Southern Wasatch Range

The Southern Wasatch Range is a phosphorus-phosphates mine located in Utah county, Utah at an elevation of 6,004 feet.

About the MRDS Data:

All mine locations were obtained from the USGS Mineral Resources Data System. The locations and other information in this database have not been verified for accuracy. It should be assumed that all mines are on private property.

Mine Info

Name: Southern Wasatch Range  

State:  Utah

County:  Utah

Elevation: 6,004 Feet (1,830 Meters)

Commodity: Phosphorus-Phosphates

Lat, Long: 40.1669, -111.43330

Map: View on Google Maps

Satelite View

MRDS mine locations are often very general, and in some cases are incorrect. Some mine remains have been covered or removed by modern industrial activity or by development of things like housing. The satellite view offers a quick glimpse as to whether the MRDS location corresponds to visible mine remains.


Satelite image of the Southern Wasatch Range

Southern Wasatch Range MRDS details

Site Name

Primary: Southern Wasatch Range
Secondary: Little Diamond Creek
Secondary: Southern Wasatch Range Combined


Commodity

Primary: Phosphorus-Phosphates
Tertiary: Water, Free
Tertiary: Uranium


Location

State: Utah
County: Utah
District: Western Phosphate


Land Status

Land ownership: Mixed
Note: the land ownership field only identifies whether the area the mine is in is generally on public lands like Forest Service or BLM land, or if it is in an area that is generally private property. It does not definitively identify property status, nor does it indicate claim status or whether an area is open to prospecting. Always respect private property.


Holdings

Type: Federal Lease


Workings

Type: Surface


Ownership

Owner Name: U.S. Government
Percent: 95.00
Home Office: Dist Of Columbia
Info Year: 1980

Owner Name: John M. U'Ren
Percent: 5.00
Home Office: Utah
Info Year: 1980


Production

Year: 1953
Time Period: 1941-1953
Description: Furnace-Grade Intermittent Prod. 1941-53 16225 Short Tons


Deposit

Record Type: Site
Operation Category: Past Producer
Operation Type: Surface
Mining Method: Open Pit
Milling Method: Washing
Year First Production: 1941
Years of Production:
Organization:
Significant: N


Physiography

General Physiographic Area: Rocky Mountain System
Physiographic Province: Middle Rocky Mountains


Mineral Deposit Model

Not available


Orebody

Not available


Structure

Not available


Alterations

Not available


Rocks

Not available


Analytical Data

Not available


Materials

Unknown: Limonite
Unknown: Pyrite
Unknown: Quartz
Unknown: Sphene
Unknown: Tourmaline
Unknown: Zircon
Unknown: Apatite
Unknown: Calcite
Unknown: Dolomite
Unknown: Feldspar
Unknown: Fluorite
Unknown: Gypsum
Unknown: Illite
Unknown: Kaolinite
Unknown: Montmorillonite


Comments

Comment (Reserve-Resource): RESERVE RECORD 1 CONSISTS OF RESOURCES WITHIN 2500 FEET OF VERTICAL DEPTH OVER 1300 FEET OF OUTCROP IN THE VICINITY OF LITTLE DIAMOND CREEK.

Comment (Production): 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.

Comment (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).

Comment (Ownership): PHOSPHATE LANDS MAY BE LEASED FROM THE U.S. GOVERNMENT. CURRENTLY, THERE IS ONE ACTIVE LEASE WITHIN THE AREA INCLUDED IN THIS DEPOSIT. THE PERCENT OWNERSHIP SHOWN IS AN APPROXIMATION BASED ON TOTAL SURFACE EXPOSURE.

Comment (Workings): ABBREVIATION FOR MINING DISTRICT: WEST. PHOSPHATE = WESTERN PHOSPHATE FIELD.

Comment (Reserve-Resource): OTHER NAME: LITTLE DIAMOND CREEK. NOT INCLUDED IN EVALUATION. PROPERTY HAS BEEN SPLIT INTO TWO SEPARATE DEPOSITS FOR SUPPLY ANALYSIS WITH SEQ NOS. 0490490291 AND 0490490292.

Comment (Deposit): THIS MINERALS AVAILABILITY SYSTEM EVALUATION WAS DONE AS PART OF A 1980 STUDY OF UTAH AND WYOMING PHOSPHATE DEPOSITS BY THE INTERMOUNTAIN FIELD OPERATIONS CENTER, DENVER, COLORADO. THE NORTHERN PORTION OF THE DEPOSIT EXTENDS INTO WASATCH COUNTY. DOMAIN - ABOUT 25 PERCENT OF THE OUTCROP AREA IS PRIVATE LAND WITH THE REMAINING AREA SPLIT FAIRLY EQUALLY BE- TWEEN NATIONAL FOREST AND POTENTIALLY UNAVAILABLE ROAD- LESS AREA REVIEW AND EVALUATION (RARE II) LANDS.

Comment (Geology): 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.


References

Reference (Ownership): OWNERSHIP AND PUBLIC MANAGEMENT, WASATCH - F: U.S.

Reference (Ownership): BUR. LAND MANAGEMENT MAP, 1:250,000 SCALE, 1 SHEET.

Reference (Reserve-Resource): REPT. INV. 6934, 158 P.

Reference (Reserve-Resource): PART 4, WYOMING AND UTAH: U.S. BUREAU OF MINES

Reference (Reserve-Resource): THE WESTERN PHOSPHATE INDUSTRY AND ITS RESOURCES -

Reference (Reserve-Resource): COFFMAN, J. S., AND SERVICE, A. L., 1967, AN EVALUATION OF

Reference (Ownership): U.S. BUREAU OF LAND MANAGEMENT, 1973, STATE OF UTAH LAND

Reference (Ownership): SPECIAL REPT. (IN PRESS), TEXT WITH MAPS AND OVERLAYS.

Reference (Geology): VEY CIRC. 211, 48 P.

Reference (Ownership): MONTANA, UTAH, AND WYOMING, 1979: U.S. BUREAU OF MINES

Reference (Geology): PHOSPHORIA FORMATION IN UTAH, 1947-48: U.S. GEOL. SUR-

Reference (Geology): AND STEWART, M. D., 1952, STRATIGRAPHIC SECTIONS OF THE

Reference (Geology): SMITH, L. E., HOSFORD, E. G., SEARS, R. S., SPROUSE, D. P.,

Reference (Geology): PART I: U.S. GEOLOGICAL SURVEY BULL. 690, P. 31-94, PLATE.

Reference (Geology): PHOSPHATE, IN CONTRIBUTIONS TO ECONOMIC GEOLOGY, 1918,

Reference (Geology): MOUNTAINS, NORTHERN UTAH, WITH SPECIAL REFERENCE TO

Reference (Geology): CHENEY, T. M., 1957, PHOSPHATE IN UTAH: UTAH GEOL. AND MIN-

Reference (Geology): GEOL. 10TH ANNUAL FIELD CONF., P. 159-165.

Reference (Geology): AND TECTONICS, IN INTERMOUNTAIN ASSOC. OF PETROLEUM

Reference (Geology): BISSELL, H. J., 1959, NORTH STRAWBERRY VALLEY SEDIMENTATION

Reference (Geology): SURVEY OPEN FILE REPT. 72-9.

Reference (Production): RULE, A. R., KIRBY, D. E., AND DAHLIN, D. C., 1977, RECENT

Reference (Production): CONF.; ORLANDO, FLA., OCT. 23-27, 1979, 11 P.

Reference (Production): FORMATION, PAPER PRESENTED AT ISMA TECHNICAL/ECON.

Reference (Production): PARTIALLY ALTERED PHOSPHATE ROCK OF THE PHOSPHORIA

Reference (Production): FLOTATION OF CARBONATE AND SILICATE MINERALS FROM

Reference (Production): RULE, A. R., DAHLIN, D. C., AND FERGUS, A. J., 1978,

Reference (Production): 1968, P. 11-21.

Reference (Production): U.S. BUREAU OF MINES REPT. INV. 8154, 17 P.

Reference (Production): CALCAREOUS PHOSPHATE ROCK BY CALCINATION AND HYDRATION:

Reference (Production): GOOD, P. C., 1976, BENEFICIATION OF UNWEATHERED INDIAN

Reference (Production): ITALY, APRIL 23-24, 1975, P. 53-54.

Reference (Production): INTERNAT. MINERALS PROCESSING CONGRESS, KAGLIARI,

Reference (Production): FICIATION OF LEAN PHOSPHATE WITH CARBONATE GANGUE, 11TH

Reference (Production): DEPOSIT WITH CALCAREOUS GANGUE, IN SEMINAR ON BENE-

Reference (Production): BENEFICIATION STUDIES ON A HIMALAYAN LEAN PHOSPHATE

Reference (Production): GOKHALE, K. V. G. K., RAO, T. C., AND BISWAS, A. K., 1975,

Reference (Production): METALURSKI ZBORNIK, NO. 2-3, 1970, P. 275-283.

Reference (Production): CALCINATION, THE MATERIAL BALANCE: RUDARSKO -

Reference (Production): EBERL, E., 1970, BENEFICIATION OF CALCIUM PHOSPHATE BY

Reference (Production): UNIV. OF WYO. NAT. RES. RESEARCH INST. BULL. 6, 60 P.

Reference (Production): PHOSPHATE ROCK - CHARACTER, PROCESSING, AND ECONOMICS:

Reference (Production): DUNCAN, W. E., AND FISK, H. G., 1957, CENTRAL WYOMING

Reference (Geology): 1:250,000-SCALE MAP, 1 SHEET.

Reference (Geology): VEY 1:250,000-SCALE MAP, 1 SHEET.

Reference (Geology): 1-DEGREE BY 2-DEGREE TOPOGRAPHIC MAP: U.S. GEOL. SUR-

Reference (Geology): U.S. GEOLOGICAL SURVEY, 1954, SALT LAKE CITY, UTAH; WYOMING,

Reference (Geology): 2-DEGREE TOPOGRAPHIC MAP: U.S. GEOLOGICAL SURVEY,

Reference (Geology): U.S. GEOLOGICAL SURVEY, 1962, PRICE, UTAH, 1-DEGREE BY

Reference (Reserve-Resource): PHOSPHATE RESOURCES AND TECHNOLOGY AND ECONOMICS OF

Reference (Reserve-Resource): DE VOTO, R. H., AND STEVENS, D. N., ED., 1979, URANIFEROUS

Reference (Ownership): FEDERAL LAND STATUS IN THE OVERTHRUST BELT OF IDAHO,

Reference (Ownership): SCHUMACHER, O. L., PENSE, R. A., AND DAVIS, R. B., 1979,

Reference (Geology): TAIN ASSOC. OF GEOL. 15TH ANN. FIELD CONF., P. 99-102.

Reference (Geology): PHOSPHORITES OF THE PHOSPHORIA FORMATION, IN INTERMOUN-

Reference (Geology): 3 PLATES.

Reference (Geology): GULBRANDSEN, R. A., 1967, SOME COMPOSITIONAL FEATURES OF

Reference (Geology): U.S. GEOLOGICAL SURVEY PROF. PAPER 313-A, P. 1-47,

Reference (Geology): SHEDHORN FORMATIONS IN THE WESTERN PHOSPHATE FIELD:

Reference (Geology): MCKELVEY, V. E., 1959, THE PHOSPHORIA, PARK CITY, AND

Reference (Production): ENG., JAN. 1978, P. 37-40.

Reference (Production): ADVANCES IN BENEFICIATION OF WESTERN PHOSPHATES: MIN.

Reference (Geology): 306, 40 P.

Reference (Production): RULE, A. R., KIRBY, D. E., AND DAHLIN, D. C., 1978, RECENT

Reference (Geology): FORMATION IN UTAH, 1949-51: U.S. GEOLOGICAL SURVEY CIRC.

Reference (Geology): M. A., 1953, STRATIGRAPHIC SECTIONS OF THE PHOSPHORIA

Reference (Geology): CHENEY, T. M., SMART, R. A., WARING, R. G., AND WARNER,

Reference (Geology): ERALOG. SURVEY BULL. 59, 54 P., 3 PLATES.

Reference (Geology): ANN. FIELD CONF., P. 178-181.

Reference (Geology): SCHULTZ, A. R., 1919, A GEOLOGIC RECONNAISSANCE OF THE UINTA

Reference (Geology): CLINE, IN INTERMOUNTAIN ASSOC. OF PETROLEUM GEOL. 10TH

Reference (Geology): NEIGHBOR, FRANK, 1959, GEOLOGY OF THE DIAMOND FORK ANTI-

Reference (Production): MO., OCT. 19-21, 1977, 17 P.

Reference (Production): PRESENTED AT S.M.E. FALL MEETING AND EXHIBIT, ST. LOUIS

Reference (Production): ADVANCES IN BENEFICIATION OF WESTERN PHOSPHATES, PAPER

Reference (Production): PHOSPHORUS AND POTASSIUM, NO. 35, MAY/JUNE

Reference (Production): NEUBERGER, R., 1968, PHOSPHATE ROCK CALCINATION IN ISRAEL:

Reference (Geology): CHART OC-30.

Reference (Geology): THE VICINITY OF PROVO, UTAH: U.S. GEOLOGICAL SURVEY PRELIM.

Reference (Geology): BAKER, A. A., 1947, STRATIGRAPHY OF THE WASATCH MOUNTAINS IN

Reference (Reference): FIELD: U.S. GEOLOGICAL SURVEY BULL. 1018, 89 P.

Reference (Reference): BIBLIOGRAPHY OF THE GEOLOGY OF THE WESTERN PHOSPHATE

Reference (Reference): HARRIS, R. A., DAVIDSON, D. F., AND ARNOLD, B. P., 1954,

Reference (Deposit): CONF., 287 P., 3 PLATES.

Reference (Deposit): FIELD: INTERMOUNTAIN ASSOC. OF GEOL. 15TH ANN. FIELD

Reference (Deposit): HALE, L. A., ED., 1967, ANATOMY OF THE WESTERN PHOSPHATE

Reference (Deposit): NO. 50-820, 1102 P.

Reference (Deposit): EASTERN IDAHO: U.S. DEPT. OF AGR. CONTRACT

Reference (Deposit): GARRAND CORPORATION, 1975 (?), PHOSPHATE RESERVES OF SOUTH-

Reference (Deposit): STRATEGIC MINER. INV. PRELIM. MAP 3-198, 1 SHEET.

Reference (Deposit): MONTANA, IDAHO, WYOMING, AND UTAH: U.S. GEOLOGICAL SURVEY

Reference (Deposit): CLABAUGH, P. S., 1946, PERMIAN PHOSPHATE DEPOSITS OF

Reference (Reserve-Resource): STA. BULL. 290, 44 P.

Reference (Reserve-Resource): WILLIAMS, J. S., 1939, PHOSPHATE IN UTAH: UTAH AGR. EXPT.

Reference (Reserve-Resource): P. 195-205.

Reference (Reserve-Resource): OF UTAH: UTAH GEOL. AND MINERALOG. SURVEY BULL. 73,

Reference (Reserve-Resource): GERE, W. C., 1964, PHOSPHATE, IN MINERAL AND WATER RESOURCES

Reference (Reserve-Resource): CORP.) BY EARTH SCIENCES INC., 1396 P. PLUS PLATES.

Reference (Reserve-Resource): OF ENERGY CONTRACT 50-54-5903 (BENDIX FIELD ENG.

Reference (Reserve-Resource): STATES AND FREE WORLD: SUBCONTRACT 78-177-S TO DEPT.

Reference (Reserve-Resource): URANIUM RECOVERY FROM PHOSPHATE RESOURCES, UNITED

Reference (Geology): OF SPANISH FORK PEAK QUADRANGLE, UTAH: U.S. GEOL.

Reference (Geology): BAKER, E. T., JR., 1972, GEOLOGIC MAP OF THE NORTHEAST PART

Reference (Geology): MISC. INV. SER. MAP I-931.

Reference (Geology): STRAWBERRY VALLEY QUADRANGLE, UTAH: U.S. GEOLOGICAL SURVEY

Reference (Geology): BAKER, A. A., 1976, GEOLOGIC MAP OF THE WEST HALF OF THE


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