Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-19T06:43:01.116Z Has data issue: false hasContentIssue false
  • English
  • Français

Highest Pluvial-Lake Shorelines and Pleistocene Climate of the Western Great Basin

Published online by Cambridge University Press:  20 January 2017

Marith Reheis
Marith Reheis*
Affiliation:
U.S. Geological Survey, MS-980, Federal Center, Box 25046, Denver, Colorado, 80225
Get access Rights & Permissions [Opens in a new window]

Abstract

Shoreline altitudes of several pluvial lakes in the western Great Basin of North America record successively smaller lakes from the early to the late Pleistocene. This decrease in lake size indicates a long-term drying trend in the regional climate that is not seen in global marine oxygen-isotope records. At +70 m above its late Pleistocene shoreline, Lake Lahontan in the early middle Pleistocene submerged some basins previously thought to have been isolated. Other basins known to contain records of older pluvial lakes that exceeded late Pleistocene levels include Columbus-Fish Lake (Lake Columbus-Rennie), Kobeh-Diamond (Lakes Jonathan and Diamond), Newark, Long (Lake Hubbs), and Clover. Very high stands of some of these lakes probably triggered overflows of previously internally drained basins, adding to the size of Lake Lahontan. Simple calculations based on differences in lake area suggest that the highest levels of these pluvial lakes required a regional increase in effective moisture by a factor of 1.2 to 3 relative to late Pleistocene pluvial amounts (assuming that effective moisture is directly proportional to the hydrologic index, or lake area/tributary basin area). These previously unknown lake levels reflect significant changes in climate, tectonics, and (or) drainage-basin configurations, and could have facilitated migration of aquatic species in the Great Basin.

Type
Research Article
Information
Quaternary Research , Volume 52 , Issue 2 , September 1999 , pp. 196 - 205
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

Adams, K.D., Wesnousky, S.G. (1996). Soil development, spatial variability and the age of the highest late Pleistocene Lake Lahontan shorelines, western Nevada and northeastern California, Appendix 2. Adams, K.D., Fontaine, S.A. Quaternary History, Isostatic Rebound and Active Faulting in the Lake Lahontan Basin, Nevada and California: Friends of the Pleistocene, Pacific Cell, 1996 Fall Field Trip.Google Scholar
Adams, K.D., Wesnousky, S.G. (1998). Shoreline processes and the age of the Lake Lahontan highstand in the Jessup embayment, Nevada. Geological Society of America Bulletin. 110, 13181332.2.3.CO;2>CrossRefGoogle Scholar
Benson, L.V., Paillet, F.L. (1989). The use of total lake-surface area as an indicator of climatic change: Examples from the Lahontan basin. Quaternary Research. 32, 262275.CrossRefGoogle Scholar
Benson, L.V., Currey, D.R., Dorn, R.I., Lajoie, K.R., Oviatt, C.G., Robinson, S.W., Smith, G.I., Stine, S. (1990). Chronology of expansion and contraction of four Great Basin lake systems during the past 35,000 year. Palaeogeography, Palaeoclimatology, Palaeocology. 78, 241286.CrossRefGoogle Scholar
Bradbury, J.P. (1991). The late Cenozoic diatom stratigraphy and paleolimnology of Tule Lake, Siskiyou Co. California. Journal of Paleolimnology. 6, 205255.Google Scholar
Cande, S.C., Kent, D.V. (1995). Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. Journal of Geophysical Research. 100, 60936095.Google Scholar
Clark, D.H., Bierman, P.R., Larsen, P. (1995). Improving in situ cosmogenic chronometers. Quaternary Research. 44, 367377.Google Scholar
Currey, D.R. (1990). Quaternary palaeolakes in the evolution of semidesert basins, with special emphasis on Lake Bonneville and the Great Basin, U.S.A. Palaeogeography, Palaeoclimatology, Palaeoecology. 76, 189214.Google Scholar
Davis, J.O. (1987). Tephrochronology of middle Pleistocene lake sediments in Kobeh Valley, Nevada: Implications for neotectonics and drainage history of the central Great Basin. Geological Society of America Abstracts with Programs. 19, 370.Google Scholar
Demsey, K. (1987). Holocene Faulting and Tectonic Geomorphology along the Wassuk Range, West-Central Nevada. University of Arizona, Tucson.Google Scholar
Eardley, A.J., Shuey, R.T., Gvosdetsky, V., Nash, W.P., Picard, M.D., Grey, D.C., Kukla, G.J. (1973). Lake cycles in the Bonneville Basin, Utah. Geological Society of America Bulletin. 84, 211216.Google Scholar
Hay, R.L., Pexton, R.E., Teague, T.T., Kyser, T.K. (1986). Spring-related carbonate rocks, Mg clays, and associated minerals in Pliocene deposits of the Amargosa Desert, Nevada and California. Geological Society of America Bulletin. 97, 14881503.2.0.CO;2>CrossRefGoogle Scholar
Hershler, R and Sada, D. W. in press, Biogeography of Great Basin freshwater snails of the genus Pyrgulopsis. In, Great Basin Aquatic Systems History, ( Currey, D. Hershler, R. and Madsen, D. Eds.), Smithsonian Institution, Washington, DC.Google Scholar
Hostetler, S., Benson, L.V. (1990). Paleoclimatic implications of the high stand of Lake Lahontan derived from models of evaporation and lake level. Climate Dynamics. 4, 207217.CrossRefGoogle Scholar
Hubbs, C.L., Miller, R.R. (1948). The Great Basin. II. The zoological evidence. University of Utah Bulletin. 38, 17166.Google Scholar
Hubbs, C.L., Miller, R.R., Hubbs, L.C. (1974). Hydrographic history and relict fishes of the north-central Great Basin. California Academy of Sciences Memoir. 7, .Google Scholar
Huber, N.K. (1981). Amount and timing of late Cenozoic uplift and tilt of the Sierra Nevada, California—Evidence from the upper San Joaquin River basin. U.S. Geological Survey Professional Paper. 1197, .Google Scholar
Imbrie, J., Imbrie, J.Z. (1980). Modeling the climatic response to orbital variations. Science. 207, 943953.Google Scholar
Imbrie, J, Berger, A, Boyle, E. A, Clemens, S. C, Duffy, A, Howard, W. R, Kukla, G, Kutzbach, J, Martinson, D. G, McIntyre, A, Mix, A. C, Molfino, B, Morley, J. J, Peterson, L. C, Pisias, N. G, Prell, W. L, Raymo, M. E, Shackleton, N. J and Toggweiler, J. R.(1993). SPECMAP Archive #4. IGBP PAGES/World Data Center-A. Data Contribution Series 93–031.Google Scholar
Izett, G.A. (1981). Volcanic ash beds; recorders of upper Cenozoic silicic pyroclastic volcanism in the Western United States. Journal of Geophysical Research. 86, 10,20010,222.Google Scholar
Jannik, N.O., Phillips, F.M., Smith, G.I., Elmore, D. (1991). A 36Cl chronology of lacustrine sedimentation in the Pleistocene Owens River system. Geological Society of America Bulletin. 103, 11461159.Google Scholar
Knott, J.R., Sarna-Wojcicki, A.M., Meyer, C.E., Tinsley, J.C. III, Wan, E., Wells, S.G. (1996). Late Neogene stratigraphy of the Black Mountains piedmont, eastern California: Implications for the geomorphic and neotectonic evolution of Death Valley. Geological Society of America Abstracts with Programs. 28, 82.Google Scholar
Lowenstein, T.K., Li, J., Brown, C., Roberts, S.M., Ku, The-L., Luo, S., Yang, W. (1999). 200 k.y. paleoclimate record from Death Valley salt core. Geology. 27, 36.2.3.CO;2>CrossRefGoogle Scholar
Mifflin, M.D., Wheat, M.M. (1979). Pluvial lakes and estimated pluvial climates of Nevada. Nevada Bureau of Mines and Geology Bulletin. 94, .Google Scholar
Minckley, W.L., Hendrickson, D.A., Bond, C.E. (1986). Geography of western North American freshwater fishes: Description and relationships to intracontinental tectonism. Hocutt, C.H., Wiley, E.O. Zoogeography of North American Freshwater Fishes. Wiley, New York., 519613.Google Scholar
Morrison, R.B. (1991). Quaternary stratigraphic, hydrologic, and climatic history of the Great Basin, with emphasis on Lakes Lahontan, Bonneville, and Tecopa. Morrison, R.B. Quaternary Nonglacial Geology: Conterminous U.S.. Geological Society of America, Boulder., 283320.Google Scholar
Oviatt, C. G, Thompson, R. S, Kaufman, D. S, Bright, J and Forester, R. M. in press, Reinterpretation of the Burmester core. Bonneville basin, Utah, Quaternary Research.Google Scholar
Parsons, T., Thompson, G.A., Sleep, N.H. (1994). Mantle plume influence on the Neogene uplift and extension of the U.S. western Cordillera. Geology. 22, 8386.Google Scholar
Pierce, K.L., Morgan, L.A. (1992). The track of the Yellowstone hot spot: Volcanism, faulting, and uplift. Link, P.K., Kuntz, M.A., Platt, L.B. Regional Geology of Eastern Idaho and Western Wyoming. 153.Google Scholar
Reheis, M.C., Morrison, R.B. (1997). High, old pluvial lakes of western Nevada. Link, P.K., Kowallis, B.J. Proterozoic to recent stratigraphy, tectonics, and volcanology, Utah, Nevada, southern Idaho and central Mexico. Brigham Young University Geology Studies, Provo., 459492.Google Scholar
Reheis, M.C., Palmquist, R.C., Agard, S.S., Jaworowski, C., Mears, B. Jr., Madole, R.F., Nelson, A.R., Osborn, G.D. (1991). Quaternary history of some southern and central Rocky Mountain basins. Morrison, R.B. Quaternary Nonglacial Geology: Conterminous US. Geological Society of America, Boulder., 407440.Google Scholar
Reheis, M.C., Slate, J.L., Sarna-Wojcicki, A.M., Meyer, C.E. (1993). A late Pliocene to middle Pleistocene pluvial lake in Fish Lake Valley, Nevada and California. Geological Society of America Bulletin. 105, 953967.Google Scholar
Reheis, M.C., Slate, J.L., Sawyer, T.L. (1995). Geologic map of late Cenozoic deposits and faults in parts of the Mt. Barcroft, Piper Peak, and Soldier Pass 15′ quadrangles, Esmeralda County, Nevada, and Mono County, California. U.S. Geological Survey Miscellaneous Investigations Series Map.Google Scholar
Reheis, M. C, Sarna-Wojcicki, A. M, Reynolds, R. L, Repenning, C. A and Mifflin, M. D. in press, Pliocene to middle Pleistocene lakes in the western Great Basin: Ages and connections. In, Great Basin Aquatic Systems History, ( Currey, D., Hershler, R. and Madsen, D. Eds.), Smithsonian Institution, Washington, D.C.Google Scholar
Richmond, G.M., Fullerton, D.S. (1986). Summation of Quaternary glaciations in the United States of America. Richmond, G.M., Fullerton, D.S. Quaternary Glaciations in the United States of America. 183196.Google Scholar
Russell, I.C. (1885). Geological history of Lake Lahontan, a Quaternary lake of northwestern Nevada. U.S. Geological Survey Monograph. 11, 288.Google Scholar
Sarna-Wojcicki, A. M. (1995). Age, areal extent, and paleoclimatic effects of “Lake Clyde”, a mid-Pleistocene lake that formed the Corcoran Clay, Great Valley, California. Abstracts for Glacial History of the Sierra Nevada, California—a symposium in memorial to Clyde Wahrhaftig, Sept. 20–22, 10 pp, White Mountain Research Station, Bishop, California.Google Scholar
Sarna-Wojcicki, A.M., Lajoie, K.R., Meyer, C.E., Adam, D.P., Rieck, H.J. (1991). Tephrochronologic correlation of upper Neogene sediments along the Pacific margin, conterminous United States. Morrison, R.B. Quaternary Nonglacial Geology: Conterminous US. Geological Society of America, Boulder., 117140.Google Scholar
Small, E.E., Anderson, R.S. (1995). Geomorphically driven late Cenozoic rock uplift in the Sierra Nevada, California. Science. 270, 277280.Google Scholar
Smith, G.I., Barczak, V.J., Moulton, G., Liddicoat, J.C. (1983). Core KM-3, a surface-to-bedrock record of late Cenozoic sedimentation in Searles Valley, California. U.S. Geological Survey Professional Paper. 1256, .Google Scholar
Smith, G.I., Bischoff, J.L., Bradbury, J.P. (1997). Synthesis of the paleoclimatic record from Owens Lake core OL-92. Smith, G.I., Bischoff, J.L. An 800,000-year paleoclimatic record from core OL-92, Owens Lake, southeast California. 143160.Google Scholar
Smith, J.F.J., Ketner, K.B. (1976). Stratigraphy of post-Paleozoic rocks and summary of resources in the Carlin-Pinon Range area, Nevada. U.S. Geological Survey Professional Paper. 867-B, 48.Google Scholar
Spaulding, W.G., Robinson, S.W., Paillet, F.L. (1984). Preliminary assessment of climatic change during late Wisconsin time, southern Great Basin and vicinity, Arizona, California, and Nevada. U.S. Geological Survey Water Resource Investigations Report. 84–4328, .Google Scholar
Spooner, I.S., Osborn, G.D., Barendregt, R.W., Irving, E. (1995). A record of early Pleistocene glaciation on the Mount Edziza Plateau, northwestern British Columbia. Canadian Journal of Earth Sciences. 32, 20462056.Google Scholar
Stewart, J.H. (1988). Tectonics of the Walker Lane belt, western Great Basin: Mesozoic and Cenozoic deformation in a zone of shear. Ernst, W.G. Metamorphism and Crustal Evolution of the Western United States. Prentice Hall, Englewood Cliffs., 683713.Google Scholar
Szabo, B.J., Bush, C.A. (1996). Uranium-series dating of carbonate (tufa) deposits associated with Quaternary fluctuations of Pyramid Lake, Nevada. Quaternary Research. 45, 271281.CrossRefGoogle Scholar
Thompson, R. S, Anderson, K. H and Bartlein, P. J. in press, Quantitative paleoclimatic reconstructions from late Pleistocene plant macrofossils of the Yucca Mountain region. U.S. Geological Survey Open-file Report.Google Scholar
Thompson, R.S., Whitlock, C., Bartlein, P.J., Harrison, S.P., Spaulding, W.G. (1993). Climatic changes in the western United States since 18,000 yr B.P. Wright, H.E. Jr., Kutzbach, J.E., Webb, T. III, Ruddiman, W.F., Street-Perrott, F.A., Bartlein, P.J. Global Climates Since the Last Glacial Maximum. University of Minnesota Press, Minneapolis., 468513.Google Scholar
Wernicke, B., Clayton, R., Ducea, M., Jones, C.H., Park, S., Ruppert, S., Saleeby, J., Snow, J.K., Squires, L., Fliedner, M., Jiracek, G., Keller, R., Klemperer, S., Luetgert, J., Malin, P., Miller, K., Mooney, W., Oliver, H., Phinney, R. (1996). Origin of high mountains in the continents: The southern Sierra Nevada. Science. 271, 190193.CrossRefGoogle Scholar
Winograd, I.J., Szabo, B.J. (1988). Water-table decline in the south-central Great Basin during the Quaternary: Implications for toxic waste disposal. Carr, M.D., Yount, J.C. Geologic and hydrologic investigations of a potential nuclear waste disposal site at Yucca Mountain, southern Nevada. 147152.Google Scholar
Winograd, I.J., Szabo, B.J., Coplen, T.B., Riggs, A.C., Kolesar, P.T. (1985). Two-million-year record of deuterium depletion in Great Basin ground waters. Science. 227, 519522.Google Scholar
Winograd, I.J., Landwehr, J.M., Ludwig, K.R., Coplen, T.B., Riggs, A.C. (1997). Duration and structure of the past four interglaciations. Quaternary Research. 48, 141154.CrossRefGoogle Scholar
Wolfe, J.A., Schorn, H.E., Forest, C.E., Molnar, P. (1997). Paleobotanical evidence for high altitudes in Nevada during the Miocene. Science. 276, 16721675.CrossRefGoogle Scholar