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This is a publication of the National Cooperative Soil Survey, a joint effort
of the United States Department of Agriculture and agencies of the States,
usually the Agricultural Experiment Stations. In some surveys, other Federal
and local agencies also contribute. The Soil Conservation Service has leader-
ship for the Federal part of the National Cooperative Soil Survey. In line with
Department of Agriculture policies, benefits of this program are available to
all, regardless of race, color, national origin, sex, religion, marital status, or age.
- Major fieldwork for this soil survey was completed in the period 1965-75.
Soil names and descriptions were approved in April 1976. Unless otherwise in-
dicated, statements in the publication refer to conditions in the survey area in
1975. This survey was made cooperatively by the Soil Conservation Service
and the Colorado Agricultural Experiment Station. It is part of the technical
assistance furnished to the Big Thompson, Boulder Valley, Fort Collins, Long-
mont, Platte Valley, Southeast Weld, West Adams, and West Greeley Soil Con-
servation Districts.
Soil maps in this survey may be copied without permission, but any enlarge-
ment of these maps can cause misunderstanding of the detail of mapping and
result in erroneous interpretations. Enlarged maps do not show small areas of
contrasting soils that could have been shown at a larger mapping scale.
Cover:The three main agricultural products of the area.Sugar beets
on Nunn soils,corn on Vona soils,and cattle on Kim soils.
U
970170
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Contents
Page Page
Index to soil map units iv Physical and chemical properties 63
Summary of tables v Soil and water features 64
Foreword vii Classification of the soils 65
General nature of the county 1 Soil series and morphology 66
Settlement of the county 1 Adena series 66
Natural resources 1 Altvan series 66
Farming 2 Ascalon series 66
Climate 2 Bankard series 67
How this survey was made 2 Boel series 67
General soil map for broad land use planning 3 Bresser series 67
1. Midway-Shingle 3 Cascajo series 68
2. Ulm-Nunn 3 Colby series 68
3. Weld-Colby 4 Colombo series 68
4. Wiley-Colby-Weld 4 Dacono series 68
5. Olney-Kim-Otero 4 Fort Collins series 69
6. Otero-Thedalund-Nelson 4 Haverson series 69
7. Tassel-Thedalund-Terry 4 Heldt series 69
8. Valent-Vona-Osgood 5 Julesburg series 70
9. Aquolls-Aquents-Bankard 5 Kim series 70
10. Loup-Boel 5 Loup series 70
11. Nunn-Haverson 5 Midway series 70
12. Nunn-Dacono-Altvan 6 Nelson series 71
13. Julesburg-Bresser 6 Nunn series 71
Broad land use considerations 6 Olney series 71
Soil maps for detailed planning 6 Osgood series 72
Soil descriptions 7 Otero series 72
Use and management of the soils 53 Paoli series 72
Crops and pasture 54 Renohill series 72
Yields per acre 55 Shingle series 73
Capability classes and subclasses 55 Tassel series 73
Rangeland 56 Terry series 73
Windbreaks and environmental plantings 57 Thedalund series 74
Engineering 57 Ulm series 74
Building site development 58 Valent series 74
Sanitary facilities 58 Vona series 74
Construction materials 59 Weld series 75
Water management 60 Wiley series 75
Recreation 60 References 75
Wildlife habitat 61 Glossary 75
Soil properties 62 Illustrations 81
Engineering properties 62 Tables 91
Issued September 1980
iii
30170
46 SOIL SURVEY
Permeability is rapid. Available water capacity is yellowish brown fine sandy loam about 16 inches thick. I
moderate. A water table is at or near the surface ip The substratum to a depth of 60 inches is sandy loam.
spring and about 36 inches below the surface in fall. Sur- Permeability is moderately rapid. Available water
face runoff is slow, and the erosion hazard is low. capacity is moderate. The effective rooting depth is 6Q
This unit is used for rangeland and wildlife habitat. The inches or more. Surface runoff is slow, and the erosion
potential native vegetation on the Valent soil is hazard is low.
dominated by sand reedgrass, sand bluestem, blue and In irrigated areas this soil is suited to the crops corn_
hairy grama, little bluestem, needleandthread, and monly grown in the area. Perennial grasses and alfalfa or
sideoats grama. Potential production ranges from 1,800 close grown crops should be grown at least 50 percent of 1
pounds per acre in favorable years to 1,400 pounds in un- the time. Contour ditches and corrugations can be used in
favorable years. As range condition deteriorates, the sand irrigating close grown crops and pasture. Furrows, con-
bluestem, sand reedgrass, sideoats grama, and little tour furrows, and cross slope furrows are suitable for row
bluestem decrease; sandhill muhly and blowout grass in- crops. Sprinkler irrigation is also desirable. Keeping til-
crease, and forage production drops. "Blowouts" occur as lage to a minimum and utilizing crop residue help to con-
range condition becomes poorer. trol erosion. Maintaining fertility is important. Crops
The native vegetation on the Loup soil is dominated by respond to applications of phosphorus and nitrogen.
switchgrass, little bluestem, sand reedgrass, and western In nonirrigated areas this soil is suited to winter wheat,
wheatgrass. Indiangrass, sand bluestem, prairie cordgrass, barley, and sorghum. Most of the acreage is planted to
slender wheatgrass, alkali sacaton, saltgrass, sedge, and winter wheat. The predicted average yield is 20 bushels
rush are also present. Potential production ranges from per acre. The soil is summer fallowed in alternate years
4,000 pounds per acre in favorable years to 3,000 pounds to allow moisture accumulation. Generally precipitation is
in unfavorable years. As range condition deteriorates, the too low for beneficial use of fertilizer.
switchgrass, sand bluestem, indiangrass, little bluestem, Stubble mulch farming, striperopping, and minimum til-
and prairie cordgrass decrease, and saltgrass, blue grama, lage are needed to control soil blowing and water erosion.
sand dropseed, sedge, and rush increase. Undesirable Terracing also may be needed to control water erosion.
weeds and annuals invade the site as range condition The potential native vegetation on this range site is
becomes poorer. dominated by sand bluestem, sand reedgrass, and blue
Seeding with an interseeder is advisable if the range is grama. Needleandthread, switchgrass, sideoats grams,
in poor condition. Sand reedgrass, sand bluestem, sideoats and western wheatgrass are also prominent. Potential
grama, switchgrass, little bluestem, indiangrass, and blue production ranges from 2,200 pounds per acre in favora-
grama are suitable for seeding. Seeding early in spring ble years to 1,800 pounds in unfavorable years. As range
has proven most successful. Grazing should be light to condition deteriorates, the sand bluestem, sand reedgrass,
prevent range deterioration. and switchgrass decrease and blue grams, sand dropseed,
Wildlife is an important secondary use of this unit. On and sand sage increase. Annual weeds and grasses invade
the Valent soil, rangeland wildlife, for example, the the site as range condition becomes poorer.
pronghorn antelope, can be attracted by developing Management of vegetation on this soil should be based
livestock watering facilities, managing livestock grazing, on taking half and leaving half of the total annual produc-
and reseeding where needed. tion. Seeding is desirable if the range is in poor condition.
The Loup soil, which is typically wet and produces an Sand bluestem, sand reedgrass, switchgrass, sideoats
abundance of wetland vegetation, attracts wetland wil- grama, blue grama, pubescent wheatgrass, and crested
dlife species, such as mallard, teal, geese, and miscellane- wheatgrass are suitable for seeding. The grass selected
ous shorebirds. Primary management of this soil for wet- should meet the seasonal requirements of livestock. It
land wildlife includes managing livestock grazing, fencing should be drilled into a clean, firm sorghum stubble or a
to control livestock, protecting from fire, and preventing prepared seedbed. Seeding early in spring has proven
drainage. Natural wetland vegetation should be allowed most successful.
to develop. Capability subclass VIe irrigated, VIe nonir- Windbreaks and environmental plantings are fairly well
rigated; Valent soil in Choppy Sand Meadow range site, suited to this soil. Blowing sand and low available water
esoil in Sandy Meadow range site. capacity are the principal hazards in establishing trees
Vona loamy sand, 0 to 3 percent slopes. This is a and shrubs. The soil is so loose that trees should be
•eep, somewhat excessively drained soil on plains and planted in shallow furrows and vegetation maintained
high terraces at elevations of 4,600 to 5,200 feet. It between the rows. Supplemental irrigation is needed to
formed in eolian or alluvial deposits. Included in mapping insure survival. Trees that are best suited and have good
are some leveled areas. Also included are small areas of survival are Rocky Mountain juniper, eastern redcedar,
soils that have a loamy substratum and some areas of ponderosa pine, and Siberian elm. The shrubs best suited
soils that are noncalcareous to a depth of 60 inches. are skunkbush sumac, lilac, and Siberian peashrub.
Typically the surface layer of this Vona soil is grayish Wildlife is an important secondary use of this soil. The
brown. The upper 6 inches is loamy sand and the lower 6 cropland areas provide favorable habitat for ring-necked
inches is fine sandy loam. The subsoil is brown and light pheasant and mourning dove. Many nongame species can
WELD COUNTY, COLORADO, SOUTHERN PART 47
he attracted by establishing areas for nesting and escape wheatgrass are suitable for seeding. The grass selected
cover. For pheasants, undisturbed nesting cover is essen- should meet the seasonal requirements of livestock. It can
tial and should be included in plans for habitat develop- be seeded into a clean, firm sorghum stubble, or it can be
ment, especially in areas of intensive agriculture. Range- drilled into a firm prepared seedbed. Seeding early in
land 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
a rapid permeability in the substratum, which causes a between the rows. Supplemental irrigation may be needed
r 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
w the susceptibility to soil blowing. Capability subclass IIIe 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
high terraces at elevations of 4,600 to 5,200 feet. It cropland areas provide favorable habitat for ring-necked
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 tial and should be included in plans for habitat 'develop-
soils that are non eons to a depth of 60 inches. ment, especially in areas of intensive agriculture. Range-
Typically the surface layer of this Vona soil is grayish land wildlife, 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 managing livestock grazing, and reseeding where needed.
yellowish brown (me sandy loam about 14 inches thick. This soil has good potential for urban and recreational
The substratum to a depth of 60 inches is sandy loam. development. Once established, the lawns, shrubs, and
Permeability is moderately rapid. Available water trees grow well. The primary limiting soil feature is the
capacity is moderate. The effective rooting depth is 60 rapid permeability in the substratum, which causes a
inches or more. Surface runoff is slow, and the erosion hazard of ground water contamination from sewage
hazard 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
crops as alfalfa, wheat, and barley. The soil is also suited deep, somewhat excessively drained soil on plains at
to irrigated pasture. A suitable cropping system is 3 to 4 elevations of 4,600 to 5,200 feet. It formed in eolian
years of alfalfa followed by 2 years of corn and small deposits. Included in mapping are small areas of soils that
grain 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
Lain 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.
ble 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, grams. 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,
Sand bluestem, sand reedgrass, switchgrass, sideoats and sand sage increase. Annual weeds and grasses invade
' grama, blue grama, pubescent wheatgrass, and crested the site as range condition becomes poorer.
970170
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PLATTE VALLEY NATURAL RESOURCES 57 W. BROMLEY LANE
SOIL CONSERVATION CONSERVATION BRIGHTON, CO 80601
DISTRICT SERVICE (303) 659-7004
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November 20, 1996
Weld County Planning Dept.
Kerri Keithley
Department of Planning Services DEC 0 6 1996
Weld County Administrative Offices
1400 N. 17th Avenue
Greeley, CO C E IV E D
Greeley, CO 806Av31
Dear Ms . Keithley:
Thank you for referring Western Wireless ' s application for a
Site Specific Development Plan and Special Review Permit, Case
Number USR-1134 , to us for review. After our review of the
application and a site visit by Natural Resources Conservation
Service personnel, we have the following comments :
PRIME FARMLAND
**************
According to the Weld County Soil Survey, Olney fine sandy
loam, 1% to 3% slopes, is prime farmland where irrigated. The
site proposed by Western Wireless is on an irrigated portion of
this soil . Because of the importance of prime farmland as a
natural resource, we recommend that Western Wireless select
another site for development .
LANDSCAPING
***********
Western Wireless indicated a need for landscaping once
construction of their facility is complete . Any water used to
irrigate plantings will have to be pumped, an expense that could
be greatly reduced by xeriscaping instead. A well planned
xeriscape can be as attractive as conventional landscaping.
Reducing acreage covered by thirsty lawns by using drought
tolerant plants can also reduce maintenance costs . I am
including xeriscape materials with this application for the
developer' s use should this alternative be chosen.
Thank you again for giving us the opportunity to comment on
this matter. If you have any questions or need comments on
another application, please contact us at the above address .
Sincerely,
Robert L. Warner
Platte Valley Soil Conservation District
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