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WELD COUNTY, COLORADO, SOUTHERN PART 47
h attracted by establishing areas for nesting and escape wheatgrass are suitable for seeding. The grass selected
... For pheasants, undisturbed nesting cover is essen- should meet the seasonal requirements of livestock. It can
and should he included in plans for habitat develop- be seeded into a clean, firm sorghum stubble, or it can be
tent, especially in areas of intensive agriculture. Range- drilled into a firm prepared seedbed. Seeding early in
;and wildlife, for example, the pronghorn antelope, can be spring has proven most successful.
attracted by developing livestock watering facilities, Windbreaks and environmental plantings are fairly well
managing livestock grazing, and reseeding where needed. suited to this soil. Blowing sand and low available water
This soil has good potential for urban and recreational capacity are the principal hazards in establishing trees
development. Once established, the lawns, shrubs, and and shrubs. The soil is so loose that trees should be
trees grow well. The chief limiting soil feature is the planted in shallow furrows and vegetation maintained
rapid permeability in the substratum, which causes a between the rows. Supplemental irrigation may be needed
hazard of ground water contamination from sewage to insure survival. Trees that are best suited and have
lagoons. In places recreational development is limited by good survival 'are Rocky Mountain juniper, western
the susceptibility to soil blowing. Capability subclass Me redcedar, ponderosa pine, and Siberian elm. The shrubs
irrigated, IVe nonirrigated; Sandy Plains range site. best suited are skunkbush sumac, lilac, and Siberian
73—Vona loamy sand, 3 to 5 percent slopes. This is a peashrub.
Wildlife is an important secondary use of this soil. The
deep, somewhat excessively drained soil on plains and
cropland areas provide favorable habitat for ring-necked
high terraces at elevations of 4,000 to 5,200 feet. It
formed in eolian or alluvial deposits. Included in mapping pheasant and mourning dove. Many nongame species can
be attracted by establishing areas for nesting and escape
are some leveled areas. Also included are small areas of
cover. For pheasants, undisturbed nesting cover is essen-
soils that have a loamy substratum and some areas of
soils that are nunculcureous to a depth of GO inches. tial and should be included in plans for habitat develop-
ment, especially in areas of intensive agriculture. Range-
Typically the surface layer of this Vona soil is grayish
landwildlife, for example, the pronghorn antelope, can be
brown. The upper 6 inches is loamy sand and the lower 5
attracted by developing livestock watering facilities,
inches is fine sandy loam. The subsoil is brown and light
: +cish brown fine sandy loam about 14 inches thick. managing livestock grazing, and reseeding where needed.
cllo
The substratum to a depth of 60 inches is sandy loam. This soil has good potential for urban and recreational
development. Once established, the lawns, shrubs, and
Permeability is moderately rapid. Available water
. ity is moderae. The effective rooting depth is 60 trees grow well. The primary limiting soil feature is the
/
s or more. :. :ace runoff is slow. and the erosion
,.apid permeability iiithe substratum, which causes a
hazard of ground water contamination from sewage
.rd is low. lagoons. In places recreational development is limited by
This soil is suited to limited cropping. Intensive the susceptibility to soil blowing. Capability subclass IVe
cropping is hazardous because of soil blowing. The irrigated, Vie nonirrigated; Sandy Plains range site.
cropping system should be limited to such close grown 74—Vona loamy sand, 5 to 9 percent slopes. This is a
nips as alfalfa, wheat, and barley. The soil is also suited deep, somewhat excessively drained soil on plains at
irrigated pasture.. . suitable cropping system is 3 to 4 .,leratinns of -IlhrU to 5,200 feet. It formed in eolian
:'ars of alfalfa Hiiowed by 2 years e.ef corn and small ,deposits. Included m mapping are small areas of soils that
_rain and alfalfa seeded with a nurse crop. have a loamy substratum and areas of soils that are non-
Closely spaced contour ditches or sprinklers can be calcareous to a depth of 60 inches.
used in irrigating close grown crops. Contour furrows or Typically the surface layer is grayish brown. The upper
spinklers should be used for new crops. Application of 6 inches is loamy sand and the lower 4 inches is fine
barnyard manure and commercial fertilizer helps to main- sandy loam. The subsoil is brown and light yellowish
trio good production. brown fine sandy loam about 12 inches thick. The sub-
The potential native vegetation on this range site is stratum to a depth of 60 inches is loamy sand.
dominated by sand bluestem, sand reedgrass, and blue Permeability is moderately rapid. Available water
grama. Needleandthread, switchgrass, sideoats grama, capacity is moderate. The effective rooting depth is 60
and western wheatgrass are also prominent. Potential inches or more. Surface runoff is medium, and the erosion
production ranges from 2,200 pounds per acre in favora- hazard is low.
le years to 1,800 pounds in unfavorable years. As range The potential native vegetation on this range site is
condition deteriorates, the sand bluestem, sand reedgrass, dominated by sand bluestem, sand reedgrass, and blue
and switchgrass decrease and blue grama, sand dropseed, grama. Needleandthread, switchgrass, sideoats grama,
and sand sage increase. Annual weeds and grasses invade and western wheatgrass are also prominent. Potential
the site as range condition becomes poorer. production ranges from 2,200 pounds per acre in favora-
Management of vegetation on this soil should be based ble years to 1,800 pounds in unfavorable years. As range
on taking half and leaving half of the total annual produc- condition deteriorates, the sand bluestem, sand reedgrass,
Lion. Seeding is desirable if the range is in poor condition. and switchgrass decrease and blue grama, sand dropseed,
> bluestem, sand reedgrass, switchgrass, sideoats and sand sage increase. Annual weeds and grasses invade
.ta, blue grama, pubescent wheatgrass, and crested the site as range condition becomes poorer.
40 SOIL SURVEY
from 800 pounds per acre in favorable years to 500 production ranges from 1,750 pounds per acre in favora
pounds in unfavorable years. As range condition deteri- ble years to 950 pounds in unfavorable years. As range
orates, the mid grasses decrease and forage production condition deteriorates, the sicleoats grama, little bluestem
drops. Undesirable weeds and annuals invade the site as and sand reedgrass decrease; yucca, sedge, and blue
range condition becomes poorer. grama increase; and forage production drops.
Management of vegetation on the Shingle soil should be Management of vegetation should be based on taking
based on taking half and leaving half of the total annual half or less of the total annual production. Deferred graz
production. Seeding is desirable if the range is in poor ing is practical in improving range condition. Seeding am
condition. Western wheatgrass, blue grama, alkali sacaton, mechanical treatment are impractical.
sideoats grama, little bluestem, pubescent wheatgrass, Windbreaks and environmental plantings are generally
and crested wheatgrass are suitable for seeding. The not suited to this soil. Onsite investigation is needed tt
grass selected should meet the seasonal requirements of determine if plantings are feasible.
livestock. It can be seeded into a dean, firm sorghum Production of vegetation on this treeless soil is lo«
stubble, or it can be drilled into a firm prepared seedbed. especially during drought, when annual production can b.
Seeding early in spring has proven most successful. as low as 300 pounds per acre. Rangeland wildlife, such a
The potential native vegetation on the Renohill soil is antelope and scaled quail, can be attracted by managini
livestock grazing, installing livestock watering facilities
dominated by western wheatgrass and blue grama. Buf-
falograss is also presented. Potential production ranges • and reseeding where needed.
This soil has poor potential for urban development. Th.
from 1,000 pounds per acre in favorable years to 600 chief limiting feature is the shallow depth Co sandstone
pounds in unfavorable years. As range condition deteri-
Capability subclass VIe irrigated, Vie nonirrigated; Sand
orates, a blue grama-buffalograss sod forms. Undesirable
stone Breaks range site.
weeds and annuals invade the site as range condition 62—Terry fine sandy loam, 0 to 3 percent slopes. Thi.
becomes poorer. is a moderately deep, well drained soil on plains at eleva
Management of vegetation on the Renohill soil should tions of 4500 to 5,000 feet. It formed in residuum fron
,
be based on taking half and leaving half of the total an- sandstone. Included in mapping are small areas of soil.
nual production. Range pitting can reduce runoff. Seeding that have sandstone deeper than 40 inches. Also include.
is desirable if the range is in poor condition. Western are small areas of soils that have a subsoil of sandy eta:
/,, wheatgrass, blue grama, sideoats grama, buffalograss, pu- loam and clay loam.
bescent wheatgras,. and crested wheatgrass are suitable Typically the s..r:ace layer of this 'ferry soil is pal
for seeding. The grass selected should meet the seasonal brown fine sandy loam about 6 inches thick. The subsoil i
requirements of livestock. It can be seeded into a clean, pale brown fine sandy loam about 21 inches thick. Th,
firm sorghum stubble, or it can be drilled into a firm substratum is very pale brown fine sandy loam. Sand
prepared seedbed. Seeding early in spring has proven stone is at a depth of about 37 inches.
most successful. Permeability is mode rately rapid. Available Ovate
Rangeland wildlife. such as antelope, cottontail, and capacity is moderate. The effective rooting depth is 20 ti
coyote, are best -,.iced to this unit. Because forage .10 inches. Surface nwfl' is slow, and the erosion hazar
production is typically low, grazing management is needed is low
if livestock and wildlife share the range. Livestock water- This soil is suited to most of the irrigated crops corn
ing facilities also are utilized by various wildlife species. monly grown in the area. The moderate depth restrict.
Capability subclass Vie irrigated, VIe nonirrigated; Shin- some crops. A suitable cropping system is corn, corn for.
gle soil in Shaly Plains range site, Renohill soil in Clayey silage, barley, 3 to -I years of alfalfa, and wheat. This soi
Plains range site. is also well suited to irrigated pasture.
GI—Tassel fine sandy loam, 5 to 20 percent slopes. Furrows or sprinklers can be used in irrigating rov
This is a shallow, well drained soil on upland breaks at crops. Flooding from contour ditches and sprinkling an
elevations of 4,850 to 5,200 feet. It formed in residuum suitable in irrigating close grown crops and pasture. Smal
from sandstone. Included in mapping are small areas of heads of water and short runs reduce the risk of erosion
sandstone outcrop and areas of noncalcareous soils. Production can be maintained by frequent irrigations an
Typically the surface layer of this Tassel soil is light by applications of barnyard manure and commercial fertil
yellowish brown fine sandy loam about 7 inches thick. The izer. Keeping tillage to a minimum and utilizing crol
underlying material is light yellowish brown very fine residue are important.
sandy loam. Sandstone is at a depth of about 11 inches. In nonirrigated areas this soil is suited to winter wheat
Permeability is moderately rapid. Available water barley, and sorghum. Most of the acreage is planted ti
capacity is low. The effective rooting depth is 10 to 20 winter wheat. The predicted average yield is 25 bushel
inches. Surface runoff is medium, and the erosion hazard per acre. The soil is summer fallowed in alternate year
is moderate. to allow moisture accumulation. Generally precipitation is
/'1 The potential native vegetation is dominated by too low for beneficial use of fertilizer.
sideoats grama, little bluestem, blue grama, threadleaf Stubble mulch farming, striperopping, and minimum tit
sedge, sand reedgrass, and needleandthread. Potential lage are needed to control soil blowing and water erosion.
c 7-\
WELD COUNTY, COLORADO, SOUTHERN PART
41
7Th The potential native vegetation on this range site is This soil is suited to limited cropping. Intensive
dominated by sand bluestem, sand reedgrass, and blue cropping is hazardous because of erosion. The cropping
grama. Needleandthread, switchgrass, sideoats grama, system should be limited to such close grown crops as al-
and western wheatgrass are also prominent. Potential falfa, wheat, and barley. The soil is also suited to ir-
production ranges from 2,200 pounds per acre in favora- rigated pasture. A suitable cropping system is 3 to 4
We years to 1,800 pounds in unfavorable years. As range years of alfalfa followed by 2 years of corn and small
condition deteriorates, the sand bluestem, sand reedgrass, grain and alfalfa seeded with a nurse crop.
and switchgrass decrease and blue grama, sand dropseed, Closely spaced contour ditches or sprinklers can be
and sand sage increase. Annual weeds and grasses invade used
i should be ng l used fose r new crops. Contour furrows
of
the site as range condition becomes poorer. P
Management of vegetation on this soil should be based nitrogen and phosphorus help in maintaining good produc-
on taking half and leaving half of the total annual produc- tion.
tion. Seeding is desirable if the range is in poor condition. The potential native vegetation on this range site is
Sand bluestem, sand reedgrass, switchgrass, sideoats dominated by sand bluestem, sand reedgrass, and blue
grama, blue grama, pubescent wheatgrass, and crested grama. Needleandthread, switchgrass, sideoats grama,
wheatgrass are suitable for seeding. The grass selected and western wheatgrass are also prominent. Potential
should meet the seasonal requirements of livestock. It can production ranges from 2,200 pounds per acre in favora-
be seeded into a clean, firm sorghum stubble or it can be ble years to 1,800 pounds in unfavorable years. As range
drilled into a firm prepared seedbed. Seeding early in condition
dds+oncdeteriorates,decrease and blue sand grama,estem, sand
a dreedgr dropseed,
spring has proven most ronsuccessful.
Windbreaks and environmental plantings are generally and sand sage increase. Annual weeds and grasses invade
not suited to this soil. Onsite investigation is needed to the ite as angofe o ditionioecomes n on this orer.
soil should be based
determine if s an important
are feasible.
Wildlife is an important secondary use of this soil. The on taking half and leaving half of the total annual produc-
cropland areas provide favorable habitat for ring-necked tion. Seeding is desirable if the range is in poor condition.
pheasant and mourning dove. Many nongame species can Sand bluestem, sand reedgrass, switchgrass, sideoats
be attracted by establishing areas for nesting and escape grama, blue grama, pubescent wheatgrass, and crested
�,� cover. For pheasants, undisturbed nesting cover is essen- wheatgrass
h old meet the suitabile el mquner ding. Tof he
eligrass selected
I can
ties) and should be included in plans for habitat develop-
ment, especially in areas of intensive :.,riculture. Range- be seeded into a clean, firm sorghum ::,ale, or it can be
land wildlife, for example, the pronghorn antelope, can be drilled into a fire prepared seedbed. ,4reding early in
attracted by developing livestock watering facilities, spring
as provenaks mostisuccaesful plantings are generally
essful.
managing livestock grazing, and reseeding where needed.
The underlying sandstone is the most limiting feature not suited to this soil. Onsite investigation is needed to
of this soil. Neither septic tank absorption fields nor determine
Wildlife isplantings
rtae featc ble. use ul' this soil The
sewage lagoons function properly. Site preparation for
dwellings is costly. Enviornmental .,nd beautification cropland areas provide favorable hahiim for ring-necked
plantings of trees and shrubs can be difficult to establish. pheasant and mourning clove. Many n„',„slue species can
Potential is good, however, for such recreational develop- be attracted by establishing areas for nesting and escape
ment as camp and picnic areas and playgrounds. Capabili- cover. For pheasants, undisturbed nesting cover is essen-
ty subclass IVe irrigated, IVe nonirrigated; Sandy Plains tialme andsshd should
ally be n included
intplansos for habitat develop-
range Rang. This e-
63—Terry can be
f3 moderately ry fine sandy well drained soilconcplains atnt seleva- attracted byfor
eloping the livestocklr twatering antelope,
is i a , deep,
Lions of 4,500 to 5,000 feet. It formed in residuum from managing livestock grazing, and reseeding where needed.
sandstone. Included in mapping are small areas of soils The underlying sandstone is the most limiting feature r are small areastof soils thatthavhane a sandy clay loamu andsewage lagoons 0 inches. Also inclded of this soil. C1function{npropetic rrl'.k aSite hpreparation tion fields nor
clay loam subsoil. dwellings is costly. Environmental and beautification
y
Typpically the surface layer of this Terry soil is pale plantings of trees and shrubs can be difficult CO establish.
brown fine sandy loam about 6 inches thick. The subsoil is Potential is good, however, for such recreational develop-
pale brown fine sandy loam about 18 inches thick. The ment as camp and picnic areas. Capability subclass lVe ir-
substratum is fine sandy loam. Sandstone is at a depth of rigated,, le oni loam,rigd 1 n
♦ Sandy
Plains
age e site.
s. . IS a sloabout 32 inches.
Permeability is moderately rapid. Available water 64
-y deep, well drained soil on plains at elevations
to of ,250 feet.i' \ moderate. Theective ng th is Includdtin5mappngarefs llrlareas in \ofrum soilsfrthat,have
sion hazard is moderate. shale and sandstone deeper than 40 inches.
8 SOIL SURVEY
/ 'N\
filter the leachate. Sewage lagoons require sealing. GO percent of the unit. Aquents, which have a lighter
Lawns, shrubs, and trees row well. Capability subclass colored surface layer, make up about 35 percent. About 5
Its irrigated. percent is Aquepts and Bankard sandy loam.
2—Altvan loam, 1 to 3 percent slopes. This is a deep, These are deep, poorly drained soils that formed in
well drained soil on terraces at elevations of 4,500 to 4,900 recent alluvium. No one pedon is typical. Commonly the
feet. It formed in old alluvium deposited by the major soils have a mottled, mildly alkaline to moderately al-
rivers. Included in mapping are small areas of soils that kaline loamy or clayey surface layer and underlying
show evidence of poor drainage. Also included are small, material and are underlain by sand or sand and gravel
long and narrow areas of sand and ravel deposits. within 48 inches. In places they have a gleyed layer in the
Typically the surface layer of this Altvan soil is grayish underlying material.
brown loam about 10 inches thick. The subsoil is brown Most of the acreage is subject to flooding. The water
and light yellowish brown clay loam and sandy clay loam table is at or near the surface early in spring and recedes
about 14 inches thick. The substratum is calcareous loamy to as deep as 48 inches late in fall in some years.
sand about 5 inches thick over gravelly sand. These soils are used for rangeland and wildlife habitat.
Permeability and available water capacity are Some small areas have been reclaimed by major drainage
moderate. The effective rooting depth is 20 to 40 inches. and leveling and are used for irrigated crops.
Surface runoff is medium, and the erosion hazard is low. The potential native vegetation is dominated by alkali
This soil is used almost entirely for irrigated crops. It sacaton, switchgrass, and western wheatgrass. Saltgrass,
is suited to all crops commonly grown in the area, includ- sedge, rush, and alkali bluegrass are also prominent.
ing corn, sugar beets, beans, alfalfa, small grain, potatoes, Potential production ranges from 3,000 pounds per acre in
and onions. An example of a suitable cropping system is 3 favorable years to 2,000 pounds in unfavorable years. As
to 4 years of alfalfa followed by corn, corn for silage range condition deteriorates, the switchgrass, alkali
sugar beets, small grain, or beans. Land leveling, ditch sacaton, and western wheatgrass decrease and saltgrass,
lining, and installing pipelines may be needed for proper sedge, and rush increase.
water application. Management of vegetation should be based on taking
All methods of irrigation are suitable, but furrow ir- half and leaving half of the total annual production. Seed-
rigation is the most common. Barnyard manure and com- ing is difficult and costly because numerous tillage prac-
r1 mercial fertilizer are needed for top yields. tices are required to eliminate the -ciltgr'ass sod.
Windbreaks and environmental planti;•.> of trees and S+vitchgrass, western wheatgrass, alknk sacaton, tall
shrubs commonly grown in the area are generally well wheatgrass, and tall fescue are suitable for seeding. They
suited to this soil. Cultivation to control competing can be seeded into a clean, firm seedbed. Seedbed
vegetation should be continued for as many years as preparation usually requires more than 1 year to
possible following planting. Trees that are best suited and eliminate the saltgrass sod. A grass drill should he used.
have good survival are Rocky Mountain juniper, eastern Seeding early in spring has proven most successful.
redcedar, ponderosa pine, Siberian elm, Russian-olive, and Wetland wildlife, especially waterfowl, u!i!ire this unit.
hackberry. The shrubs best suited are sl:cnkbush sumac, The wetland plants provide nesting and protective cover,
lilac, Siberian peashrub, and American plum. as well as some food. The nearby irrigated cropland,
This soil can produce habitat elements that are highly where wildlife obtain much of their food and find protec-
tail, n for openland e.lSuc including copspheasant,at, cotton- tive cover, makes this unit valuable to both wetland and
and mourning dove. Such crops as wheat, corn, and enlund wildlife.
alfalfa provide suitable habitat for openland wildlife, o pe Openland wildlife, especially pheasant, use this unit for
especially pheasant. Tree and shrub plantings and cove• and nesting. Deer find peasant. cosec in some
undisturbed nesting cover would enhance openland wil- areas.
o
dlife populations.
This Altvan soil has fair to good potential for urban These valuable wildlife areas should be protected from
and recreational development. The chief limiting soil fea- fire and fenced to prevent encroachment and overuse by
livestock. They should not be drained.
tures for un development s are the sdries
n prten-apid These soils have good potential as a source of sand and
permeability al f the subsoil f sand it wets and
and sus and thme rapid ravel. Capability subclass Viw; Salt Meadow range site.
tank bsp of the ogravel s, butrn places Septic th g 4—Aquolls and Aquepts, flooded. This nearly level
tank absorption fields function properly, but in the
substratum does not contain enough fines to properly map unit is in depressions in smooth plains and along the
filter the leachate. Sewage lagoons require sealing. bottoms of natural drainageways throughout the survey
Lawns, shrubs, and trees grow well. Capability subclass area. Aquolls, which have a dark colored surface layer,
Ile irrigated. make up about 55 percent of the unit. Aquepts. which
/-"%\ 3—Aquolls and Aquents, gravelly substratum. This have a lighter colored surface layer, make up about 25
nearly level map unit is on bottom lands and flood plains percent. About 20 percent is soils that are well drained
of all the major streams in the survey area. Aquolls, and soils that have sandstone or shale within 48 inches of
which have a dark colored surface layer, make up about the surface.
(Th
WELD COUNTY, COLORADO, SOUTHERN PART 9
g'.\ These are deep, poorly drained soils that formed in If summer (allowed in alternate years, this soil is well
recent alluvium. No one pedon is typical. Commonly the suited to winter wheat, barley, and sorghum. Winter
soils have a mottled, mildly to moderately alkaline loamy wheat is the principal crop. The predicted average yield is
or clayey surface layer and underlying material that ex- 33 bushels per acre. If the crop is winterkilled, spring
tends to a depth of 60 inches or more. In places they have wheat can be seeded. Generally precipitation is too lo"
a gleyed layer in the underlying material. for beneficial use of fertilizer.
Most of the acreage is subject to excessive runoff. The Stubble mulch farming, striperopping, and minimum til-
water table is at or near the surface in spring and during lage are needed to control soil blowing and water erosion.
the peak of the irrigation season. Terracing also may be needed to control water erosion.
These soils are used for rangeland and wildlife habitat. The potential native vegetation on this range site is
Some small areas are irrigated pasture. dominated by sand bluestem, sand reedgrass, and blue
The potential native vegetation is dominated by grama. Needleandthread, switchgrass, sideoats grama,
switchgrass, prairie cordgrass, saltgrass, alkali sacaton, and western wheatgrass are also prominent. Potential
big bluestem, indiangrass, western wheatgrass, slender production ranges from 2,200 pounds per acre in favora-
wheatgrass, sedge, and rush. Cattails and bullrush grow ble years to 1,800 pounds in unfavorable years. As range
in the swampy spots associated with these range sites. condition deteriorates, the sand bluestem, sand reedgrass,
Potential production ranges from 4,000 pounds per acre in and switchgrass decrease and blue grama, sand dropseed,
favorable years to 3,000 pounds in unfavorable years. As and sand sage increase. Annual weeds and grasses invade
the site as range condition becomes poorer.
range condition deteriorates, the tall and mid grasses Management of vegetation should be based on taking
decrease, production drops, and saltgrass, sedge, and rush half and leaving half of the total annual production. Seed-
increase. The farming and irrigation in adjacent areas has ing is desirable if the range is in poor condition. Sand
increased the amount of salts on much of the acreage. bluestem, sand reedgrass, switchgrass, sideoats grama,
Management of vegetation on this soil should be based blue grama, pubescent wheatgrass, and crested wheat-
on taking half and leaving half of the total annual produc- grass are suitable for seeding. The grass selected should
Lion. Switchgrass, big bluestem, indiangrass, western meet the seasonal requirements of livestock. It can be
wheatgrass, pubescent wheatgrass, intermediate wheat- seeded into a clean, firm sorghum stubble, or it can be
grass, tall wheatgrass, and tall fescue are suitable for drilled into a firm prepared seedbed. Seeding early in
,i' Ceding. The plants selected should met the seasonal `piing has proven most successful.
,;,uirements of livestock. For successful seeding, a firm Windbreaks and environmental plantings are generally
prepared seedbed is needed. A grass drill should be used. suited to this soil. Soil blowing, the principal hazard in
Seeding early in spring has proven most successful. Tii- establishing trees and shrubs, can be controlled by cul-
lage is needed to eliminate the undesirable vegetation. tivating only in the tree row and by leaving a strip of
Wetland wildlife, especially waterfowl, utilize this unit. vegetation between the rows. Supplemental irrigation
The wetland plants provide nesting and protective cover may be needed at the time of planting and during dry
a, .,ill as some food. The nearby irrigated cropland, perio,ls. Trees that are best suited and have good survival
w:.t•rc wildlife obtain much of their food and find protec- an' Rocky Mountain juniper, eastern redcedar, ponderosa
tilt: cover, makes this unit valuable to both wetland and pine, Siberian elm, Russian-olive, and hackberry. The
openland wildlife. shrubs best suited are skunkbush sumac, lilac, and Siberi-
Openland wildlife, especially pheasant, use this unit for an peashrub.
cover and nesting. Deer find excellent cover in some Wildlife is an important secondary use of this soil. The
areas. These valuable wildlife areas should be protected cropland areas provide favorable habitat for ring-necked
from fire and fenced to prevent encroachment and pheasant and mourning dove. Many nongame species can
overuse by livestock. They should not be drained. Capa- be attracted by establishing areas for nesting and escape
bility subclass VIw; Aquolls in Salt Meadow range site, cover. For pheasants, undisturbed nesting cover is essen-
Aquepts in Wet Meadow range site. tial and should be included in plans for habitat develop-
5—Ascalon sandy loam, 1 to 3 percent slopes. This is ment. Rangeland wildlife, for example, the pronghorn an-
a deep, well drained soil on uplands at elevations of 4,600 [elope, can be attracted by developing livestock watering
to 5,200 feet. It formed in alluvium. Included in mapping facilities, managing livestock grazing, and reseeding
are small areas of rock outcrop. where needed.
Typically the surface layer is brown sandy loam about Few areas of this Ascalon soil are in major growth and
10 inches thick. The subsoil is pale brown and yellowish urbanized centers. The shrink-swell potential of the sub-
brown sandy clay loam about 15 inches thick. The sub- soil as it wets and dries is the most limiting soil feature
stratum to a depth of 60 inches is calcareous fine sandy that must
be considered
subclass Ille nonirrigated;h51
con
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loam. structing roads. Capability
/"1 Permeability is moderate. Available water capacity is Sandy Plains range site.
nigh. The effective rooting depth is 60 inches or more. 6—Ascalon sandy loam, 3 to 5 percent slopes. This is
Surface runoff is slow, and the erosion hazard is low. a deep, well drained soil on uplands at elevations of 4,600
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