Southeast Wind River Range Combined

Prospect in Fremont county in Wyoming, United States with commodities Phosphorus-Phosphates, Uranium, Water, Free
Sections on this page
  1. Identification information
  2. Geographic coordinates
  3. Site location context
  4. Geographic areas
  5. Public Land Survey System information
  6. Commodities
  7. Materials information
  8. Mineral occurrence model information
  9. Nearby scientific data
  10. Ore body information
  11. Economic information about the deposit and operations
  12. Mining district
  13. Mineral rights holdings
  14. Land status
  15. Ownership information
  16. Reserves and resources
  17. Workings at the site
  18. Links to other databases
  19. Bibliographic references
  20. General comments
  21. Reporter information

Geologic information

Identification information

Deposit ID 10254470
MAS/MILS ID 560130879
Record type Deposit
Current site name Southeast Wind River Range Combined
Alternate or previous names So.East Windriver Range Combined, Southeast Wind River Range

Comments on the site names

  • OTHER NAMES:BALDWIN CREEK-CHERRY CREEK, RED CANYON, TWIN CREEK- TWEED CREEK, BEAVER CREEK, SWEETWATER RIVER.

Geographic coordinates

Point of reference Ore Body
Geographic coordinates: -108.75, 42.6667 (WGS84)
Elevation 2680
Location accuracy 10000(meters)

Site location context

Political divisions (FIPS codes)

Fremont(county)

Wyoming(state)

United States(country)

North America(continent)

Land(continent)

USGS map quadrangles

Wolf Point(quadrangle 1:24,000 scale)

Lander(quadrangle 1:100,000 scale)

Lander(quadrangle 1:250,000 scale)

Hydrologic units (watersheds)

Popo Agie(hydrologic unit)

Big Horn(hydrologic accounting unit)

Big Horn(hydrologic subregion)

Missouri(hydrologic region)

Federal lands

Shoshone National Forest(National Forest)

National Forest FS(Type of land area)

FS(Federal land areas administered by FS)

Geographic areas

Country State County
United States Wyoming Fremont

Public Land Survey System information

Meridian Township Range Section Fraction State
6th Principal 031 N 100 W 11 Wyoming

Commodities

Commodity Importance
Phosphorus-Phosphates Primary
Uranium Tertiary
Water, Free Tertiary

Materials information

Materials Type of material
Apatite Unknown
Calcite Unknown
Dolomite Unknown
Feldspar Unknown
Fluorite Unknown
Gypsum Unknown
Illite Unknown
Kaolinite Unknown
Limonite Unknown
Montmorillonite Unknown
Pyrite Unknown
Quartz Unknown
Sphene Unknown
Tourmaline Unknown
Zircon Unknown

Mineral occurrence model information

Model code 243
USGS model code 34c
Deposit model name Phosphate, upwelling type

Nearby scientific data

Ore Body (1) -108.75, 42.6667

Economic information

Ore body information

  • Thickness 60M
    Length 50000M
    Width 50M
    Depth to top 50M
    Field Value
    MAS Matrix # 1
    Type of Orebody #1 SEDIMENTARY
    Shape of Orebody #1 TABULAR
    Primary mode of Origin SEDIMENTATION
    Secondary mode of Origin RESIDUAL CONCENT
    Primary Ore Control LITHOLOGY
    Degree of Wallrock Alter. NONE
    Minimum Depth to Top 0
    Avg. Thick. Unconsol. Mat. 5
    Min. Thick. Unconsol. Mat. 0
    Date of Last Modification 801104
  • Thickness 60M
    Length 50000M
    Width 50M
    Depth to top 50M
    Field Value
    MAS Matrix # 2
    Type of Orebody #1 SEDIMENTARY
    Shape of Orebody #1 TABULAR
    Primary mode of Origin SEDIMENTATION
    Secondary mode of Origin RESIDUAL CONCENT
    Primary Ore Control LITHOLOGY
    Degree of Wallrock Alter. NONE
    Minimum Depth to Top 0
    Avg. Thick. Unconsol. Mat. 5
    Min. Thick. Unconsol. Mat. 0
    Date of Last Modification 801104
  • Thickness 60M
    Length 50000M
    Width 600M
    Depth to top 300M
    Field Value
    MAS Matrix # 3
    Type of Orebody #1 SEDIMENTARY
    Shape of Orebody #1 TABULAR
    Primary mode of Origin SEDIMENTATION
    Primary Ore Control LITHOLOGY
    Degree of Wallrock Alter. NONE
    Minimum Depth to Top 20
    Avg. Thick. Unconsol. Mat. 5
    Min. Thick. Unconsol. Mat. 0
    Date of Last Modification 801104
  • Thickness 60M
    Length 50000M
    Width 6000M
    Depth to top 1000M
    Field Value
    MAS Matrix # 6
    Type of Orebody #1 SEDIMENTARY
    Shape of Orebody #1 TABULAR
    Primary mode of Origin SEDIMENTATION
    Primary Ore Control LITHOLOGY
    Degree of Wallrock Alter. NONE
    Minimum Depth to Top 30
    Avg. Thick. Unconsol. Mat. 100
    Min. Thick. Unconsol. Mat. 0
    Date of Last Modification 801104
  • Thickness 60M
    Length 50000M
    Width 30000M
    Depth to top 2300M
    Field Value
    MAS Matrix # 7
    Type of Orebody #1 SEDIMENTARY
    Shape of Orebody #1 TABULAR
    Primary mode of Origin SEDIMENTATION
    Primary Ore Control LITHOLOGY
    Degree of Wallrock Alter. NONE
    Minimum Depth to Top 1524
    Avg. Thick. Unconsol. Mat. 300
    Min. Thick. Unconsol. Mat. 0
    Date of Last Modification 801104
  • Area 2000HA
    Field Value
    Total Surface Area (HA) 2000
    Date of Last Modification 910418

Comments on the geologic information

  • THE PHOSPHORIA FORMATION IS SUBDIVIDED INTO FIVE MEMBERS BY MCKELVEY (BIBLIOGRAPHY REF. L010), TWO OF WHICH (THE MEADE PEAK AND RETORT MEMBERS) CONTAIN SIGNIFICANT PHOSPHATE DEPOSITS. IN UTAH AND SOUTHWESTERN WYOMING, THE MEADE PEAK MEMBER, AND IN CENTRAL AND NORTHWESTERN WYOMING, THE RETORT MEMBER CONTAIN THE DEPOSITS OF POTENTIAL INTEREST. THE PARK CITY FORMATION OF UTAH AND CENTRAL WYOMING AND THE SHEDHORN SANDSTONE OF NORTHWESTERN WYOMING ARE STRATIGRAPHIC EQUIVALENTS OF AND INTERTONGUE WITH THE PHOSPHORIA FORMATION. THE PHOSPHORIA FORMATION AND EQUIVALENT FORMATIONS ARE UNDERLAIN BY EITHER THE TENSLEEP SANDSTONE, WEBER QUARTZITE, WELLS FORMATION, OR DIAMOND CREEK SANDSTONE AND ARE OVERLAIN BY EITHER THE WOODSIDE OR DINWOODY FORMATIONS.

Economic information about the deposit and operations

Operation type Surface-Underground
Development status Prospect
Commodity type Non-metallic
Significant No
Mining method Open Stope - Room and Pillar
Milling method Flotation

Mining district

District name Western Phosphate

Mineral rights holdings

Type of mineral rights Other
Type of mineral rights Federal Lease
Type of mineral rights State Lease

Land status

Ownership category Mixed

Ownership information

  • Type Owner
    Owner U.S. Government
    Interest 67
    Home office Dist Of Columbia
    Year 1979
  • Type Owner
    Owner State Of Wyoming
    Interest 30
    Home office Wyoming
    Year 1979

Comments on the ownership information

  • PHOSPHATE LEASES MAY BE OBTAINED FROM THE FEDERAL GOVERNMENT, THE STATE OF WYOMING, OR BY ARRANGEMENT WITH THE TRIBAL COUNCIL OF THE WIND RIVER INDIAN RESERVATION. CURRENTLY, THERE ARE NO ACTIVE STATE OR FEDERAL PROSPECTING PERMITS OR LEASES IN THE AREA, ALTHOUGH SEVERAL WERE ISSUED IN THE PAST, MOSTLY TO SUSQUEHANNA-WESTERN, INC. OWNERSHIP PERCENTAGES GIVEN ARE APPROXIMATE.

Comments on the production information

  • EXACT RECOVERY USED FOR CALCULATING PRODUCT H OUTPUT IN DEVELOPMENT SCHEDULE 2 IS 82.5 PERCENT.
  • PRODUCTS A,B,C,D, AND E, WHERE PROPOSED IN THIS EVALUATION, ARE ACID GRADE PRODUCTS, AND PRODUCTS F,G,H,I, AND J, ARE FURNACE GRADE PRODUCTS. NOT ALL OF THESE PRODUCTS ARE USED IN THIS EVALUATION.

Reserves and resources

  • Type In-situ
    Estimate year 1963
    Inferred 54600000mt ore
    Total resources 54600000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1963
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1963
  • Type In-situ
    Estimate year 1963
    Inferred 236300000mt ore
    Total resources 236300000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1963
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1963
  • Type In-situ
    Estimate year 1963
    Inferred 129700000mt ore
    Total resources 129700000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1963
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1963
  • Type In-situ
    Estimate year 1947
    Total resources 54900000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1947
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1947
  • Type In-situ
    Estimate year 1947
    Total resources 14500000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1947
    Phosphorus-Phosphates P2O5 24 wt-pct Phosphorus Major 1947
  • Type In-situ
    Estimate year 1967
    Total resources 20200000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1967
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1967
  • Type In-situ
    Estimate year 1967
    Total resources 18400000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1967
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1967
  • Type In-situ
    Estimate year 1967
    Total resources 13900000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1967
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1967
  • Type In-situ
    Estimate year 1967
    Total resources 22700000mt ore
    Commodity Subtype Grade units Group Importance Year
    Water, Free H2o 0 wt-pct Water, Free Trace 1967
    Phosphorus-Phosphates P2O5 18 wt-pct Phosphorus Major 1967

Comments on the reserve resource information

  • RESERVE RECORD 1 CONTAINS ABOVE ENTRY LEVEL RESOURCES IN THE MIDDLE POPO AGIE RIVER AND BALDWIN CREEK AREAS. RESERVE RECORD 2 CONTAINS ABOVE ENTRY LEVEL RESOURCES IN THE WILLOW CREEK AREA PLUS ADJACENT AREA NORTH OF CHERRY CREEK. RESERVE RECORD 3 INCLUDES ABOVE ENTRY LEVEL RESOURCES IN THE DEEP CREEK, TWEED CREEK, AND BEAVER CREEK AREAS, PLUS THE SOUTHERN TWO-THIRDS OF THE CHERRY CREEK AREA. RESERVE RECORDS 4 AND 5 CONSIST OF ABOVE ENTRY LEVEL RESOURCES IN THE AREA FROM CHERRY CREEK TO BALDWIN CREEK (INCLUDES THE MIDDLE POPO AGIE RIVER AND WILLOW CREEK AREAS). RESERVE RECORD 6 CONTAINS ABOVE ENTRY LEVEL RESOURCES IN THE MACFIE BLOCK AREA BETWEEN CHERRY CREEK AND LITTLE POPO AGIE RIVER. RESERVE RECORD 7 CONTAINS ABOVE ENTRY LEVEL RESOURCES BETWEEN TWIN CREEK AND TWEED CREEK. RESERVE RECORD 8 CONSISTS OF ABOVE DRAINAGE LEVEL RESOURCES BETWEEN TWEED CREEK AND BEAVER CREEK. RESERVE RECORD 9 CONSISTS OF ABOVE DRAINAGE LEVEL RESOURCES IN THE SWEETWATER RIVER AREA.
  • PROPERTY HAS BEEN SPLIT INTO 3 SEPARATE DEPOSITS FOR SUPPLY ANALYSIS UNDER SEQUENCE # 0560131252, 0560131253, AND 0560131254. SEE THESE PROPERTY FILES FOR SPECIFIC DATA.

Workings at the site

  • Type of workings Surface
    Area 300HA
    Field Value
    MAS Development Schedule # 1
    Mining Record # 1
    Status of Mining Method PROPOSED
    Mining Method OPEN PIT
    Swell Factor .67
    Percent Waste Rock 82
    Avg. Overburden Thickness 5
    Primary Material Cover SAND, GRAVEL
    Percentage 100
    Hardness of Ore M-HARD ROCKS
    Avg. Bench Height (meters) 10
    Max. Pit Slope (degrees) 45
    Capacity 4000
    Capacity Units MT ORE/DAY
    Unit Production Cost 5.37
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 3
  • Type of workings Surface
    Area 300HA
    Field Value
    MAS Development Schedule # 1
    Mining Record # 2
    Status of Mining Method PROPOSED
    Mining Method OPEN PIT
    Swell Factor .67
    Percent Waste Rock 82
    Avg. Overburden Thickness 5
    Primary Material Cover SAND, GRAVEL
    Percentage 100
    Hardness of Ore M-HARD ROCKS
    Avg. Bench Height (meters) 10
    Max. Pit Slope (degrees) 45
    Capacity 4000
    Capacity Units MT ORE/DAY
    Unit Production Cost 5.37
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 3
  • Type of workings Surface
    Area 300HA
    Field Value
    MAS Development Schedule # 2
    Mining Record # 1
    Status of Mining Method PROPOSED
    Mining Method OPEN PIT
    Swell Factor .67
    Percent Waste Rock 82
    Avg. Overburden Thickness 5
    Primary Material Cover SAND, GRAVEL
    Percentage 100
    Hardness of Ore M-HARD ROCKS
    Avg. Bench Height (meters) 10
    Max. Pit Slope (degrees) 45
    Capacity 4000
    Capacity Units MT ORE/DAY
    Unit Production Cost 8.57
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 3
  • Type of workings Surface
    Area 300HA
    Field Value
    MAS Development Schedule # 2
    Mining Record # 2
    Status of Mining Method PROPOSED
    Mining Method OPEN PIT
    Swell Factor .67
    Percent Waste Rock 82
    Avg. Overburden Thickness 5
    Primary Material Cover SAND, GRAVEL
    Percentage 100
    Hardness of Ore M-HARD ROCKS
    Avg. Bench Height (meters) 10
    Max. Pit Slope (degrees) 45
    Capacity 4000
    Capacity Units MT ORE/DAY
    Unit Production Cost 8.57
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 3
  • Type of workings Underground
    Length 7300M
    Overall depth 100M
    Field Value
    MAS Development Schedule # 1
    Mining Record # 3
    Status of Mining Method PROPOSED
    Mining Method ROOM AND PILLAR 10-34
    Swell Factor .67
    Percent Waste Rock 0
    Percent Recovery 88
    Hardness of Rock SOFT NONPLASTIC WITH LITTLE WATER
    Rock Characteristics ONE SYSTEM OF WEAKNESS PLANES
    Rock Support Chars. SUPPORTING
    Mine Support Chars. POST, HEADBOARD, CAPS, ROOF BOLTS
    Number of Shafts 1
    Length of Inclines (m) 0
    Avg. Length of Adits (m) 1000
    Number of Adits 1
    Capacity 1000
    Capacity Units MT ORE/DAY
    Unit Production Cost 8.27
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 2
  • Type of workings Underground
    Length 7300M
    Overall depth 100M
    Field Value
    MAS Development Schedule # 2
    Mining Record # 3
    Status of Mining Method PROPOSED
    Mining Method ROOM AND PILLAR 10-34
    Swell Factor .67
    Percent Waste Rock 0
    Percent Recovery 56
    Hardness of Rock SOFT NONPLASTIC WITH LITTLE WATER
    Rock Characteristics ONE SYSTEM OF WEAKNESS PLANES
    Rock Support Chars. UNSUPPORTING NO FLOW
    Mine Support Chars. TIMBER
    Number of Shafts 1
    Length of Inclines (m) 0
    Avg. Length of Adits (m) 1000
    Number of Adits 1
    Capacity 1000
    Capacity Units MT ORE/DAY
    Unit Production Cost 9.98
    Units of Production $/MT ORE
    Operating Days per Year 250
    Operating Shifts per Day 2

Comments on the workings information

  • ABBREVIATION FOR MINING DISTRICT: WEST. PHOSPHATE = WESTERN PHOSPHATE FIELD.

Comments on other economic factors

  • Mining and beneficiation costs for each proposed operation were obtained by applying one of 34 basic mine models and 5 basic mill models developed for evaluating Utah and Wyoming phosphate deposits. Site-specific cost adjustments were made for land acquisition, infrastructure, unusual haulage distance to mill, the presence of multiple beds requiring mining of waste, and mill feed grade and recovery. All costs are in January 1980 dollars. The schedule of costs is based on the assumption that each proposed operation will be independently developed as soon as technically possible after the official January 1979 base date for the current phosphate study. Thus, land acquisition, exploration, and infrastructure capital costs are assumed to begin in 1979. Mine and mill capital costs include a contingency allowance of 15 percent of all other capital costs except working capital. Mine and mill working capital is estimated at 60 days of operating cost. A Bureau costing manual (bibliography data set ref. I030) was used to estimate surface and underground mine exploration, development, reclamation, plant, and equipment capital costs; underground mine operating costs; capital and operating costs for the calcining-hydration mill (if used) and for the flotation sections of other mills; costs of transporting products from proposed mills to existing final processing plants; and access road construction cost. Surface mine operating costs are size-scaled, using scaling factors from Bennett (bibliography data set ref. I001), and others (U.S. office of audit and investigation) for Idaho phosphate mines in 1976 and 1977. Infrastructure capital costs assigned to each proposed mine consist of only those railroad, transmission line, and access road costs which are needed for development of each mine. Railroad cost is estimated by the Richardson rapid construction cost estimating system (bibliography data set ref. I020). Transmission line cost is estimated from typical industry costs (A.W. Watts, 1980, Water and Power Resources Services, personal communication). Access road costs are estimated by using the capital and operating cost estimating handbook (bibliography data set ref. I030). Land acquisition costs are based on typical competitive bids for leases in southeastern Idaho, adjusted for specific deposit grade and thickness. Lease rentals and royalties are based on current rates for federal leases in the western phosphate field. Capital and operating costs for all mills, excepting the calcination-hydration mill (if used) and flotation sections of other mills, are size-scaled, using scaling factors from Bennett (bibliography data set ref. I001), from costs given for a sizing and calcining mill described by de Voto, et al. (bibliography data set ref. R030), vol. 2, appendix d. Site-specific cost adjustments for mill feed grade and recovery are made, using relative cost factors calculated from average cost and recovery curves for altered and unaltered ores (bibliography data set ref. I010).

Reference information

Bibliographic references

  • Production

    DUNCAN, W. E., AND FISK, H. G., 1957, CENTRAL WYOMING PHOSPHATE ROCK - CHARACTER, PROCESSING, AND ECONOMICS: UNIV. OF WYO. NAT. RES. RESEARCH INST. BULL. 6, 60 P.

  • Reference

    HARRIS, R. A., DAVIDSON, D. F., AND ARNOLD, B. P., 1954, BIBLIOGRAPHY OF THE GEOLOGY OF THE WESTERN PHOSPHATE FIELD: U.S. GEOLOGICAL SURVEY BULL. 1018, 89 P.

  • Ownership

    U.S. BUREAU OF LAND MANAGEMENT, 1978, STATE OF WYOMING LAND STATUS: U.S. BUR. OF LAND MANAGEMENT MAP, 1:500,000-SCALE, 1 SHEET.

  • Reserve-Resource

    COFFMAN, J. S., AND SERVICE, A. L., 1967, AN EVALUATION OF THE WESTERN PHOSPHATE INDUSTRY AND ITS RESOURCES - PART 4, WYOMING AND UTAH: U.S. BUREAU OF MINES REPT. INV. 6934, 158 P.

  • Deposit

    CLABAUGH, P. S., 1946, PERMIAN PHOSPHATE DEPOSITS OF MONTANA, IDAHO, WYOMING, AND UTAH: U.S. GEOLOGICAL SURVEY STRATEGIC MINER. INV. PRELIM. MAP 3-198, 1 SHEET.

  • Production

    EBERL, E., 1970, BENEFICIATION OF CALCIUM PHOSPHATE BY CALCINATION, THE MATERIAL BALANCE: RUDARSKO - METALURSKI ZBORNIK, NO. 2-3, 1970, P. 275-283.

  • Deposit

    GARRAND CORPORATION, 1975 (?), PHOSPHATE RESERVES OF SOUTHEASTERN IDAHO: U.S. DEPT. OF AGR. CONTRACT NO. 50-820, 1102 P.

  • Reserve-Resource

    DE VOTO, R. H., AND STEVENS, D. N., ED., 1979, URANIFEROUS PHOSPHATE RESOURCES AND TECHNOLOGY AND ECONOMICS OF URANIUM RECOVERY FROM PHOSPHATE RESOURCES, UNITED STATES AND FREE WORLD: SUBCONTRACT 78-177-S TO DEPT. OF ENERGY CONTRACT 50-54-5903 (BENDIX FIELD ENG. CORP.) BY EARTH SCIENCES INC., 1396 P. PLUS PLATES.

  • Production

    GOKHALE, K. V. G. K., RAO, T. C., AND BISWAS, A. K., 1975, BENEFICIATION STUDIES ON A HIMALAYAN LEAN PHOSPHATE DEPOSIT WITH CALCAREOUS GANGUE, IN SEMINAR ON BENEFICIATION OF LEAN PHOSPHATE WITH CARBONATE GANGUE, 11TH INTERNAT. MINERALS PROCESSING CONGRESS, KAGLIARI, ITALY, APRIL 23-24, 1975, P. 53-54.

  • Deposit

    HALE, L. A., ED., 1967, ANATOMY OF THE WESTERN PHOSPHATE FIELD: INTERMOUNTAIN ASSOC. OF GEOL. 15TH ANN. FIELD CONF., 287 P., 3 PLATES.

  • Reserve-Resource

    KING, R. H., 1947, PHOSPHATE DEPOSITS NEAR LANDER, WYOMING: GEOLOGICAL SURVEY OF WYO. BULL. 39, 84 P., 3 PLATES.

  • Geology

    BAYLEY, R. W., 1965, GEOLOGIC MAP OF THE MINERS DELIGHT QUADRANGLE, FREMONT COUNTY, WYOMING: U.S. GEOLOGICAL SURVEY GEOL. QUADRANGLE MAP GQ-460.

  • Production

    GOOD, P. C., 1976, BENEFICIATION OF UNWEATHERED INDIAN CALCAREOUS PHOSPHATE ROCK BY CALCINATION AND HYDRATION: U.S. BUREAU OF MINES REPT. INV. 8154, 17 P.

  • Reserve-Resource

    ROHRER, W. L., 1973, GEOLOGIC MAP OF THE PHOSPHATE RESERVE IN THE LANDER AREA, FREMONT COUNTY, WYOMING: U.S. GEOL SURVEY MIN. INV. FIELD STUDIES MAP MF-305, 1 SHEET PLUS 4 P. TEXT.

  • Production

    NEUBERGER, R., 1968, PHOSPHATE ROCK CALCINATION IN ISRAEL: PHOSPHORUS AND POTASSIUM, NO. 35, MAY/JUNE 1968, P. 11-21.

  • Reserve-Resource

    SHELDON, R. P., 1963, PHYSICAL STRATIGRAPHY AND MINERAL RESOURCES OF PERMIAN ROCKS IN WESTERN WYOMING: U.S. GEOLOGICAL SURVEY PROF. PAPER 313-B, P. 49-273, PLATES.

  • Deposit

    Spangenberg, D.R., Carey, E.F., and Takosky, P.M., 1983, Minerals availability commodity directory on phosphate: U.S. Bureau of Mines Information Circular IC-8926, 678 p.

  • Production

    RULE, A. R., DAHLIN, D. C., AND FERGUS, A. J., 1978, FLOTATION OF CARBONATE AND SILICATE MINERALS FROM PARTIALLY ALTERED PHOSPHATE ROCK OF THE PHOSPHORIA FORMATION, PAPER PRESENTED AT ISMA TECHNICAL/ECON. CONF.; ORLANDO, FLA., OCT. 23-27, 1979, 11 P.

  • Production

    RULE, A. R., KIRBY, D. E., AND DAHLIN, D. C., 1977, RECENT ADVANCES IN BENEFICIATION OF WESTERN PHOSPHATES, PAPER PRESENTED AT S.M.E. FALL MEETING AND EXHIBIT, ST. LOUIS MO., OCT. 19-21, 1977, 17 P.

  • Geology

    BLACKWELDER, ELIOT, 1911, A RECONNAISSANCE OF THE PHOSPHATE DEPOSITS OF WESTERN WYOMING, IN U.S. GEOLOGICAL SURVEY BULL. 470, P. 452-483.

  • Production

    RULE, A. R., KIRBY, D. E., AND DAHLIN, D. C., 1978, RECENT ADVANCES IN BENEFICIATION OF WESTERN PHOSPHATES: MIN. ENG., JAN. 1978, P. 37-40.

  • Geology

    CONDIT, D. D., 1924, PHOSPHATE DEPOSITS IN THE WIND RIVER MOUNTAINS, NEAR LANDER, WYOMING: U.S. GEOLOGICAL SURVEY BULL. 764, 39 P.

  • Geology

    KING, R. H., 1957, STRATIGRAPHY OF THE PHOSPHORIA FORMATION IN THE WIND RIVER MOUNTAINS, IN WYO. GEOL. ASSOC. GUIDEBOOK, 12TH ANN. FIELD CONF., P. 35-38.

  • Geology

    KING, W. H., AND SCHUMACHER, J. L., 1949, INVESTIGATION OF THE LANDER PHOSPHATE ROCK DEPOSITS, FREMONT COUNTY, WYOMING: U.S. BUREAU OF MINES REPT. INV. 4437, 12 P.

  • Geology

    LANE, D. W., 1973, THE PHOSPHORIA AND GOOSE EGG FORMATIONS IN WYOMING: GEOLOGICAL SURVEY OF WYO., PRELIM. REPT. 12, 24 P.

  • Geology

    SHELDON, R. P., WARING, R. G., WARNER, M. A., SMART, R. A., 1953, STRATIGRAPHIC SECTIONS OF THE PHOSPHORIA FORMATION IN WYOMING, 1949-50: U.S. GEOL. SURVEY CIRC. 307, 45 P.

  • Geology

    U.S. GEOLOGICAL SURVEY, 1960, MINERAL AND WATER RESOURCES OF WYOMING: U.S. CONGRESS - SENATE, DOC. 76, P.14-16, 145-147.

  • Geology

    U.S. GEOLOGICAL SURVEY, 1961, LANDER, WYOMING, 1-DEGREE BY 2-DEGREE TOPOGRAPHIC MAP: U.S. GEOLOGICAL SURVEY, 1:250,000-SCALE MAP, 1 SHEET.

  • Geology

    MCKELVEY, V. E., 1959, THE PHOSPHORIA, PARK CITY, AND SHEDHORN FORMATIONS IN THE WESTERN PHOSPHATE FIELD: U.S. GEOLOGICAL SURVEY PROF. PAPER 313-A, P. 1-47, 3 PLATES.

  • Geology

    GULBRANDSEN, R. A., 1967, SOME COMPOSITIONAL FEATURES OF PHOSPHORITES OF THE PHOSPHORIA FORMATION, IN INTERMOUNTAIN ASSOC. OF GEOL. 15TH ANN. FIELD CONF., P. 99-102.

General comments

Subject category Comment text
Deposit DOMAIN - THE OUTCROP AREA IS DIVIDED FAIRLY EQUALLY BETWEEN PRIVATE LANDS, U.S. BUREAU OF LAND MANAGEMENT LANDS, AND STATE OF WYOMING LANDS, WITH A SMALL AREA (LESS THAN 5 PERCENT) DIVIDED BETWEEN NATIONAL FOREST LANDS AND WIND RIVER INDIAN RESERVATION LANDS. MINERAL HOLDINGS - ALL MINERAL RIGHTS ARE HELD BY THE FEDERAL GOVERNMENT, THE STATE OF WYOMING, OR BY THE WIND RIVER INDIAN RESERVATION TRIBAL COUNCIL.

Reporter information

Type Date Name Affiliation Comment
Reporter 1996-10-11 B,D,D,S,Ww U.S. Bureau of Mines
Editor 2010-02-11 Wilson, Anna B. U.S. Geological Survey
Updater 2010-12-15 Causey, J. Douglas U.S. Geological Survey Added Model

Beyond USGS

Supplemental information added by qvyshift.com. Not part of the original USGS MRDS record.