0.00
83.24
16.79
26.57
2,598.61
238.26
22.00
3,805.96
400.13
107.84
0.00
23.22
6.11
0.00
318.49
29.49
14.41
3.79
2.51
1.31
026
3.28
0.00
0.00
0.00
0.00
H,{drri!1!).ic.l1.nit
10160004
6.441.46
201.81
642.83
0.12
19.79
1.59
293.27
581.32
104.47
19.18
1.23
0.00
0.00
0.00
4.50
0.00
0.00
0.79
0.00
Appendix CS, polygon wetlands / 82
ti.v.groIQgic Llail
~
EM
AS
UB
US
FO
SS
SB
EM/AB
ABIEM
EMIFO
FOIEM
FO/SS
SSlFO
SS/EM
EM/SS
US/SS
SSlUS
EMIUS
UBIFO
10160005
10.160006
lQl60007
10160008
1Q160009
1o.16001Q
1Q160011
6,353.34
323.08
86.22
0.00
4229
3.56
211.15
61427
84.78
25.25
12.58
0.78
4.55
0.70
4.46
0.00
0.00
0.00
0.00
70,295.05
4,544.05
1,681.29
4.13
709.67
81.91
1,306.43
4,542.93
1,403.66
462.09
218.02
13.25
9.41
4.39
60.51
0.00
0.00
0.00
0.00
23,950.91
856.74
400.45
0.00
15.15
0.93
0.00
949.72
666.58
4.53
2.53
1.34
0.00
0.61
0.00
0.00
0.00
0.00
0.00
32,668.04
1,816.10
844.16
54.16
57.94
4.79
nO.14
693.13
549.12
32.30
12.16
0.27
0.00
0.00
4.18
0.00
0.00
0.00
0.92
36,756.55
3,608.25
822.16
0.00
167.97
12.00
707.40
602.79
903.81
32.11
6.65
2.98
0.44
0.95
1.54
0.00
0.00
0.00
0.00
20,680.28
8,306.57
7,131.32
701.42
80.00
51.41
11.67
17,686.37
1,853.32
88.55
37.25
2.10
6.59
16.10
263.94
0.00
0.00
0.00
0.00
53,30828
3,949.48
1,795.67
10.12
489.31
30.79
624.50
5,855.54
845.57
295.72
357.56
0.60
0.36
10.74
18.56
0.00
0.00
0.00
0.00
,.,..Hal.roIQ!Jic. Unit
~
10170101
EM
AB
UB
US
FO
SS
SB
EM/AB
ABIEM
EMIFO
FO/EM
FO/SS
SS/FO
SS/EM
EM/SS
US/SS
SSlUS
EM/US
UBIFO
9,365.60
1,521.02
9,936.29
708.36
354.61
199.07
141.96
2,287.34
290.74
238.03
194.12
6.27
67.93
46.32
796.81
76.40
334.47
0.00
0.00
83 / Appendix C3, polygon wetlands
10170102
24,550.08
2,352.08
300.36
3.61
365.15
74.10
166.78
7,227.24
759.68
131.25
399.83
1.54
0.30
B.95
5.74
0.00
0.00
0.00
0.00
10170103
4,268.89
3,029.39
3.46
0.00
155.67
10.26
0.00
7,211.82
101.43
55.03
60.61
1.29
1.45
3.31
14.00
0.00
0.00
0.00
0.00
1Q17Q201
15,195.34
7,390.08
299.01
32.98
183.49
38.04
3.61
19,142.63
524.89
353.02
96.90
13.13
20.n
9.56
49.94
0.00
0.00
0.00
0.00
1QIZ02flZ
12,899.67
6,609.37
5,514.93
1.15
300.07
39.57
858.49
5,735.95
690.43
336.44
161.56
5.17
15.56
32.05
34.01
0.00
0.00
0.00
0.00
10170203
11,730.50
2,812.84
3,371.70
89.93
607.24
43.94
371.84
3,875.80
386.78
278.64
468.17
29.19
31.81
7.42
23.16
0.81
0.75
0.00
0.00
H'tJiroiQgic Unit
~ 09020101
70.730102
0902010.5
70.73£1.10.6
10160003
10.760004
1(2160007
o.7QgOO01
EM 137.010.01
AS
36.14
US
0.00
US
0.00
FO
23.031.39
SS
4.562.88
SS
0.00
EM/AS
0.00
ABIEM
0.00
EM/FO
0.00
FOIEM
0.00
FO/SS
0.00
SSiFO
0.00
SS/EM
0.00
EMiSS
0.00
704.872.88
2,490.88
597.89
0.00
13.611.06
4.935.66
226.687.44
1.612.63
0.00
0.00
0.00
0.00
0.00
0.00
0.00
405,509.49
225.18
663.96
0.00
16.929.43
110.23
62.778.08
453.73
77.94
675.99
0.00
324.48
0.00
0.00
0.00
697.990.40
868.76
932.46
190.81
21,260.99
1.772.42
22.876.70
364.15
225.02
310.05
0.00
449.42
0.00
0.00
0.00
1.318.151.15
2.223.02
296.16
0.00
145,642.53
0.00
0.00
10.757.15
22.85
5,338.98
167.45
0.00
0.00
0.00
0.00
833,155.79
788.09
169.87
0.00
18,439.54
0.00
0.00
18.072.77
0.00
0.00
0.00
0.00
0.00
0.00
0.00
672.595.00
156.00
1.035.00
0.00
1.389.00
0.00
0.00
0.00
0.00
0.00
0.00
'0.00
0.00
0.00
0.00
2.629,971.15
2,094.31
1.176.97
0.00
169.027.41
21,474.13
729.969.32
4.596.76
245.66
3,046.94
132.32
0.00
0.00
0.00
0.00
H~d[QlQ{J.ic
10.160010
70160005
~
EM 814.108.39
4,446.07
AS
112.78
US
US
65.963.74
68,236.91
FO
6.102.56
SS
S8
6.443.51
EMiAS 28.861.70
ASIEM
61.50
EM/FO 1.776.57
0.00
FO/EM
0.00
FO/SS
0.00
SS/FO
57.86
SSiEM
0.00
EM/SS
723.945.94
1.657.78
112.56
0.00
71,801.45
0.00
99.626.82
18.174.08
603.36
332.28
0.00
62.03
6.103.87
0.00
0.00
2.186.432.02
3.176.81
502.58
5.384.48
17,953.65
0.00
159,972.33
4.234.66
0.00
0.00
2,455.45
0.00
0.00
0.00
0.00
~
Unit.
10.130105
10170.202
10.160006
1o.1ZQZQ1
0.7020003
1.511.214.35
2.935.55
2.916.03
0.00
17.401.33
909.11
400.218.59
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
4,480.809.25
466.14
628.75
0.00
151,436.95
3.165.34
237.873.79
2.104.59
0.00
869.94
286.00
0.00
0.00
0.00
0.00
6,762.067.39
2,731.64
1.900.57
28.23
238.315.89
4,319.19
352,370.05
7.763.88
1.507.66
813.60
1.725.79
0.00
0.00
0.00
0.00
591.011.40
2.484.36
202.57
6.577.65
196.400.90
1.092.46
3.809.64
5.766.98
0.00
1.213.86
346.30
0.00
0.00
0.00
0.00
879.871.37
227.73
7.919.90
0.00
48,998.04
2,200.61
127.112.64
2,409.79
0.00
60.67
0.00
0.00
0.00
0.00
0.00
Appendix C3, linear wetlands /84
l:1$J!D/Dglc. Ualt
10.160009
1QHQ1~
lQ1ZQ1~
tQt~Q1Ql
lQHQUI
SSIFO
SS/EM
3,272,700.21
659.14
937.97
0.00
59,260.56
1,174.28
25,467.35
0.00
0.00
520.62
327.08
0.00
0.00
0.00
1,078,963.68
2,636.60
166.64
0.00
12,041.45
175.10
65,940.63
0.00
0.00
0.00
0.00
0.00
0.00
0.00
323,305.84
93.31
0.00
0.00
87,518.34
458.62
23,514.84
0.00
0.00
135.31
364.99
0.00
0.00
0.00
3,177,790.17
9,480.62
898,79
20,49
148.886,72
2,130.25
458,277.99
600.17
0.00
869.75
951.88
0.00
0.00
0.00
2,164,250.81
1,864.42
649.14
0.00
87.878.08
2,351.83
258,783.84
443.93
0.00
58.87
0.00
0.00
0.00
0.00
C/m
lQ1ZQ102
EM
3,666.594.40
6,649.75
85,688.63
71.55
378,021.71
719.56
580.114.54
7.328.34
0.00
634.44
7,027.04
0.00
0.00
0.00
0.00
C/m
EM
AS
UB
US
FO
SS
SB
EWAS
ABlEM
EMIFO
FOIEM
FO/SS
~IQUall
AS
UB
US
FO
SS
SB
EMlAB
ABlEM
EMlFO
FOIEM
FO/SS
SSlFO
SS/EM
EMISS
lQlaQQU
lQ1ZQ2D3
lQ1ZQ1Q1
6,095.152.99
14.022.89
2,159.89
185.95
371,579.37
1.778.06
666.861.58
4.746.64
253.88
3.561.22
3,888.54
0.00
0.00
0.00
0.00
3,983.389.67
8,453.19
1.990.94
1.082.85
418,010.67
5,191.77
488.648.90
19.243.05
2,130.35
5,685.84
1,912.15
0.00
0.00
0.00
0.00
1,9S6,016.80
6.999.81
5,922.10
13,091.14
268,346.32
1,114.23
351,489.28
13,808.93
2,300.45
2,840.90
2,789.58
0.00
392.98
0.00
36.40
tild.l11/Qgic. Uait
Qm
EM
AS
UB
US
FO
QZ02.0001
QZ02.0003
4,078
1
1,543
3
32
SS
SB
EMlAB
EMlFO
FOIEM
EMISS
851 Appendix C3, linear and point wetlands
0
2
2
0
1
0
0
0
0
3
0
0
0
0
0
Q90201Q1
731
0
0
0
0
0
0
Q902o.lo.~
1013.0.10.2.
1.931
7
4
1,546
11
0
0
0
3
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
Hyd~lJ.nit
~
EM
AS
UB
US
FO
SS
SB
EM/AB
EMlFO
FOIEM
EM/SS
10130105
1013JJ.Io.6
10140101
1o.1~Ql03
lo.14o.lfM
2,757
9
46
1
2
2
0
0
7,019
37
8
0
3
0
0
0
0
3,417
3,185
2
16
0
2
0
0
0
1,620
10
14
0
2
0
0
0
0
0
0
0
0
0
0
0
65
17
2
6
0
0
0
0
1
0
0
0
0
I::J¥.droIQ9/c.Uai!
~
EM
AB
UB
US
FO
SS
SB
EM/AB
EMIFO
FOtEM
EM/SS
10160003
10160004
10160005
10160006
1o.l~OOOl
8,753
137
4,862
7
21
0
4
0
0
1
0
0
0
2,054
5
10
0
1
16,843
22
110
1
19
3
0
0
0
0
7,074
3
11
0
1
0
0
0
0
0
0
50
0
8
0
0
0
0
1
0
0
0
0
0
0
0
H't!1.mlggic. Unit
~
10160008
10160009
EM
AS
UB
US
FO
SS
SB
EM/AB
EMIFO
FO/EM
EMlSS
12,253
47
9
0
1
0
0
0
0
1
0
12,832
2
42
0
5
1
0
0
0
0
0
~
1o.17Ql02
lQ17Q103
10.160011
1Q1701Ql
5,909
10
21
0
16
1
0
2
0
0
12,222
61
131
1
25
1
0
0
2
2
1,189
24
8
7
3
0
0
1
0
0
10.160010
0
0
0
I::J¥.dro/ggic UniJ.
EM
AS
UB
US
FO
SS
SB
EM/AS
EMIFO
FOIEM
EMlSS
4,919
35
65
0
18
1
0
1
7
2
0
1017Q201
101ZQ202
lQ170ZQ;J
393
3
5
0
1
0
0
0
0
0
1,353
6
2,661
24
69
3
24
1
0
1
3
0
0
3,1n
7
26
0
9
0
0
0
0
0
0
40
0
2
0
0
0
0
0
0
0
Appendix C3, point wetlands / 86
Appendix C4. Summary of wetlands, by water regime, delineated by the National Wetlands Inventory In eastem
South Dakota hydrologic units from photography acquired 1979-1986.
I::J.vr!.ro/Qgic unit
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
A
6,072.71
1,212.39
3,985.73
1,495.71
2,795.72
9,017.57
7,260.10
10,285.78
4,050.11
3,114.35
12,531.60
3,914.85
4,203.95
36,170.17
4,274.12
12,296.08
12,601.61
6,448.48
27,6n.38
5,786.97
13,528.38
1,505.21
5,015.74
6,854.49
7,459.59
87/ Appendix C4, polygon wetlands
B
Q
35.40
90.33
82.27
0.00
0.00
0.17
0.00
0.11
0.00
0.00
0.00
0.00
0.00
21.77
0.00
0.00
0.00
260.07
0.00
0.00
0.00
0.00
0.00
6.10
0.00
6,048.56
2,275.77
3,391.89
1,139.07
2,036.02
7,098.04
18,179.34
13,984.36
7,384.89
4,685.20
13,630.78
2,501.56
1,736.53
35,286.80
19,129.59
20,388.85
24,225.65
8,006.57
26,413.31
5,746.50
11,647.55
2,759.70
10,419.75
6,267.96
5,735.42
E
7,327.73
3,354.92
5,959.59
1,759.55
1,140.68
3,588.11
6,788.65
11,240.26
1,942.68
4,706.80
9,243.69
l,280.Q1
1,598.91
10,619.30
3,163.16
3,345.13
4,755.52
28,700.50
10,770.88
4,717.24
9,986.77
7,823.31
20,616.66
8,680.64
5,909.87
G
1,890.91
1,763.27
711.73
322.48
2,693.28
4,819.57
2,492.02
1,527.99
280.57
553.85
2,563.20
615.94
227.63
3,238.28
281.23
1,465.90
1,503.25
10,441.66
2,696.57
528.81
1,181.70
2,828.40
7,301.24
11,425.22
4,679.56
ti.
2,134.57
302.58
2,267.95
0.00
11.473.17
27,562.01
0.00
29,187.68
29.61
14.31
0.00
0.00
0.00
0.00
0.00
0.00
539.57
3,059.62
34.68
9,785.86
1.57
0.00
0.00
0.00
346.08
H'iqrQ/Qgic. Unit
09020101
10130102
09020105
10130106
10160003
10160004
10160007
07020001
10160010
10160005
10160008
10130105
10170202
10160006
10170201
07020003
10160009
10140103
10170103
10140101
10140105
10170102
10160011
10170203
10170101
A
44.423.20
477,841.82
201,300.72
354,793.24
522,148.07
318.564.76
367,096.00
923,315.91
442,875.73
361,684.63
788,736.67
885,428.53
1.209.211.41
1.809.232.75
319,546.48
176,468.23
860,880.70
434.813.85
107.866.11
1,256,841.25
934,508.55
679.282.63
1.307,335.37
1.292,860.42
615,729.02
B
0.00
0.00
0.00
0.00
0.00
0.00
0.00
19.34
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
C
115,141.07
330.488.93
207.703.15
334.779.74
928.026.70
531,770.82
289,745.00
2,099,594.34
384,614.96
430,168.75
1,419.530.30
938,695.65
3.423.474.15
5.207,827.23
460.432.19
751,304.33
2.476,298.03
683,699.59
303,914.89
2.355,887.08
1,300,098.13
3.371.868.41
5.171.500.96
3,118,896.03
1.707.166.00
F
17.754.58
146.4n.70
78,2n.06
57,668.19
152.079.17
121.835.94
18,333.00
538,232.40
168,680.90
130.566.79
171,845.02
111,446.30
244.955.19
356.483.88
28.927.46
140.867.99
23,868.47
41,410.67
23.608.15
184.173.73
251.382.17
597.409.13
685.354.48
519,041.62
297.367.25
ca
1,068.04
0.00
467.59
0.00
0.00
0.00
0.00
572.98
0.00
0.00
0.00
0.00
0.00
0.00
0.00
160.19
0.00
0.00
0.00
0.00
271.67
84,489.78
0.00
1,121.41
4,766.64
HvdrolQ9ic Unit
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170200
A
2,502
913
667
1.149
1,158
2,508
4,868
2.374
3,058
1,379
6,401
3.798
1.759
15,165
5,498
10.046
11,848
3,536
9,211
897
4.078
303
1,009
2,236
2.052
C
1.579
634
64
767
389
252
2.152
1.051
129
243
2.361
1.068
296
1.702
1.577
2.208
990
2.375
3.038
302
868
91
346
949
640
F
35
4
0
23
11
55
47
78
18
24
187
23
15
132
14
56
44
4B
196
32
102
B
46
34
92
G
0
0
0
2
0
0
0
4
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
Appendix C4, linear and point wetlands / 88
Appendix C5. SummaJY of wetlands, by special modifier, delineated by the National Wetlands Inventory in eastem South Dakota hydrologic units
from photography acquired 1979-1986.
Hydrologic
Hydrologic
Uail
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
01060005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
d
3,166.09
2,541.87
876.92
810.22
125.39
710.93
494.86
3,986.71
542.88
847.87
3,995.23
127.03
1,13828
8,176.76
318.21
998.88
2,379.53
3,855.42
13,845.17
1,987.43
9,831.11
2,304.33
6,269.82
3,807.29
5.452.26
x
620.50
68.16
111.70
41.22
83.12
395.18
348.30
806.57
241.85
275.36
392.43
183.73
116.63
1,493.73
280.30
462.05
656.67
258.51
1,387.32
354.49
n4.39
170.95
309.19
803.13
808.21
Q
h
2,692.26
83.74
4,895.24
176.79
15,108.81
33,247.46
296.37
32,703.26
980.33
1,623.31
6,536.23
690.30
223.60
1,440.28
435.02
1,295.10
1,523.13
92.69
1,445.89
5,886.02
649.74
12.07
50.40
150.12
446.35
0.55
0.00
1.08
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
4.16
0.00
0.00
0.00
0.00
Hydrologic
LlaU
09020101
10130102
09020105
10130106
10160003
10160004
10160007
07020001
10160010
10160005
10160008
10130105
10170202
10160006
10170201
07020003
10160009
10140103
10170103
10140101
10140105
10170102
10160011
10170203
10170101
d
2,089.82
35.87
734.60
73.27
13,947.90
271.52
306.07
7,455.13
7,335.33
2,993.09
1,759.12
636.75
18,518.15
26,190.93
9,336.89
9,572.10
5,571.46
109.14
5,339.06
5,918.33
4,107.33
41,350.63
49,636.54
41,792.73
6,882.07
K
68,8n.90
h
n,014.66
8,490.71
7,291.69
907.46
82,304.07
513,090.09
174,827.00
193,264.00
324,932.82
110,287.05
92,723.68
581,713.15
243,538.38
741,404.35
2,532,855.21
167,263.00
169,649.35
976,410.17
262,189.97
143,493.65
913,798.16
259,724.03
1,556,096.48
2,451,192.89
1,146,272.51
448,974.15
6,147.04
142.53
1,506.00
19,865.31
827.36
3,950.26
12,742.03
12,960.92
1,782.14
13,609.73
0.00
344.05
7,949.26
2,999.30
0.00
29,537.08
14,382.28
6,479.07
31,041.27
3,454.68
15,048.19
28,982.89
1,3n.19
b.
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
0.00
89/ Appendix C5, polygon, linear, and point wetlands
Ua.i1
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10160006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
x
h
100
151
9
17
1
22
41
163
27
12
29
14
36
412
10
63
166
120
1,119
144
1,107
20
42
119
59
11
3
22
11
76
72
90
22
25
252
51
27
183
55
125
65
76
263
56
160
9
53
48
5n
1n
1
0
1
0
8
12
4
118
2
6
2
3
1
1
0
0
1
2
27
17
7
0
0
1
11
r!.
..
.~ ~
,-
-
Appendix ca. Basin number and area (ha), by water regime, in eastern South Dakota hydrologic units. Presented is
percent of total area of each hydrologic unit covered by basins.
Hydrologic
1JDi1
07020001
07020003
09020101
09020105
10130102
10130105
10130106
10140101
10140103
10140105
10160003
10160004
10160005
10180006
10160007
10160008
10160009
10160010
10160011
10170101
10170102
10170103
10170201
10170202
10170203
16,586
5,098
8,833
4,387
3,961
12,420
15,589
18.729
11,429
8.176
24.570
10.391
10,270
101.998
15.725
34.685
44.258
12,787
68.196
10.262
33.949
3.171
10,778
16,079
18.638
~
4,357.2
1,049.5
2,627.1
1,173.1
1,622.7
5,632.8
4,271.5
7,401.2
3.647.9
2,625.4
8,492.8
2,642.2
3,702.6
29,473.6
3,032.1
8,582.5
10.836.7
3,753.0
22,468.9
4,480.4
10,980.0
1,004.2
3,641.7
5,023.2
6,846.8
Semipermanen,s
S.~~Qnlll
Te.mf1Qrarx
f:JJJJnI1§r
~
~
1.30
1.14
2.74
1.58
0.92
1.18
1.11
16,830
5,936
2,726
3,165
2,211
3,994
18,710
17.298
5,154
5.351
15,421
5.968
2,967
39.247
16,986
24,719
22,657
17,108
44,756
7,786
20,541
2,826
7,332
13.732
12,002
1.08
1.70
0.91
2.32
2.19
2.20
3.13
1.30
2.20
2.79
1.16
2.42
1.17
1.86
0.93
1.15
0.99
1.19
~
6,443.2
2,179.5
2,033.7
1,423.5
1,566.2
3,274.5
14,430.2
11.597.0
5,650.1
3,708.t
10,792.9
3,325.7
2.043.1
29,2n.l
15,562.1
17,846.3
19.115.5
6,293.9
25,673.1
5,759.8
12.169.8
1,974.6
6,032.8
8.356.2
8,045.8
~
1.93
2.37
2.18
1.92
0.88
0.68
3.75
1.70
2.63
1.29
2.95
2.49
1.03
3.11
6.68
4.58
4.93
1.95
2.77
1.50
2.06
1.84
1.91
1.65
1.40
~~
4,796
1,040
881
1,402
1,133
3,143
2,840
5,972
1.279
2.615
2.254
1.167
939
6.851
1.910
2,521
2,623
6.698
8.277
2.529
4.661
988
3,109
3,406
3,495
10,298.3
4,415.4
3,789.0
2,244.1
2,197.3
11,340.3
12.627.1
18,913.8
5.225.7
8,457.6
13.050.7
2,557.0
2,638.8
30.185.3
8.774.3
11.639.4
14,788.2
28.057.9
24.197.1
6.195.7
17.096.2
8.250.8
25.359.0
12,373.5
8,585.8
Permanents
~
M!.t1:1I2M
3.08
4.80
3.96
3.02
1.24
2.38
3.28
2.76
2.43
2.93
3.56
1.97
1.57
3.21
3.77
2.99
3.81
8.69
2.61
1.61
2.89
7.67
8.04
2.45
1.49
78
31
17
25
34
70
74
75
12
53
41
4
13
73
15
62
44
172
147
68
59
10
61
81
159
~
6,212.6
2,687.8
8,150.4
534.8
15,675.9
33,952.9
4.449.5
33.118.5
575.5
1.395.1
6.606.2
675.9
320.3
3,330.7
548.3
1.914.0
2.822.5
20.109.5
2,648.0
7,732.9
1,453.2
4,208.1
9,331.0
13,045.6
4,871.3
~
1.86
2.92
8.51
0.72
8.84
7.12
1.16
4.84
0.27
0.48
1.80
0.52
0.19
0.35
0.24
0.49
0.73
6.27
0.29
2.01
0.25
3.91
2.96
2.58
0.56
a Natural basins, basins due 10 dugouts or other excavations, and impour,dmenls
Appendix C6. basins /90
Appendix 01. Summary of wetlands delineated in eastern South Dakota physiographic regions by the National Wetlands
Inventory (NWI) from photography acquired 1979-1986. Attribute is the NWI code for Coward in et al. (1979) classification.
Polygon Wetlands
Attribute
Hecta[Jls
Attribute.
Hectares
PEMCd
PEMCf
PEMCh
PEMCx
PEMF
PEMFb
PEMFd
PEMFh
PEMFx
PFO/EMA
PFOIEMC
PFOIEMCd
PFOIEMCh
PFO/EMCx
PFO/SSA
PFO/SSC
PFOA
PFOAd
PFOAh
PFOAx
PFOB
PFOBd
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMB
PSSlEMC
PSSlEMCd
PSSlEMCh
PSSlFOC
PSSlFOCd
PSSA
PSSAd
PSSB
PSSC
PSSCd
PSSCh
PSSCx
PUBFh
PUBFx
PUBGh
PUBGx
R2UBG
R2UBH
R2UBHx
R4SBF
R4SBFx
935.18
0.33
504.04
37.65
3.389.66
1.07
289.17
505.13
34.34
9.01
28.60
0.16
14.42
0.83
7.88
1.64
480.75
28.94
47.22
0.73
1.88
0.40
99.82
18.16
50.90
6.55
3.97
37.20
55.22
1.47
2.06
2.34
2.43
78.14
4.39
24.18
83.34
4.90
13.93
4.65
4.73
57.56
2.64
8.16
0.00
5.45
7.57
70.08
3.86
Mlnoe!!om-Bed Biver
Lowland
L1UBHh
L1UBHx
L2ABF
L2ABFx
L2ABG
L2ABGh
L2UBG
L2UBGh
PABIEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAh
PEMIFOB
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMISSA
PEMISSAd
PEMISSAh
PEMlSSB
PEMISSC
PEMlSSCd
PEMlSSCh
PEMlSSCx
PEMlUBGh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
4,108.22
278.61
11.15
18.42
1.117.52
409.02
8.27
139.33
285.55
3.33
71.72
17.06
537.13
52.91
38.21
99.95
31.32
43.02
40.83
2,874.00
0.55
108.73
1,137.00
7.75
25.35
1.07
0.20
35.39
1.80
10.63
1.74
27.21
0.69
14.89
16.87
94.99
0.45
0.73
2.27
0.05
6.544.63
2.032.72
285.05
9.11
11.60
0.92
5,373.49
A/triQute
tJ.ec/ares
Prairie Coteau
L1UBG
L1UBGh
L1UBH
L2ABF
L2ABFx
L2ABG
L2ABGd
L2ABGh
L2ABGx
L2UBFx
L2UBG
L2UBGh
L2UBGx
L2USA
L2USC
PABIEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABIFOC
PABF
PABFd
PABFh
PABFhx
PABFx
PABG
PABGh
PABGx
PABHx
PEMlABF
PEMlABFb
PEMlABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOAd
PEMIFOAx
PEMIFOC
PEMlFOCd
PEMIFOCh
PEMlFOCx
PEMlFOF
PEMISSA
PEMISSAd
PEMlSSB
PEMISSC
PEMlSSCd
PEMISSCh
11.756.32
79.26
3,361.98
1,216.03
1.07
26,316.45
15.31
75.01
32.83
12.61
159.08
18.39
21.94
228.86
505.55
4,400.83
286.32
60.03
6.67
1.29
2.181.59
35.75
889.30
0.73
1,706.08
2.11
118.42
214.79
0.10
56,320.70
4.16
6,556.60
57.19
52.06
143.87
36.51
5.13
813.55
79.74
3.19
90.78
3.14
29.22
4.38
227.74
123.17
16.87
7.45
AttriQute.
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMBd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
PFO/EMAd
PFOIEMB
PFO/EMC
PFO/EMCd
PFO/EMCh
PFO/EMCx
PFO/SSA
PFO/SSC
PFO/SSCd
PFO/SSCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlEMA
PSSlEMC
PSSlEMCd
PSSlFOA
PSSlFOAd
PSSlFOC
PSSlFOCd
PSSA
PSSAd
PSSAx
PSSC
PSSCd
PSSCh
PUBF
PUBFh
PUBFx
tJ.ectares
22,931.99
13,708.40
28.56
4.17
143.39
1.50
31,746.43
9,513.14
45.79
71.12
11,249.14
884.06
51.75
9.35
182.29
10.64
8.25
511.43
73.26
3.70
55.36
3.51
22.13
1.43
1.09
605.85
71.47
3.56
1.39
696.59
147.86
8.59
8.72
21.74
55.91
3.89
41.00
1.99
22.33
1.70
82.35
8.15
0.09
121.06
22.54
0.99
11.90
63.64
364.25
Attribute
PUBG
PUBGh
PUBGx
PUBHh
PUS/SSA
PUSAh
PUSAx
PUSC
PUSCh
PUSCx
R2UBF
R2UBG
R2UBGx
R2UBH
R2USA
R2USC
R3UBG
R4SBA
R4SBC
R4SBF
R4SBFx
Hectares
0.51
21.17
180.49
0.12
0.16
0.78
0.39
1.41
1.32
3.44
0.33
1,127.30
78.84
41.99
32.02
20.26
2.68
7.04
1.28
1,279.26
12.68
Missouri River
Floodplain
l2ABF
l2ABG
PAB/EMF
PAB/EMFx
PABF
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEM/FOCx
PEMISSA
PEMISSC
PEMlSSCx
PEMA
PEMAd
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PFO/EMA
PFOIEMC
PFO/SSA
101.13
125.20
28.05
1.62
72.26
2.80
28.09
0.82
196.48
37.62
7.39
92.14
4.18
9.89
4.35
604.87
18.18
0.28
793.55
437.46
321.19
81.71
0.71
7.74
17.38
4.54
191.61
26.00
12.85
Attribute
PFO/SSC
PFOA
PFOAd
PFOC
PFOCd
PFOCx
PSS/EMA
PSS/EMC
PSSlFOA
PSS/FOC
PSS/USA
PSSIUSC
PSSA
PSSC
PUBFx
PUBGx
PUS/SSA
PUS/SSC
PUSA
R2UBF
R2UBG
R2UBH
R2UBHx
R2USA
R2USAx
R2USC
R4SBFx
Hectares
14.95
261.31
30.68
8.39
2.33
0.19
23.68
1.32
11.30
9.51
98.60
37.81
144.41
39.37
19.68
0.30
36.69
37.28
2.38
0.40
98.04
2.774.37
35.32
127.17
4.48
361.53
2.29
James River lowland
LlUBGh
LlUBH
LtUBHh
L2ABF
l2ABFd
l2ABFh
l2ABFx
l2ABG
l2ABGd
L2ABGh
l2ABGx
L2UBF
L2UBFh
L2UBGh
L2USA
L2USC
PAB/EMCh
PAB/EMF
PAB/EMFd
PABlEMFh
PAB/EMFx
PAB/EMG
PABF
PABFd
1,717.41
539.57
4,907.74
1,785.10
11.16
16.33
4.75
4.316.97
63.39
1.234.92
162.38
13.97
20.01
105.84
7.36
47.60
4.33
3.414.42
263.86
267.28
7.69
10.74
1.360.55
215.57
Attribute
Hectares
PABFh
2.476.10
PABFx
3.471.95
PABGh
228.74
PABGx
223.70
PEMlABF
14.838.32
PEMlABFd
1.082.05
PEMlABFh
465.09
PEMlABFx
23.22
PEMIFOA
238.14
PEMlFOAd
37.57
PEMlFOAh
4.16
PEMlFOAx
0.47
PEMIFOC
491.86
PEMlFOCd
82.67
PEMlFOCh
8.62
PEMlFOCx
50.84
PEMlFOFh
1.37
PEMISSA
29.73
PEMlSSAd
2.42
2.57
PEMlSSB
PEMISSC
49.88
PEMlSSCd
12.68
PEMlSSCh
1.60
PEMlUBFx
0.79
PEMA
79,432.11
PEMAd
17.783.00
PEMAh
99.68
PEMAx
6.21
PEMB
16.51
PEMBd
2.69
PEMC
104,278.70
PEMCd
9.781.58
257.83
PEMCh
75.97
PEMCx
PEMF
1.805.23
183.77
PEMFd
255.87
PEMFh
4.43
PEMFx
13.68
PEMU
PFO/EMA
129.29
16.80
PFO/EMAd
PFO/EMAh
4.50
553.40
PFO/EMC
70.26
PFO/EMCd
14.35
PFO/EMCh
24.83
PFO/EMCx
8.76
PFO/EMF
9.29
PFO/SSA
8.39
PFO/SSC
0.93
PFO/SSCh
1.71
PFO/SSCx
PFOA
749.31
PFOAd
102.33
Attril2llte.
Hdr~
PFOAh
19.13
PFOAx
1.15
PFOC
479.03
PFOCd
45.96
PFOCh
30.21
PFOCx
26.03
PSSIEMA
2.95
PSS/EMAd
8.31
PSSlEMC
6.75
PSS/EMCd
1.93
PSSlFOA
54.53
PSSlFOC
2.75
PSSlFOCx
1.13
PSSIUSA
3.00
PSS/USAh
0.71
PSSIUSC
30.25
PSSA
82.43
PSSAd
5.28
PSSAh
13.89
PSSC
32.32
PSSCd
2.92
PSSCh
0.93
PSSCx
0.96
PUB/FOFh
0.92
PUBF
2.26
PUBFh
200.13
PUBFx
591.19
30.22
PUBGh
PUBGx
36.42
1.57
PUBHx
1.32
PUSISSC
PUSAh
0.31
0.60
PUSCh
3.92
PUSCx
R2UBF
244.12
R2UBG
2.074.78
R2UBGx
3.63
R2UBH
302.28
R2USA
16.53
15.42
R2USC
R4SBA
1.15
R4SBF
3.098.35
3.27
R4SBFx
No Photography 1,726.44
lake Dlkota PISlln
l2ABF
l2ABFd
L2ABG
L2ABGh
PABIEMF
PABfEMFd
PABIEMFh
23.49
58.70
53.39
1.380.37
327.06
101.21
12.30
Appendix 01. polygon wetlands 192
~tl!iJ2ut@
PABF
PABFd
PABFh
PABFx
PABGx
PEMlABF
PEMlABFd
PEMlABFh
PEMlABFx
PEMlABGx
PEMIFOA
PEMlFOAd
PEMIFOAh
PEMIFOC
PEMlFOCd
PEMlFOCh
PEMIFOCx
PEMISSA
PEMlSSAd
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFOIEMA
PFOIEMAd
PFOIEMC
PFOIEMCd
PFOIEMCh
PFO/SSA
PFO/SSAd
PFO/SSC
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCh
PSSlEMA
PSSlEMAd
PSSlEMC
PSSlFOA
PSSlFOAd
PSSlFOC
fjmij~
151.38
11.19
31.84
273.65
81.33
l,975.n
437.78
4,391.41
0.35
1.62
375.60
113.15
7.83
167.97
41.57
21.04
0.19
9.15
1.35
0.53
15,130.36
2,132.53
60.48
1.99
10793.45
1453.99
136.99
22.42
312.51
935.12
7.90
1.80
0.48
92.30
8.05
196.10
5.13
4.63
0.69
2.25
0.56
382.31
16.99
1.06
202.62
13.49
7.47
0.28
0.72
0.85
6.98
1.46
7.26
AttribLde
Hectijres
PSSA
PSSAd
PSSC
PUBF
PUBFh
PUBFx
PUBGx
R2UBG
R4SBF
R4SBFx
4.00
6.84
1.42
0.16
5.69
55.24
7.44
1253.10
1313.47
4.15
Missouri Coteau
LtUBGh
LtUBHh
L2ABF
L2ABFd
L2ABFh
L2ABFx
L2ABG
L2ABGh
L2ABGx
L2UBF
L2UBFh
L2UBG
L2UBGh
L2USA
L2USCh
PABIEMF
PABlEMFd
PABlEMFh
PABlEMFx
PABF
PABFd
PABFh
PABFx
PABG
PABGh
PABGx
PABHh
PABHx
PEMlABF
PEMfABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMfFOAd
PEMfFOAh
PEMIFOC
PEMfFOCd
PEMfFOCh
PEMlFOCx
PEMlFOF
PEMISSA
93/ Appendix D1, polygon and linear wetlands
1,814.86
5,107.64
l,nO.56
67.45
99.54
6.58
4,875.55
446.30
10.80
1.10
88.55
125.98
67.40
5.83
20.35
2,138.06
6.30
94.90
1.98
1,274.28
29.97
4,489.18
1,898.94
32.48
193.99
31.49
0.04
0.24
10,886.09
291.61
188.28
1.30
58.89
8.83
8.43
218.20
38.25
22.02
11.06
8.11
7.17
Attribute
PEMlSSAh
PEMISSC
PEMlSSCd
PEMlSSCh
PEMlUBFh
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PEMU
PFO/EMA
PFO/EMAd
PFOIEMAh
PFOIEMAx
PFO/EMC
PFOIEMCd
PFO/EMCh
PFOIEMCx
PFO/SSA
PFO/SSC
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSS/EMA
PSSlEMC
PSSlFOA
PSSlFOC
PSSlFOCh
PSS/USC
PSSA
PSSAd
PSSAh
PSSC
PSSCd
PSSCh
PSSCx
PUBlEMFh
PUBF
fjectares
2.82
93.05
0.25
5.25
2.29
34,285.09
4,622.17
112.86
9.30
0.10
71,779.32
2,506.51
406.75
35.32
7,226.78
68.21
157.68
9.62
31.78
13.16
0.47
0.45
0.68
52.30
1.37
14.70
0.87
4.20
0.51
1.05
235.18
14.06
5.35
0.88
134.08
7.74
21.43
1.03
2.43
3.15
10.95
1.34
1.36
164.78
57.29
0.42
1.94
73.56
6.11
6.35
0.11
1.31
4.64
AttribLd@
PUBFh
PUBFx
PUBGh
PUBGx
PUs/SSC
PUSAh
PUSCh
PUSCx
R2UBH
R2USA
R2USC
R4SBA
R4SBF
R4SBFx
HectafflS
358.16
415.04
105.15
22.57
1.73
0.09
1.08
3.84
862.54
42.14
53.22
1.92
402.66
0.68
Pierre Hills
L1UBFh
LtUBGh
L1UBHh
L2ABF
L2ABFh
L2ABG
L2ABGh
L2UBF
L2UBFh
L2UBGh
L2USAh
L2USCh
PABIEMF
PABlEMFh
PABlEMFx
PABF
PABFh
PABFx
PABGh
PABGx
PEMfABF
PEMfABFd
PEMlABFh
PEMlABFx
PEMIFOA
PEMlFOAd
PEMIFOC
PEMIFOCh
PEMfFOCx
PEMISSA
PEMlSSAd
PEMlSSAh
PEMISSC
PEMlSSCh
PEMlSSCx
PEMA
PEMAd
0.51
4,757.03
63,380.38
101.13
168.84
131.20
120.67
0.04
210.65
18.86
3.29
432.48
28.05
22.91
1.83
108.65
1,335.28
112.06
n.65
12.50
197.68
38.19
18.43
7.60
109.62
4.18
30.14
5.68
4.35
712.99
2.39
11.27
52.73
0.01
0.28
2,034.04
646.02
Attribute
Hectares
Attribute
PEMAh
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
PEMFx
PFOIEMA
PFO/EMC
PFOIEMCh
PFO/SSA
PFO/SSC
209.80
0.17
1,146.49
105.36
128.85
13.83
PFO/SSCh
PFOA
PFOAd
PFOAh
PFOC
PFOCd
PFOCx
PSSlEMA
PSSlEMC
PSSlFOA
PSSIFOC
PSSIUSA
PSSlUSC
PSSA
PSSAd
226.n
4.54
347.18
1.39
302.20
40.31
0.93
12.85
14.95
Hectares
Attribute
Hectares
Attribut~
f::f.gga.r.e.~
0.61
340.55
30.68
11.46
21.82
2.33
3.06
53.24
1.46
11.30
9.78
98.60
37.81
158.63
1.01
PSSAh
PSSC
PSSCh
PUBFh
PUBFx
PUBGh
PUBGx
PUBHh
PUBHx
PUSISSA
PUS/SSC
PUSA
PUSAh
PUSAx
PUSC
46.85
42.65
70.91
6.23
26.079
13.52
0.83
1.07
0.10
36.69
37.28
2.38
0.61
0.27
1.11
PUSCh
R2UBF
R2UBG
R2UBH
R2UBHx
R2USA
R2USAx
R2USC
R4SBA
R4SBF
R4SBFx
7.80
8.56
141.85
3,737.62
35.32
167.49
4.48
443.08
0.36
138.01
3.27
Att.rifJ.l!.t~
te.agth (ml
Attribute
~f}Jlgth
PEMFx
PFOIEMA
PFOIEMC
PFO/EMCx
PFO/SSA
PF01Cd
PF01Cx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFQCd
PFOCh
PFOCx
PSSlEMC
PSSA
PSSAd
PSSAh
PSSAx
PSSC
PSSCd
PSSCx
PUBFx
PUBGh
PUBGx
PUSAx
PUSCx
R2UBG
R2UBGx
R2USA
R2USC
R4SBA
R4SBAx
16514.9
68.9
8149.6
766.5
324.4
64.4
583.6
855401.6
23029.3
9433.6
43499.3
285291.6
10513.5
540.0
40170.9
57.8
20413.1
536.3
251.6
528.6
5819.6
307.8
688.3
10173.1
169.6
344.2
57.4
84.4
79462.0
6102.9
1166.5
202.2
37578.8
280.4
R4SBC
R4SBCx
R4SBF
R4SBFx
173189.5
410.6
1037848.8
146942.4
Linear Wetlands
At1dbll.t~
i.sngJh {m.!
Mlnn~lota-R~d Bi~[
Lowland
l2ABGh
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMIFOC
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOIEMA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSC
PSSCh
PSSCx
PUBFx
R2UBG
1068.0
158.7
1532.9
182.7
249.5
3108.4
1993.2
247673.3
1973.3
44204.2
895394.4
2907.2
683.2
283720.6
23805.4
922.0
8454.5
132.3
116371.9
1547.2
19593.9
1633.5
17823.8
382.0
5343.7
1814.5
9485.8
6036.3
276.1
333.0
647.7
733.1
{m.!
~t1rifJ.!J.te
~gagth
R4SBA
R4SBAx
R4SBC
R4SBCx
R4SBF
R4SBFx
5597.8
19599.9
20483.0
3469.8
473296.8
8661.9
Prairie Coteau
L2USA
L2USAh
L2USC
PAB/EMF
PABF
PABFX
PABFh
PABFx
PEMlABF
PEMlABFh
PEMlABFx
PEMIFOA
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMB
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFd
PEMFh
70375.4
196.6
1366.6
751.7
4675.3
2250.1
994.1
9358.1
54239.3
508.6
8868.3
1n2.0
8635.1
521.1
3596154.7
5980.52
23.8
188551.5
19.3
8692505.2
30727.4
1460.3
2808542.6
187681.9
385.0
1873.1
{m.!
Missouri Siver
Floodplain
PABIEMF
PAB/EMFx
PABF
PABFx
PEMlABF
PEMlABFx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCx
PEMF
PEMFx
PFOIEMC
PFOA
PFOAx
PFOC
PFOCx
PUBFx
R2UBG
R2USA
R2USC
R4SBF
R4SBFx
194.2
4236.5
254.4
25.9
241.6
6756.7
17861.1
762.1
4440.7
20528.2
1498.0
190596.1
193.2
1991.9
37.1
29748.0
3951.1
3141.6
lm.9
116.3
4743.4
1718.9
2020.7
7832.5
84507.7
Appendix D1, linear wetlands / 94
Attribute
Length (ml
Jgmes BI~gr Lowland
L2ABFx
L2USA
L2USC
PABIEMF
PABlEMFd
PABF
PABFh
PABFx
PEMlABF
PEMlABFd
PEMlABFh
PEMfABFx
PEMIFOA
PEMfFOC
PEMlFOCh
PEMlFOCx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFOIEMA
PFOIEMC
PFOIEMCx
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSlFOA
PSSA
PSSAx
PSSC
PUBF
PUBFx
PUSA
846.8
2834.8
2523.4
1507.6
253.8
10532.2
3385.0
17127.7
52241.4
103.6
2578.9
1760.6
885.9
4955.6
90.5
1809.2
3981302.2
45858.7
328.7
319416.8
8655245.6
26811.0
2313.2
6878820.2
14090.1
9598.2
2646.2
1545.1
7585.7
1054.5
418007.0
20034.4
45610.8
17428.9
233557.2
4099.7
3855.5
24227.5
392.9
5271.1
96.7
913.1
18.3
7683.2
26.1
95/ Appendix 01. point wetlands
Attribute
Length (ml
PUSCx
R2USC
R4SBA
R4SBC
R4SBF
R4SBFx
135.1
224.4
19345.3
17474.5
1644815.9
52520.2
Like Dgkota Plain
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMfABFx
PEMIFOA
PEMIFOC
PEMlFOCx
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
PFO/EMC
PFO/SSA
PFOA
PFOAh
PFOAd
PFOAx
PFOC
PFOCh
PFOCd
PFOCx
PSSJFOA
PSSA
PUBFx
R4SBCx
R4SBF
R4SBFx
100.8
1355.9
206.6
2564.1
5999.0
513.5
1087.4
4199.6
676.2
386248.7
8709.4
75729.4
400292.0
7187.3
24.7
611373.9
24319.9
2372.6
167.4
62.0
242303.7
167.6
2355.3
1966.3
42182.3
2566.4
5874.4
4941.8
6103.8
275.2
245.2
9033.0
88455.3
108364.6
Attribute
Length (ml
Missouri Coteau
L2UBFh
PABIEMF
PABF
PABFh
PABFx
PEMlABF
PEMlABFx
PEMlABFh
PEMIFOA
PEMIFOC
PEMlFOCh
PEMlFOCx
PEMfSSC
PEMlSSCd
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOIEMC
PFOIEMCx
PFO/SSA
PFOA
PFOAd
PFOAh
PFOAx
PFOC
PFOCd
PFOCh
PFOCx
PSSA
PSSAh
PSSAx
PSSC
PSSCx
PUBFh
PUBFx
PUBGx
344.2
225.0
4641.2
3730.4
6494.9
11456.0
589.4
834.8
471.3
839.6
157.4
850.7
1144.2
36.4
3833136.2
8644.2
551.3
207612.1
4653010.3
4408.7
n26.4
1m222.4
89164.5
2874.5
21618.6
24.4
2398.6
255.6
449.4
186148.5
1685.2
49647.8
6055.8
131434.2
113.7
3106.7
8539.9
10358.1
231.1
233.5
ln9.8
192.1
957.1
3342.3
23.1
Attribute
Length(ml
R2SBA
R4SBA
R4SBC
R4SBCx
R4SBF
R4SBFx
2665.4
107359.3
84701.2
4490.0
499469.3
38654.6
Pierre Hills
L2UBFh
L2UBGh
PABF
PABFh
PABFx
PEMfABF
PEMfABFx
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PFO/EMA
PFOA
PFOAh
PFOAx
PFOC
PFOCh
PFOCx
PSSA
PSSC
PUBFx
PUSCh
R2SBA
R2UBF
R2USA
R2USC
R4SBA
R4SBC
R4SBF
R4SBFx
1571.0
271.6
4272.9
931.3
227.0
281.0
1461.6
762898.3
B34.8
604.9
4399.4
818853.8
337.2
5406.8
66903.7
1250.4
2114.3
4764.7
212.7
5148.3
4160.7
525.7
56022.0
1098.9
156.6
600.7
1108.9
71.7
20.4
17882.0
352.7
8842.1
524.8
407192.7
218882.3
234334.4
5408.3
"
Point Wellands
~tt!i&21llj
r::llJ.m~r
Mlnnn2la-Bfld B I~!!{
~QWII!Dd
PABF
PEtNABF
PEMA
PEMAd
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PFOA
PUBFx
I
2,182
64
10
281
3
I
6
I
32
~[l!lrI~ CQ1~ilU
PABFh
10
PABFx
70
;
PEI.VASF
PEMlFOCx
3
12,676
PEMA
PEMAd
1,448
PEMAh
3
PEMAx
66
PEMC
7.442
PEMCd
179
PEMCh
8
1;4
PEMCx
PEMF
35
PFOIEMCx
;1
PFOA
PFOAd
I
PFOAx
2
PFOC
II
PFOCx
3
PSSA
,
da!i~1Q
Numbfr
PSSC
PUBF
PUBFh
PUBFx
PUBGx
PUSAx
PUSCx
3
I
PFOIEMA
PFO/EMC
PFO/EMCx
PFOA
PFOAd
PFOAx
2
PFOC
I
2
177
4
Missouri River
floodplain
PEMA
95
PEMAd
16
PEMC
20
PEMCx
7
PUBFx
3
R2USC
7
J ame ~
River ~owland
PABF
PABFh
PABFx
PHVABF
PEMIFOA
PEMIFOC
PEtNFOCx
PEMISSC
PEMA
PEMAd
PEMAh
PEMAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFx
~lIn·t!(l[!i:
17
153
I
2
I
6
49,218
2,210
2
64
8,863
178
21
226
4
PFOCx
PSSA
PUBF
PUBFx
PUSCh
PUSCx
Numt.Hi.r
I
3
53
3
I
8
4
3
387
~trribule
PEMAd
PEMAh
PH.-IAx
PEMC
PEMCd
PEMCh
PEMCx
PEMF
PEMFh
PEMFx
PEMU
PFOA
PFOAx
?FOC
Lake: D ako!~ EliliO
PABFx
140
paNFOC
4,974
PEMA
PEMAd
38
PEMAh
I
PH.tAx
10
PEMC
1,576
PEMCd
4
PEMCh
3;
PEMCx
PFO/EMC
I
PFOA
7
PFOC
PFOCx
PUBFx
I
22
Missouri Coteau
PABF
I
PABFh
18
PABFx
91
24 ,310
PEMA
PFOCx
PSSA
PUBFx
PUSAx
tlumbec
335
;
9S
6.658
40
20
78
I
3
10
I
2
I
3
124
Pierre Hills
PABFh
26
PABFx
6
4
PABGx
PHNABF
I
PEMA
5n
PEMAd
20
PEMAh
140
PEMC
PEMCd
2
PEMCh
87
PEMCx
9
PFOA
PFOCx
PUBFx
4
PUSCh
2
A2USC
7
Appendix 01, polygon w ouonds I 00
-
Appendix 02. Palustrine, lacustrine, and riverine wetlands delineated by the National Wetlands Inventory in eastem
South Dakota physiographic regions from photography acquired 1979-1 986.
Polvgon Wetlands, Hectares
PhYSiographic Region
Palustrine
Lacustrine
RIVerine
Minnesota·Red River Lowland
26,727.10
6,090.59
86.9B
168,318.66
43,800.69
2,603.69
3,783.90
226.33
3,403.61
246,781.&3
14,954.5\
5.759.53
40,557.48
1,515.95
2.570.72
145.048.15
14.508.49
1,363.17
5,423.35
69,098.75
1,276.43
Palustri"e
Lacustrine
Riverine
1,698,386.9
1,068.0
531 .842.8
16,984,266.0
71,938.7
1,483, 184.5
288,353.5
0.0
100,823.4
2O.827,5~.0
6,205.1
1,734,380.5
1,842,174.4
0.0
205,853.0
11.044.420.0
344.0
737,340.0
1,774,670.4
1,B42.6
893,419.7
Prairie Co:eau
Missoun River Roodplain
James River Lowland
Lake Dakota Plain
Missouri Coteau
Pierre Hills
Physiographic Region
Minnesota-Red River LO',o,i and
Prairie Coteau
Missouri Rivet Floodplain
James Rrver l ov.1and
Lake Dakota Plain
Missouri Coleau
Pierre Hills
Point Wellands, Number
Physiographic RegiQ(!
Minnesola Red-River Lowland
Prairie Coteau
Missoori River Floodplain
James RIVer lo'N!and
lake Dakota Plain
Missouri Coteau
Pierre Hills
g ;;" AppOntflJ( 0 2
Palustrine
LacusJn'ne
Riverine
2,583
0
0
22,362
0
0
0
7
61 ,426
0
0
6,610
0
0
31.i99
0
0
i40
0
141
,
~
Appendix 03. Wetlands delineated by the National Wetlands Inventory in eastern South Dakota physiographic regions
by Cowardin et al. (1979) classes. Photography used to delineate wetlands was acquired 1979-1986.
Region abbreviations are: MRRl- Minnesota·Red River lowland
PCOT - Prairie Coteau
MRFl· Missouri River Floodplain
JRl· James River lowland
lOP· lake Dakota Plain
MCOT - Missouri Coleau
PH • Pierre Hills
CliJ~
EM
AB
US
US
FO
55
5B
EM/AB
ABIEM
EMIFO
FOIEM
FO/55
SSIFO
SSIEM
EM/55
US/55
5S/U5
EMlU5
UBIFO
MBRL
19.954.17
2.399.55
4,620.59
0.00
735.40
213.57
73.95
4.128.06
377.69
76.21
53.04
9.53
4.78
99.93
158.13
0.00
0.00
0.00
0.00
peOT
90.388.78
32,805.58
17.302.80
794.03
1,544.02
235.19
1,300.26
62,990.71
4,753.85
1,175.90
844.93
28.16
67.01
81.54
408.83
0.16
0.00
0.00
0.00
MRFL
1.664.28
330.30
2.928.11
495.56
302.90
183.78
2.29
241.50
29.67
110.56
217.61
27.80
20.81
24.99
623.32
73.96
136.41
0.00
0.00
J.RL
213,997.27
15.571.60
10.791.60
91.74
1.453.15
138.74
3,102.76
16,408.67
3,968.32
915.72
822.19
20.32
58.41
19.94
98.89
1.32
33.96
0.00
0.92
MeOT
LDP
30.990.02
2,065.34
1,321.62
0.00
623.94
12.26
1,317.62
6,806.94
440.56
727.36
306.21
3.71
15.70
1.85
11.03
0.00
0.00
0.00
0.00
121.251.49
15.227.41
8,973.63
126.55
419.73
145.78
405.27
11,367.28
2,241.25
373.79
84.00
5.76
13.64
5.58
108.54
1.73
164.78
0.00
0.00
LDe.
1.516,258.54
4,126.88
245.28
0.00
302.358.38
275.20
205,853.06
6,512.63
100.88
5.963.33
167.45
62.03
6.103.87
0.00
0.00
10,605,995.00
14.867.00
4,667.00
0.00
386,733.00
12,795.00
737,340.00
12,880.00
0.00
2.319.00
2.654.00
449.00
0.00
0.00
1.181.00
PH
3,200.15
1.837.68
69.410.54
567.42
107.01
136.27
139.35
20.59
23.12
43.61
125.83
0.61
0.27
29.08
156.35
0.01
0.00
0.00
0.00
MRRL
Q/i!~
EM
1,509.738.57
AB
3,033.34
US
1,380.96
U5
0.00
164,511.04
FO
16,131.44
SS
S8
531,109.60
EM/AS
3,108.41
ABIEM
158.76
EMIFO
1,993.28
FOIEM
132.32
FO/SS
0.00
5S1FO
0.00
5S1EM
0.00
EM/SS
0.00
PCQI
15,574,421.04
17,2n.89
96.252.03
73,449.52
1,268,528.41
28,545.66
1,396,250.83
63.616.48
751.76
10,928.34
8,985.06
324.48
0.00
57.86
0.00
MRFL
237,871.64
280.35
4.859.82
3,739.7
38,618.84
0.00
0.00
6.998.37
4,430.81
0.00
37.20
0.00
0.00
0.00
0.00
JBl,
19,938,786.54
31,892.08
7,701.65
5,744.05
766,821.68
6,281.09
',734,156.14
56,684.94
1.761.54
7,741.56
10.185.53
0.00
392.98
0.00
0.00
MeOT
Pt/.
1,668,369.03
5.431.46
2,267.18
9,387.47
97,112.49
1,709.71
883,700.01
1,742.71
0.00
0.00
212.74
0.00
0.00
0.00
0.00
Appendix D3, polygon and linear wetlands /98
Q/m
EM
AS
UB
US
FO
55
SB
EMlAB
EMlFO
MaRL
2,548
1
32
0
1
0
0
FOIEM
0
0
EM/55
0
pcor
MBE~
JBL
LQf
MOOr
ftJ.
22,011
80
184
138
0
8O,m
390
3
68
7
0
0
2
66
31,547
111
124
1
14
3
689
3
6.637
140
22
7
171
4
0
5
3
0
0
0
0
1
9
0
0
0
5
1
0
9
0
0
0
0
0
1
1
0
0
0
0
36
1
2
2
0
0
1
0
0
0
99/ Appendix 03, point wetlands
._.LE
L ,~_
Appendix 04. Summary of wetlands, by water regime, delineated by National Wetlands Inventory in eastern South
Dakota physiographic regions from photography acquired 1979-1986.
Region
A
B
C
E
9,601.83
93.29
7,390.26
9,619.53
1,791.81
4,399.87
38,195.49
379.37
44,804.35
87,716.51
40,220.90
3,404.09
2,8n.37
0.00
982.71
519.73
224.36
2,809.69
James River Lowland
98,861.78
21.n
116,500.47
36,137.86
10,209.14
5,751.17
Lake Dakota Plain
18,356.57
0.00
13,On.69
10,432.18
2,7n.23
0.00
Missouri Coteau
39,513.01
0.10
75,688.01
31,988.36
7,726.58
5,970.18
2,226.10
0.17
1,673.35
3,114.07
5,049.75
64,344.81
Minnesota-Red River Lowland
Prairie Coteau
Missouri River Floodplain
Pierre Hills
G
H
A
B
467,813.66
0.00
1,240,661.62
521.021.23
1,801.22
4,899,625.n
19.34
12,070,599.70
1,483,065.78
86,078.78
58,482.19
0.00
219,600.02
106,351.28
4,743.49
4,878,386.61
0.00
15,868,051.97
1,821.711.21
0.00
725,009.40
0.00
1,088,519.80
234,498.31
0.00
Missouri Coteau
4,415,250.00
0.00
6,682,409.00
684,398.00
23.00
Pierre Hills
1,243,303.10
0.00
1,169,316.04
257,042.00
271.67
Minnesota-Red River Lowland
Prairie Coteau
James River Lowland
Lake Dakota Plain
E
C
G
Physiographjc &wion
Minnesota·Red River Lowland
Prairie Coteau
James River Lowland
Lake Dakota Plain
Missouri Coteau
Pierre Hills
A
C
E
G
2,257
291
35
0
14,252
7,806
300
4
111
34
3
0
51,548
9,311
567
0
5,028
1,620
162
0
24,760
6,799
235
0
488
214
34
4
Appendix D4, polygon, linear, and point wetlands /100
Appendix 05. Summary of wetlands, by special modifier, delineated by the National Wetlands Inventory in eastern
South Dakota physiographic regions from photography acquired 1979-1986.
Polygon Wetlands. Hectares
PhysiQgtaohic Region
d
h
X
b
3,486.84
646.15
7,395.96
1.63
31,481.49
2,936.19
1,538.20
4.16
598.52
112.55
3.51
0.00
29,n6.20
4,728.20
12,389.79
0.00
lake Dakota Plain
5,341.41
450.18
6,069.01
0.00
Missouri Coteau
7,669.73
2,463.83
13,846.06
0.00
236.19
114.69
71,406.24
0.00
Minnesota-Red River lowland
Prairie Coteau
James River Lowland
Pierre Hills
PhYsiographic Region
Minnesota-Red River lowland
d
h
X
6,809.88
372,789.71
28,070.01
115,544.61
3,285.240.61
15,451.88
2,260.16
298,401.28
0.00
James River lowland
97,161.78
7,325,575.00
70,116.43
lake Dakota Plain
24,126.68
817,781.54
2,965.64
Missouri Coteau
14,889.00
2,076,304.00
70.034.00
1,172.21
83,919.33
16,180.52
Prairie Coteau
Missouri River Aoodplain
Pierre Hills
Point Wetlands. Number
Minnesota·Red River lowland
Prairie Coteau
Missouri River Aoodplain
James River lowland
lake Dakota Plain
Missouri Coteau
Pierre Hills
x
d
h
67
45
1,628
483
23
16
10
0
2,391
836
41
40
208
2
375
394
42
6
14
116
101 / Appendix D5, polygon. linear, and point wetlands
Appendix 06. Basin area (ha) and number by water regime in eastern South Dakota physiographic regions, and the
percent of the region covered by that basin type.
Temporal)'
~ ~
~emipennanent'! _
Seasonal
Pennanent'!
Number ~
----~-~
~
t:!JJ!nb§!
~
~
!:hmJllBl
6,354.4
1.95
9,034
6,174.3
1.90
2,885
9,480.8 2.91
67
12,986.4
3.99
93,232 29,332.5
1.18
84,020
42,999.9
1.73
25,689
106,420.6 4.29
607
57,066.0
2.30
1,702.2
1.82
648
1,336.7
1.43
194
875.8 0.94
8
402.4
0.43
275,078 78,624.3
2.63
147,425 102,687.1
4.14
24,203
91,166.9 3.67
334
18,887.3
0.63
Plain
29,818 13,426.2
2.53
10,818
10,325.1
1.95
2,222
14,576.3 2.75
43
6,123.6
1.16
Missouri
Coteau
95,459 28,292.8
1.21
81,001
59,842.5
2.57
18,443
67,476.5 2.89
421
19,959.9
0.64
0.43
1,753
1,072.8
0.25
2,624
3,257.6 0.79
101
70,996.2 17.14
&!lim
Minnesota·Red
River Lowland 22,302
Prairie Coteau
Missouri River
Floodplain
James River
lowland
1,266
~.'Z2
1E
Lake Dakota
Pierre Hills
3,224
1,792.0
a Natural basins, basins due 10 dugouts or other excavations, and impoundments.
Appendix D6, basins / 102

WETLAND RESOURCES of Eastern - South Dakota State University

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