HomeMy WebLinkAbout990485.tiff IV,tetar<ill/C�� �n ✓2't�,'
3 7 lei,C. 7�✓4
'A:7- ,/e94a-Gz , , 6,,, 06 2i
.moo y (ss- 7Sv/6 N
Scc /1- 7`74 26'742
AT 2 eizi N'-%
s
y • y.. 3 � a2 . * „tiE ,
a j}
y.:.,. . •S+.* '. �,.. Y 4m a= 1 ..4* ;. a,. ":."1,4 .�•d 40
42 t• A y,.7 •; w
t 3 d
1a n
'Wl , 1x411 t. 7 57
6f, c '> 57
82 x�
/ 82
78 tr `•87 66
4 o,rcH
74 .4774' ,x , a��' . '' 57 Z0c
1}�� ^ 13
__
040.701;341.1
82 A
79 $ 7.
rr
6B i. _ Fy
4 664 67
40)1
1 �x
wy.- 1 • 15
tr ••:::::1,4.v...;,„1,.
h x : + m, 4=
tt %A AP': t
40 1 •e: i)7704
4 7
v • �!•• ' y; Sl � "r 990485
66
82 .. r". .,. ...r..t .. �. . as,<
38 SOIL SURVEY
years. As range condition deteriorates, a blue grama-buf- Closely spaced contour ditches can be used in irrigating
falograss sod forms. Undesirable weeds and annuals in- close grown crops. Contour furrows should be used for
vade the site as range condition becomes poorer. row crops. Applications of barnyard manure and commer-
Management of vegetation on this soil should be based cial fertilizer help to maintain good production. Keeping
on taking half and leaving half of the total annual produc- tillage to a minimum and utilizing crop residue are impor-
tion. Range pitting can reduce runoff. Seeding is desirable tant.
if the range is in poor condition. Western wheatgrass, The potential native vegetation is dominated by
blue grama, sideoats grama, buffalograss, pubescent western wheatgrass and blue grama. Buffalograss is also
wheatgrass, and crested wheatgrass are suitable for seed- present. Potential production ranges from 1,000 pounds
ing. The grass selected should meet the seasonal require per acre in favorable years to 600 pounds in unfavorable
ments of livestock. It can be seeded into a clean, firm Years. As range condition deteriorates, a blue grama-buf-
sorghum stubble, or it can be drilled into a firm prepared falograss sod forms. Undesirable weeds and annuals in-
seedbed. Seeding early in spring has proven most success- vade the site as range condition becomes poorer.
ful. Management of vegetation on this soil should be based
Windbreak and environmental plantings are generally on taking half and leaving half of the total annual produc-
tion. Range pitting can reduce runoff. Seeding is desirable
not suited to this soil. Onsite investigation is needed to
if the range is in poor condition. Western wheatgrass,
determine if plantings are feasible. Supplemental water is
blue grama, sideoats grama, buffalograss, pubescent
needed for successful plantings.
seed-
Wildlife is an important secondary use of this soil. The wheatgrass, and crested wheatgrass are suitable for seed-
cropland areas provide favorable habitat for ring-necked ing. The grass selected should meet the seasonal require-
cropland and mourning dove. Many nongame species can ments of livestock. It can be seeded into a clean, firm
be attracted by establishing areas for nesting and escape sorghum stubble, or it can be drilled into a firm prepared
cover. For pheasant, undisturbed nesting is essential and seedbed. Seeding early in spring has proven most success-
should be included in plans for habitat development, espe- fill..
Windbreaks and environmental plantings are generally
cially in areas of intensive agriculture. Rangeland wildlife, not suited to this soil. Onsite investigation is needed to
for example, the pronghorn antelope, can be attracted by determine if plantings are feasible. Supplemental water is
developing livestock watering facilities, managing needed for successful plantings.
livestock grazing, and reseeding where needed. Wildlife is an important secondary use of this soil. The
This soil has poor potential for urban uses and only cropland areas provide favorable habitat for ring-necked
moderate potential for recreational development. The pheasant and mourning dove. Many nongame species can
chief limiting features are the underlying shale, the low be attracted by establishing areas for nesting and escape
strength, and the moderate to high shrink swell. These cover. For pheasants, undisturbed nesting cover is essen-
features present severe problems in dwelling and road tial and should be included in plans for habitat develop-
construction and in use of septic tank absorption fields ment, especially in areas of intensive agriculture. Range-
and sewage lagoons. Capability subclass Ills irrigated, land wildlife, for example, the pronghorn antelope, can be
IVe nonirrigated;Clayey Plains range site. attracted by developing livestock watering facilities,
57—Renohill clay loam, 3 to 9 percent slopes. This is managing livestock grazing, and reseeding where needed.
a moderately deep, well drained soil on upland hills and This soil has poor potential for urban and recreational
ridges at elevations of 4,850 to 5,200 feet. It formed in development. The chief limiting features are the underly-
residuum from shale. Included in mapping are small areas ing shale, the low strength, and the moderate to high
of soils that have shale deeper than 40 inches. shrink swell. These features present severe problems in
Typically the surface layer is grayish brown clay loam dwelling and road construction and in use of septic tank
about 9 inches thick. The subsoil is grayish brown and absorption fields and sewage lagoons. Capability subclass
pale brown clay loam about 12 inches thick. The sub- IVe irrigated, VIe nonirrigated; Clayey Plains range site.
stratum is pale brown clay loam. Shale is at a depth of 58—Shingle loam, 1 to 3 percent slopes. This is a shal-
about 29 inches. low, well drained soil on plains at elevations of 4,850 to
Permeability is slow. Available water capacity is 5,200 feet. It formed in residuum from shale. Included in
moderate. The effective rooting depth is 20 to 40 inches. mapping are some small areas of shale and sandstone out-
Surface runoff is medium to rapid, and the erosion hazard crops.
is moderate. Typically the surface layer is grayish brown loam about
This soil is suited to limited cropping. Intensive 6 inches thick. The underlying material is light yellowish
cropping is hazardous because of erosion. The cropping brown clay loam. Shale is at a depth of about 18 inches.
system should be limited to such close grown crops as al- Permeability is moderate. Available water capacity is
falfa, wheat, and barley. The soil also is suited to ir- low. The effective rooting depth is 10 to 20 inches. Sur-
rigated pasture. A suitable cropping system is 3 to 4 face runoff is medium, and the erosion hazard is low.
years of alfalfa followed by 2 years of corn and small This soil is suited only to limited cropping. A suitable
grain and alfalfa seeded with a nurse crop. cropping system is 3 to 4 years of alfalfa and 2 years of
WELD COUNTY, COLORADO, SOUTHERN PART 43
livestock and wildlife share the range. Livestock watering ing. The grass selected should meet the seasonal require-
r-^ilities also are utilized by various wildlife species. The ments of livestock. It can be seeded into a clean, firm
,)land areas provide favorable habitat for pheasant and sorghum stubble, or it can be drilled into a firm prepared
mourning dove. Many nongame species can be attracted seedbed. Seeding early in spring has proven most success-
by establishing areas for nesting and escape cover. ful.
The underlying shale is the most limiting feature of Windbreaks and environmental plantings of trees and
this soil. Neither septic tank absorption fields nor sewage shrubs commmonly grown in the area are generally well
lagoons function properly. In places the underlying shale suited to this soil. Cultivation to control competing
has high shrink-swell potential. Environmental and beau- vegetation should be continued for as many years as
tification plantings of trees and shrubs can be difficult to possible following planting. Trees that are best suited and
establish. Capability subclass IVe irrigated, VIe nonir- have good survival are Rocky Mountain juniper, eastern
rigated; Loamy Plains range site. redcedar, ponderosa pine, Siberian elm, Russian-olive, and
66—Ulm clay loam, 0 to 3 percent slopes. This is a hackberry. The shrubs best suited are skunkbush sumac,
deep, well drained soil on plains at elevations of 5,075 to lilac, Siberian peashrub, and American plum.
5,200 feet. It formed in alluvial and eolian sediments from Wildlife is an important secondary use of this soil. The
shale. Included in mapping are small areas of soils that cropland areas provide favorable habitat for ring-necked
have shale between 40 and 60 inches. Also included are pheasant and mourning dove. Many nongame species can
small areas of soils where the surface layer and subsoil be attracted by establishing areas for nesting and escape
have been recharged with lime from irrigation. cover. For pheasants, undisturbed nesting cover is essen-
Typically the surface layer of this Ulm soil is brown tial and should be included in plans for habitat develop-
clay loam about 5 inches thick. The subsoil is brown and ment, especially in areas of intensive agriculture. Range- ,.
pale brown clay about 14 inches thick. The substratum to land wildlife, for example, the pronghorn antelope, can be '
a depth of 60 inches is clay and clay loam. attracted by developing livestock watering facilities,
Permeability is slow. Available water capacity is high. managing livestock grazing, and reseeding where needed.
The effective rooting depth is 60 inches or more. Surface This soil has poor potential for urban and recreational
runoff is medium, and the erosion hazard is low. development. Slow permeability and high shrink swell
In irrigated areas this soil is suited to all crops con- cause problems in dwelling and road construction. Capa- ,
monly grown in the area, including corn, sugar beets, bility subclass IIe irrigated, IVe nonirrigated; Clayey
beans, alfalfa, and small grain. An example of a suitable Plains range site.
-ipping system is 3 to 4 years of alfalfa followed by 67—Ulm clay loam, 3 to 5 percent slopes. This is a
en, corn for silage, sugar beets, small grain, or beans. deep, well drained soil on plains at elevations of 5,075 to ,
Land leveling, ditch lining, and installing pipelines are 5,200 feet. It formed in alluvial and eolian sediments from li
needed for proper water applications. shale. Included in mapping are small areas of soils that is
All methods of irrigation are suitable, but furrow ir- have shale between depths of 40 and 60 inches. Also in-
rigation is the most common. Barnyard manure and com- chided are small areas of soils where the surface layer
mercial fertilizer are needed for top yields. and subsoil have been recharged with lime from irriga- ',E�
In nonirrigated areas this soil is suited to winter wheat, tion. Fj
barley, and sorghum. Most of the acreage is planted to Typically the surface of this Ulm soil is brown clay i
winter wheat. The predicted average yield is 28 bushels loam about 5 inches thick. The subsoil is brown and pale "1
per acre. The soil is summer fallowed in alternate years brown clay about 12 inches thick. The substratum to a ;o
to allow moisture accumulation. Generally precipitation is depth of 60 inches is clay and clay loam. i
too low for beneficial use of fertilizer. Permeability is slow. Available water capacity is high.
Stubble mulch farming, striperopping, and minimum til- The effective rooting depth is 60 inches or more. Surface i,�
lage are needed to control soil blowing and water erosion. runoff is medium, and the erosion hazard is moderate.
Terracing also may be needed to control water erosion. In irrigated areas this soil is suited to the crops com-
The potential native vegetation is dominated by monly grown in the area. Perennial grasses and alfalfa or 's
western wheatgrass and blue grama. Buffalograss is also close grown crops should be grown at least 50 percent of
present. Potential production ranges from 1,000 pounds the time. Contour ditches and corrugations can be used in j
per acre in favorable years to 600 pounds in unfavorable irrigating close grown crops and pasture. Furrows, con-
years. As range condition deteriorates, a blue grama-buf- tour furrows, and cross slope furrows are suitable for row i
falograss sod forms. Undesirable weeds and annuals in- crops. Sprinkler irrigation is also desirable. Keeping til-
vade the site as range condition becomes poorer. lage to a minimum and utilizing crop residue help to con-
Management of vegetation on this soil should be based trol erosion. Maintaining fertility is important. Crops
on taking half and leaving half of the total annual produc- respond to applications of phosphorus and nitrogen.
tion. Range pitting can reduce runoff. Seeding is desirable In nonirrigated areas this soil is suited to winter wheat,
if the range is in poor condition. Western wheatgrass, barley, and sorghum. Most of the acreage is planted to
blue grama, sideoats grama, buffalograss, pubescent winter wheat. The predicted average yield is 28 bushels
leatgrass, and crested wheatgrass are suitable for seed- per acre. The soil is summer fallowed in alternate years
SOIL SURVEY
52
the limited capacity of this soil to support a load. Capa- Management of vegetation on this soil should be based
bility 2 class I irrigated. on taking half and leaving half of the total annual produc-
82—Wiley-Colby complex, 1 to 3 percent slopes. This tion. Seeding is desirable if the range is in poor condition.
nearly level map unit is on smooth plains in the western Sideoats grama, little bluestem, western wheatgrass, blue
part of the survey area at elevations of 4,850 to 5,000 grama, pubescent wheatgrass,
tgrass, and crested wheatgrass are
feet. The Wiley soil makes up about 60 percent of the suitable for seeding. The grass selected should meet the
s equirements of t dunit, and the Colby soil about 30 percent. About 10 per- seasonallean, rfiem sorghum stubblelives ock.tIt can
be seeded
pinto
cent is HeWiley silty clay and Weld loam.
in spring oae
The Wiley soil is deep and well drained.urfaceormed in firm prepared layer is proven most successful.
Seeding early
calcareous ilteolian depabou. 11 inches
Typically
pale brown silt loam about 11 i thick. The subsoil is Windbreaks and environmental plantings are g earsa a
vegetation should be continued for as many years pale brown silty clay loam about 23 inches thick. The sub- well suited to these soils. Cultivation to control competing
stratum to a depth of 60 inches is very pale brown silty possible following planting. Trees that are best suited and
clay loam.
Permeability is moderately slow. Available water have good survival are Rocky Mountain juniper, eastern
The shrubs best Si suited are Russia of sumnd
capacity is high. The effective rooting depth is 60 inches redcedar, ponderosa pine, Siberian elm, Russian-olive, am
lilac, Siberian peashrub, and American plum. dour
or more. Surface runoff is medium, and the erosion hackberry.
hazard is moderate.
The Colby soil also is deep and well drained and formed Openland wildlife, such as pheasant, mourning planting
in calcareous eolian deposits. Typically the surface layer and aaditcottontail
ot ontailpare best including troe tand hese
eshril Wildlif is e brown lyam about 7 inches thick. The underlying 0 successful without irrigation serve during most years. it
material is very pale brown silt loam to a depth of 60 and c grass without
a nesting areas, t�
inches.
kinds of openland wildlife.
Permeability is moderate. Available water capacity is rigation, good wildlife habitat can be established, shoe t
high. The effective rooting depth is 60 inches or more. ing many modest
an
recreational development. Slow permeability,
Surface runoff is medium, and the erosion hazard is The Wiley soil has only fair potential for urban
moderate.
This map unit is used for irrigated and nonirrigated shrink-swell potential, and limited bearing capacity call(
ll
soil has good potential for urban and recreational devel"
cropland and for rangeland, wildlife habitat, and urban problems in dwelling and road construction. The Co
deve p
development.
In irrigated areas these soils are suited to all crops ment. Road design can be modified to compensate fPlai
corrunorly beans, alfalfa,a, the
An example of a subclass Il corn, sugar beets, limited e ty of this soil irrigated, IVeto noniu•rgated1oLoamyPabdi
suitable cropping system is 3 to 4 years of alfalfa fol- range site.
lowed by corn, corn for silage, sugar beets, small grain, or 83—Wiley-Colby complex, plains at pecnt elevations slopes.4,�I
to 5,ly opinfeet. The Wiley soil mpken ua about o of 4,S-
beans. Land leveling, ditch r lining, and installing pipelines gently sloping map
nt
may l needed for proper water suitabtions.
All methods of irrigation are suitable, but furrow ir- the unit, and the Colby soil about 30 percent. About
The Wiley soil isclay
deep and well loam. It formed
rigation is the most common. Barnyard manure and coin- percent is Heldt silty clay and Weld loam.
mercial n fertilizer are ea for top yields.
s Typically the n surface layer
In nonirrigated areas these soils are suited to winter calcareous eolian deposits.
is pale brown silty clay loam about 23 inches thick. The
wheat, barley, and sorghum. Most of the acreage is pale brown silt loam about 11 inches thick. The subs ,planted ownbus l winter wheat. The pis dicted average yield
28 bushels per acre. The soil is summer fallowed in al- stratum to a depth of 60 inches is very pale
ternate years to allow moisture accumulation. Generally clay loam.precipitation is too low for beneficial use of fertilizer. Permeability is moderately slow. Available w' '
Stubble mulch farming, striperopping, and minimum til- capacity is high. The effective rooting depth is 60 in,
lag e nre needed
may control
b neededsoil
blowing
o control watwaterer erosion.erosion.
or more. Surface hazard mode atrunoff
is medium to rapid, and the •
The potential native vegetation is dominated by blue The Colby soil also is deep and well drained and m�
,
grama. Several mid grasses such as western wheatgrass in calcareous eolian deposits. Typically the surface b
d
and needleandthread are also present. Potential produc- is pale brown loam about 7 inches thick. The under'
tion ranges from 1,600 pounds per acre in favorable years material is very pale brown silt loam depth o
tPermeability is moderate. Available water capacii
pounds in grasses
years. range conditbuf-ion inches.
deteriorates, the mid gruccasand in blue grama,
and snakeweed, yucca
production drops. Undesirable increase;weeds ged sage and an- Surfacehrunoff is medium rooting o rapid, and epth is t inches or the erosion hr
and forage p
nuals invade the site as range condition becomes poorer. is moderate.
102 SOIL SURVEY
TABLE 6.--BUILDING SITE DEVELOPMENT--Continued
___--—_._ _ . _r—
Soil name and : Shallow Dwellings Dwellings 1 Small 1 Local roads
map symbol 1 excavations without with commercial 1 and streets
basements basements buildings
I
44 Slight Slight Slight :Slight ;Moderate:
Olney 1 low strength.
45 Slight Slight Slight :Moderate: :Moderate:
Olney 1 slope. i low strength.
I
46, 47 Slight Slight Slight Slight :Moderate:
Olney ; low strength.
I
48 Slight Slight Slight Moderate: Moderate:
Olney slope. low strength.
49 Severe: Slight Slight Slight Slight.
Osgood cutbanks cave.
50, 51 Slight Slight Slight Slight Slight.
Otero
52, 53 Slight Slight Slight Moderate: Slight.
Otero slope.
54 Slight Severe: i Severe: Severe: Moderate:
Paoli floods. ; floods. floods. low strength,
frost action.
55 Slight Slight I Slight Slight Moderate:
Paoli low strength,
frost action.
56 Moderate: Moderate: Moderate: Moderate: Severe:
Renohill depth to rock, low strength, i low strength, low strength, low strength,
too clayey. shrink-swell. depth to rock, shrink-swell. shrink-swell.
shrink-swell.
57 - ''oderate: Moderate: Moderate: Moderate: Severe:
Renohill depth to rock, low strength, low strength, slope, low strength,
too clayey. shrink-swell. depth to rock, low strength, shrink-swell.
,Qt shrink-swell. shrink-swell..
9t1 58, 59 Severe: Severe: Severe: Severe: Severe:
Shingle depth to rock. depth to rock. depth to rock. depth to rock. depth to rock.
r
,..,�. 604:
;1w Shingle Severe: Severe: Severe: Severe: Severe:
: j depth to rock. depth to rock. depth to rock. depth to rock. depth to rock.
,I. . Renohill Moderate: Moderate: Moderate: Moderate: Severe:
depth to rock, low strength, low strength, slope, low strellk: h,
too clayey. shrink-swell. depth to rock, low strength, shrink-5w} .1.
shrink-swell. shrink-swell.
61 Moderate: Moderate: Moderate: Severe: ;Moderate:
I'. Tassel depth to rock. depth to rock. depth to rock. slope. : depth to rock.
62 Severe: Moderate: Severe: Moderate: ;Moderate:
Terry depth to rock. depth to rock. depth to rock. depth to rock. 1 depth to rock.
I
63 Severe: Moderate: Severe: Moderate: :Moderate:
Terry depth to rock. depth to rock. depth to rock. depth to rock, : depth to rock.
slope.
64 Moderate: Moderate: IModerate: Moderate: ;Moderate:
Thedalund depth to rock. low strength. I depth to rock. low strength. : low strength.
I
65 Moderate: Moderate: ;Moderate: Moderate: :Moderate:
Thedalund depth to rock. low strength. depth to rock. low strength, 1 low strength.
slope.
See footnote at end of table.
Jr
:II''
970VS
WELD COUNTY, COLORADO, SOUTHERN PART 103
TABLE 6.--BUILDING SITE DEVELOPMENT--Continued
I
Small Local roads
Soil name and I Shallow Dwellings Dwellings commercial and streets
map symbol I excavations without with
basements basements build un s _ _
I
66, 67 'Moderate: Severe: Severe:
Severe: Severe:
Ulm too clayey. shrink-swell, shrink-swell. shrink-swell. shlow strength,
rink-swell .
68• Severe: Moderate: Moderate: Moderate: Moderate:
Ustic small stones, slope. slope. ; slope. slope.
Torriorthents cutbanks cave.
Slight Slight Slight Slight.
69 Severe: g
Valent cutbanks cave.
Slight--- Slight Moderate: Slight.
Valent
Severe:
V alent cutbanks cave. slope.
71': Slight-- Slight Moderate: Slight.
Valent Severe: slope.
cutbanks cave.
Loup Severe:
Severe: Severe: Severe: Severe:
wetness.
wetness, wetness, wetness, wetness,
cutbanks cave. floods. floods. floods.
Slight Slight--- Slight Moderate:
72 Slight low strength.
Vona
Slight Slight Moderate: Moderate:
73 74 Slight slope. low strength.
Vona
Slight Slight Slight Moderate: t
75, 76 Slight low strength.
Vona
Slight Moderate: Moderate:
,
V Slight Slight slope low strength.
Vona
Moderate: Moderate: Moderate: Moderate:
78 79 Slightstrength, low strength,
Weld low nk-swell, low strength, low nk-swg
shrink-swell. shrink-swell . shrink-swell . shrink-swell ,
frost action.
80 Slight Moderate: Moderate:
Moderate: Moderate:
Weld low strength, low strength, low strength, I low strength,
shrink-swell. shrink-swell. slope, shrink-swell ,
shrink-swell . frost action.
81*, 82•: Moderate: Moderate:
Wiley Slight Moderate: Moderate:
low strength, low strength, low strength, low strength,
shrink-swell. shrink-swell. shrink-swell, shrink-swell .
Slight- Slight -. Moderate:
Colby Slight Slight low strength.
83•:
Wiley Slight Moderate: Moderate: Moderate: Moderate:
th low strength,
low nk-swell, low strength, low siren P, shrink-swell.
shrink-swell. shrink-swell . sl shrink-swell .
Slight Moderate: Moderate:
Colby Slight i Slight g slope. low strength.
* See map unit description for the composition and behavior of the map unit.
WELD COUNTY, COLORADO, SOUTHERN PART 107
TABLE 7.--SANITARY FACILITIES--Continued
_
—r
r-
,
Soil name and i Septic tank Sewage lagoon Trench Area 1 Daily cover
map symbol i absorption areas sanitary sanitary ; for landfill
fields landfill landfill i_ ____
7--
71':
Loup Severe: Severe: Severe: Severe: :Poor:
wetness, wetness, wetness, wetness, 1 wetness.
floods. seepage, seepage, seepage,
floods. floods. floods.
I
72, 73 ;Slight Severe: Slight Slight
:Good.
Vona seepage.
74 ',Slight Severe: Slight Slight :Good.
Vona seepage,
,I slope.
75, 76, 77 ;Slight Severe: Slight Slight -;Good.
Vona I seepage.
78 Moderate: Moderate: Slight Slight .. ;Good.
Weld percs slowly. seepage.
79, 8o Moderate: Moderate: Slight Slight :Good.
Weld percs slowly. slope,
seepage.
81':
Wiley ;Moderate: Moderate: Slight Slight
:Fair:clayey.
percs slowly. seepage.
Colby Slight Moderate: Slight Slight ;Good.
seepage.
82• 83•:
Wiley Moderate: Moderate: Slight Slight :Fair:clayey.
peres slowly. seepage,
slope.
Colby Slight Moderate: Slight Slight -- :Good.
seepage.
seepage.
* See map unit description for the composition and behavior of the map unit.
D yg6---
106 SOIL SURVEY
TABLE 7.--SANITARY FACILITIES--Continued
—-r- _T- __... r
Soil name and Septic tank Sewage lagoon Trench Area Daily cover
map symbol absorption areas sanitary sanitary for landfill
fields landfill landfill
43 Severe: Moderate: Slight Slight Fair:
Nunn percs slowly. excess humus. too clayey.
44, 45, 46, 47, 48-- Slight Severe: ,Slight Slight Good. I
Olney seepage.
49 Slight Severe: ;Severe: Severe: Fair:
Osgood seepage. I seepage. seepage. too sandy.
I
50, 51 , 52 Slight Severe: ;Slight Slight Good.
Otero seepage.
53 Slight Severe: ;Slight Slight Good.
Otero slope,
seepage.
54 Slight Severe: Severe: Severe: Good.
Paoli seepage. seepage. seepage.
i
55 Slight Severe: Severe: Severe: Good.
Paoli seepage. ; seepage. seepage.
56, 57 Severe: Severe: Severe: Slight Fair:
Penohill percs slowly, depth to rock. depth to rock. too clayey,
depth to rock. thin layer.
58, 59 Severe: Severe: Severe: Slight Poor:
a
Shingle depth to rock. depth to rock. depth to rock. thin layer.
4
60*: 6
Shingle Severe: Severe: Severe: Slight Poor:
depth to rock. depth to rock. depth to rock. thin layer.
¢'
,nohill Severe: Severe:. Severe: Slight Fair:
percs slowly, depth to rock. depth to rock. too clayey,
depth to rock. thin layer.
,
61 Severe: Severe: Severe: Severe: Poor:
Tassel depth to rock. depth to rock, depth to rock, seepage. thin layer, ,
seepage, seepage. area reclaim.
slope .
67, 63 Severe: Severe: Severe: Slight Fair:
Terry depth to rock. depth to rock, depth to rock. thin layer,
seepage. area reclaim.
64, 65 Severe: Severe: Severe: Slight Fair:
Thedalund depth to rock. I depth to rock. depth to rock. thin layer.
66 Severe: ;Slight- Moderate: Slight Poor:
Ulm percs slowly. too clayey. too clayey.
67 Severe: Moderate: Moderate: Slight Poor:
Ulm percs slowly. slope. too clayey. too clayey.
68* Moderate: Severe: Severe: Severe: Poor:
Ustic Torriorthents slope. seepage, seepage, seepage. too sandy,
small stones. too sandy. small stones.
69, 70 Slight Severe: Severe: Severe: Poor:
Valent seeps e, too sandy, seepage. too sandy.
seepage.
71*:
Valent Slight Severe: Severe: Severe: Poor:
seepage. too sandy, seepage. too sandy.
seepage.
See footnote at end of table.
Hello