Hostname: page-component-cd9895bd7-p9bg8 Total loading time: 0 Render date: 2024-12-23T10:35:24.741Z Has data issue: false hasContentIssue false

Evidence for a Shallow Early or Middle Wisconsin-Age Lake in the Bonneville Basin, Utah

Published online by Cambridge University Press:  20 January 2017

Charles G. Oviatt
Affiliation:
Department of Geology, Kansas State University, Manhattan, Kansas 66506
William D. McCoy
Affiliation:
Department of Geology and Geography, University of Massachusetts, Amherst, Massachusetts 01003
Richard G. Reider
Affiliation:
Department of Geography, University of Wyoming, Laramie, Wyoming 82071

Abstract

Relatively complete stratigraphic records of the Bonneville cycle and of at least one and probably two earlier lacustrine are exposed along the Bear River below Cutler Dam in northern Utah between altitudes of 1290 and 1365 m. In most exposures the unconformity between the Bonneville Alloformation and the underlying unit, herein named the Cutler Dam Alloformation, is marked by slight erosional relief and by a weakly to moderately developed buried soil, herein named the Fielding Geosol. In truncated profiles, the Fielding Geosol reaches a maximum of stage II carbonate morphology. Wood from near the base of the Cutler Dam Alloformation yielded a 14C date of >36,000 yr B.P. (Beta-9845). Alloisoleucine/isoleucine (aIle/Ile) ratios of Sphaerium shells from the Cutler Dam beds average 0.15 ± 0.01 in the total hydrolysate, which is significantly greater than the average for Sphaerium shells of Bonneville age elsewhere in the basin. Therefore, the Cutler Dam Alloformation is older than 36,000 yr B.P., but much younger than deposits of the Little Valley lake cycle (140,000 yr B.P.?) which bear shells having significantly higher aIle/Ile ratios. The Cutler Dam Alloformation along the Bear River may be broadly correlative with marine oxygen-isotope stages 4 or 3. Fine-grained, fossiliferous, marginal-lacustrine facies of the Cutler Dam Alloformation are exposed at altitudes near 1340 m, and are probably the highest exposures of sediments deposited in the early or middle Wisconsin lake in the Bonneville basin.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Arnow, T., (1984). Water-Level and Water-Quality Changes in Great Salt Lake, Utah, 1847–1983 U.S. Geological Survey Circular 913 Google Scholar
Bright, R.C., (1963). Pleistocene Lakes Thatcher and Bonneville, Southeastern Idaho Ph.D. thesis University of Minnesota Minneapolis Google Scholar
Clark, C.U. Lea, P.D., (1986). Reappraisal of early Wisconsin glaciation in North America Geological Society of America Abstracts with Programs 18, 565 Google Scholar
Currey, D.R. Oviatt, C.G., (1985). Durations, average rates, and probable causes of Lake Bonneville expansions, stillstands, and contractions during the last deep-lake cycle, 32,000 to 10,000 years ago Kay, P.A. Diaz, H.F. Problems of and Prospects for Predicting Great Salt Lake Levels: Papers From a Conference Held in Salt Lake City March 26–28, 1985 Center for Public Affairs and Administration, University of Utah 924 Google Scholar
Currey, D.R. Oviatt, C.G. Czarnomski, J.E., (1984). Late Quaternary geology of Lake Bonneville and Lake Waring Utah Geological Association Publication 13 227237 Google Scholar
Currey, D.R. Oviatt, C.G. Plyler, G.B., (1983). Lake Bonneville stratigraphy, geomorphology, and isostatic deformation in west-central Utah Utah Geological and Mineral Survey Special Studies 62 6382 Google Scholar
Feduccia, A. Oviatt, C.G., (1986). A trumpeter swan (Cygnus buccinator) from the Pleistocene of Utah Great Basin Naturalist 46, 547548 Google Scholar
Gile, L.H. Peterson, F.F. Grossman, R.B., (1966). Morphological and genetic sequences of carbonate accumulation in desert soils Soil Science 101, 347360 CrossRefGoogle Scholar
Guthrie, R.L. Witty, J.E., (1982). New designations for soil horizons and layers in the new Soil Survey Manual Soil Science Society of America Journal 46, 443444 Google Scholar
Hunt, C.B. Varnes, H.D. Thomas, H.E., (1953). Lake Bonneville: Geology of northern Utah Valley, Utah U.S. Geological Survey Professional Paper 257-A 199 Google Scholar
Imbrie, J. Imbrie, J.Z., (1980). Modeling the climatic response to orbital variations Science 207, 943951 Google Scholar
Machette, M.N., (1985). Calcic soils of the southwestern United States Weide, D.L. Soils and Quaternary Geology of the Southwestern United States Geological Society of America Special paper 203 121 Google Scholar
McCalpin, J., (1986). Thermoluminescence (TL) dating in seismic hazard evaluations: An example from the Bonneville basin, Utah Proceedings of the 22nd Symposium on Engineering Geology and Soils Engineering Boise, Idaho, February 24–26, 1986 156176 Google Scholar
McCalpin, J. Robison, R. M., and Garr, J. D. (in press). Neotectonics of the Hansel Valley—Pocatello Valley corridor, northern Utah and southern Idaho. In “Evaluation of Urban and Regional Earthquake Hazards and Risk in Utah” (Hays, W. W. and Gori, P. L., Eds.). U.S. Geological Survey Professional Paper.Google Scholar
McCoy, W.D., (1981). Quaternary Aminostratigraphy of the Bonneville and Lahontan basins, Western U.S., with Paleoclimatic Implications Ph.D. dissertation University of Colorado Boulder Google Scholar
McCoy, W.D., (1987). Quaternary aminostratigraphy of the Bonneville basin, western United States Geological Society of America Bulletin 98, 99112 2.0.CO;2>CrossRefGoogle Scholar
Miller, G.H. Brigham, J.K. Clark, P.U., (1982). Alteration of the total aIle/Ile by different methods of sample preparation Miller, G.H. Amino Acid Geochronology Laboratory Report of Current Activities Institute of Arctic and Alpine Research, University of Colorado Boulder 920 Google Scholar
Morrison, R.B., (1965). Lake Bonneville: Quaternary Stratigraphy of Eastern Jordan Valley, South of Salt Lake City, Utah U.S. Geological Survey Professional Paper 477 Google Scholar
Morrison, R.B., (1965). New Evidence on Lake Bonneville Stratigraphy and History from Southern Promontory Point, Utah U.S. Geological Survey Professional Paper 525-C C110C119 Google Scholar
Morrison, R.B., (1966). Predecessors of Great Salt Lake Stokes, W.L. The Great Salt Lake Utah Geological Society Guidebook to the Geology of Utah 20 77104 Google Scholar
Morrison, R.B., (1967). Principles of soil stratigraphy Morrison, R.B. Wright, H.E. Quaternary Soils INQUA Proceedings Vol. 9, VII Congress, Center for Water Resources Research, University of Nevada 169 Google Scholar
Morrison, R.B., (1975). Predecessors of Great Salt Lake Geological Society of America Abstracts with Programs 7, 1206 Google Scholar
North American Commission on Stratigraphic Nomenclature (NACSN) (1983). North American Stratigraphic Code American Association of Petroleum Geologists Bulletin 20, 841875 Google Scholar
Oviatt, C. G. (in press). Lake Bonneville stratigraphy at the Old River Bed, Utah. American Journal of Science .Google Scholar
Oviatt, C.G., (1986). Geologic Map of the Cutler Dam Quadrangle, Box Elder and Cache Counties, Utah Utah Geological and Mineral Survey Map 91 Google Scholar
Oviatt, C.G., (1986). Geologic Map of the Honeyville Quadrangle, Box Elder and Cache Counties, Utah Utah Geological and Mineral Survey Map 89 Google Scholar
Oviatt, C.G. McCoy, W.D. Reider, R.G., (1985). Quaternary lacustrine stratigraphy along the lower Bear River, Utah: Evidence for a shallow early Wisconsin lake in the Bonneville basin Geological Society of America Abstracts with Programs 17, 260 Google Scholar
Pierce, K.L. Obradovich, J.D. Friedman, I., (1976). Obsidian hydration dating and correlation of Bull Lake and Pinedale Glaciations near West Yellowstone, Montana Geological Society of America Bulletin 87, 703710 Google Scholar
Reider, R.G., (1985). Soil formation at the McKean archaeological site, northwestern Wyoming Kornfeld, M. Todd, L.C. McKean/Middle Plains Archaic: Current Research Occasional Papers on Wyoming Archeology Wyoming Recreation Commission Cheyenne 5161 Number 4 Google Scholar
Scott, W.E. McCoy, W.D. Shroba, R.R. Rubin, M., (1983). Reinterpretation of the exposed record of the last two cycles of Lake Bonneville, western United States Quaternary Research 20, 261285 Google Scholar
Shackleton, N.J. Opdyke, N.D., (1973). Oxygen-isotope and paleomagnetic stratigraphy of equatorial Pacific core V28-238: Oxygen-isotope temperatures and ice volumes on a 105 year and 106 year scale Quaternary Research 3, 3955 Google Scholar
Soil Survey Staff (1951). Soil Survey Manual U.S. Department of Agriculture Handbook No. 18 Google Scholar
Spencer, R.J. Baedecker, M.J. Eugster, H.P. Forester, R.M. Goldhaber, M.B. Jones, B.F. Kelts, K. McKenzie, J. Madsen, D.B. Rettig, S.L. Rubin, M. Bowser, C.J., (1984). Great Salt Lake, and precursors, Utah: The last 30,000 years Contributions to Mineralogy and Petrology 86, 321334 Google Scholar
U.S. Geological Survey Surface Water Supply of the United States, 1966–1970 The Great Basin Water-Supply Paper 2127 (1974). Part 10 Google Scholar