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Late Wisconsin/Early Holocene Vegetation in the Bonneville Basin

Published online by Cambridge University Press:  20 January 2017

David Rhode  and
David B. Madsen
David Rhode
Affiliation:
Quaternary Sciences Center, Desert Research Institute, P.O. Box 60220, Reno, Nevada 89506
David B. Madsen
Affiliation:
Utah Geological Survey, 2363 S. Foothill Drive, Salt Lake City, Utah 84109
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Abstract

Woodrat middens from the northern Bonneville Basin allow a reconstruction of vegetation changes from 14,000 to 9000 yr ago. Cold montane steppe, dominated by sagebrush, covered much of the western Bonneville Basin prior to 13,000 yr ago. From 13,000-10,800 yr ago, the region was vegetated by limber pine woodlands in lower montane settings and a mosaic of limber pine and sagebrush steppe along basin flour margins. These low-elevation limber pine woodlands began to retreat upslope after about 11,000 yr ago due to increasingly drier climatic conditions, and were replaced by relatively more xeric desert scrub dominated by sagebrush and shadscale. The growth of limber pine at low elevations suggests that summer temperatures were as much as 6°C lower than at present. This evidence is in apparent conflict with the currently accepted post-Provo Lake Bonneville chronology, especially the magnitude of the postulated near-dessication of Lake Bonneville from ca. 13,000-12,200 yr ago.

Type
Research Article
Information
Quaternary Research , Volume 44 , Issue 2 , September 1995 , pp. 246 - 256
Copyright
University of Washington

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References

Baker, R. G. (1976). Late Quaternary vegetation history of the Yellowstone Lake Basin, Wyoming. U.S. Geological Survey Professional Paper 61 .CrossRefGoogle Scholar
Bamosky, C. W. Anderson, P. M., and Bartlein, P. J. (1987). The northwestern U.S. during deglaciation: Vegetational history and paleoclimatic implications. In “North America and Adjacent Oceans During the Last Déglaciation” (Ruddiman, W. F. and Wright, H. E. Jr., Eds.), Geology of North America K-3, pp. 289321. Geological Society of America, Boulder.Google Scholar
Beiswenger, J. M. (1991). Late Quaternary vegetational history of Grays Lake, Idaho. Ecological Monographs 61 , 165182.Google Scholar
Benson, L. Currey, D. Yong Lao, , and Hostetler, S. (1992). Lake-size variations in the Lahontan and Bonneville basins between 13,000 and 9000 l4C yr B. P. Palaeogeography, Palaeoclimatology, Palaeoecology 95, 1932.Google Scholar
Benson, L. V. Currey, D. R. Dorn, R. I. Lajoie, K. R. Oviatt, C. G. Robinson, S. W. Smith, G. I., and Stine, S. (1990). Chronology of expansion and contraction of four Great Basin lake systems during the past 35,000 years. Palaeogeography, Palaeoclimatology, Palaeoecology 78 , 241286.Google Scholar
Benson, L. V., and Thompson, R. S. (1987). The physical record of lakes in the Great Basin. In “North America and Adjacent Oceans During the Last Déglaciation” (Ruddiman, W. F. and Wright, H. E. Jr., Eds.), Geology of North America K-3, pp. 241260. Geological Society of America, Boulder.Google Scholar
Betancourt, J. L. (1990). Late Quaternary biogeography of the Colorado Plateau. In “Packrat Middens: The Last 40,000 Years of Biotic Change” (Betancourt, J. L. Van Devender, T. R., and Martin, P. S., Eds.), pp. 259292. University of Arizona Press, Tucson.Google Scholar
Billings, W. D. (1990). The mountain forests of North America and their environments. In “Plant Biology of the Basin and Range” (Osmond, C. B. Pitelka, L. F., and Hidy, G. M., Eds.), pp. 4786. Ecological Studies 80 , Springer-Verlag, Berlin.Google Scholar
Bright, R. C. (1966). Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: Its relation to regional vegetational history and to Lake Bonneville history. Tebiwa 9 , 147.Google Scholar
Brown, J. H., and Gibson, A. C. (1983). “Biogeography.” Mosby, C. V., St. Louis.Google Scholar
COHMAP Members (1988). Climatic changes of the last 18,000 years: Observations and model simulations. Science 241 , 10431052.Google Scholar
Cronquist, A. Holmgren, A. H. Holmgren, N. H., and Reveal, J. L. (1972). “Intermountain Flora: Vascular plants of the intermountain west, U.S.A.,” Vol. 1. Hafner, New York.Google Scholar
Cronquist, A. Holmgren, A. H. Holmgren, N. H. Reveal, J. L., and Holmgren, P. K. (1977). “Intermountain Flora: Vascular plants of the intermountain west, U.S.A.,” Volume 6. Columbia Univ. Press, New York.Google Scholar
Cronquist, A. Holmgren, A. H. Holmgren, N. H. Reveal, J. I., and Holmgren, P. K. (1984). “Intermountain Flora: Vascular plants of the intermountain west, U.S.A.,” Vol. 4. New York Botanical Garden, Bronx.Google Scholar
Cronquist, A. Holmgren, A. H. Holmgren, N. H. Reveal, J. L., and Holmgren, P. K. (1989). “Intermountain Flora: Vascular plants of the intermountain west, U.S.A.,” Volume 3, part B (Fabales, by Rupert C. Bameby). New York Botanical Garden, Bronx.Google Scholar
Cronquist, A. Holmgren, A. H. Holmgren, N. H. Reveal, J. L., and Holmgren, P. K. (1994). “Intermountain Flora: Vascular plants of the intermountain west, U.S.A.,” Vol. 5 (Asterales, by Arthur Cronquist). New York Botanical Garden, Bronx.Google Scholar
Currey, D. (1990). Quaternary paleolakes in the evolution of semidesert basins, with special emphasis on Lake Bonneville and the Great Basin, U.S.A. Paiaeogeography, Palaeoclimatology, Palaeoecology 76 , 189214.Google Scholar
Davis, O. K. (1981). “Vegetation migration in southern Idaho during the late Quaternary and Holocene.” Ph.D. dissertation, University of Minnesota.Google Scholar
Davis, O. K. Sheppard, J. C., and Robertson, S. (1986). Contrasting climatic histories for the Snake River Plain, Idaho, resulting from multiple thermal maxima. Quaternary Research 26 , 321339.Google Scholar
Dunant, S. D. (1952). Mammals of Utah: Taxonomy and distribution. University of Kansas Publications, Museum of Natural History 6. Google Scholar
Ellison, L. (1954). Subalpine vegetation of the Wasatch Plateau, Utah. Ecological Monographs 24 , 89184.Google Scholar
Forester, R. M. (1987). Late Quaternary paleoclimate records from lacustrine ostracodes. In “North America and Adjacent Oceans During the Last Deglaciation” (Ruddiman, W. F. and Wright, H. E. Jr., Eds.), Geology of North America K-3, pp. 289321. Geological Society of America, Boulder.Google Scholar
Gilbert, G. K. (1890). Lake Bonneville. U.S. Geological Survey Monograph 1.Google Scholar
Grayson, D. K. (1993). “The Desert’s Past: A Natural Prehistory of the Great Basin.” Smithsonian Institution Press, Washington, DC.Google Scholar
Hafner, D. J. (1993). North American pika (Ocholona princeps) as a Late Quaternary biogeographic indicator species. Quaternary Research 39(3), 373380.Google Scholar
Hall, E. R. (1946). “Mammals of Nevada.” Univ. California Press, Berkeley.Google Scholar
Hostetler, S. W. Giorgi, F. Bates, G. T., and Bartlein, P. J. (1994). Lake-atmosphere feedbacks associated with paleolakes Bonneville and Lahontan. Science 263 , 665668.Google ScholarPubMed
Kay, P. A., and Oviatt, C. G. (1978). Pinus longaeva in the Stansbury Mountains, Utah. Great Basin Naturalist 38(1), 4950.Google Scholar
Kutzbach, J. E., and Geutter, P. J. (1986). The influence of changing orbital parameters and surface boundary conditions on climate simulations for the past 18,000 years. Journal of the Atmospheric Sciences 43 , 17261759.Google Scholar
Kutzbach, J. E. Geutter, P. J. Behling, P. J., and Selin, R. (1993). Simulated climatic changes: Results of the COHMAP climate-model experiments. In “Global Climates Since the Last Glacial Maximum” (Wright, H. E. Jr. Kutzbach, J. E. Webb, T. III Ruddiman, W. F. Street-Perrott, F. A., and Bartlein, P. J., Eds.), pp. 2493. Univ. Minnesota Press, Minneapolis.Google Scholar
Little, E. L. Jr. (1971). “Atlas of United States Trees, Volume 1: Conifers and Important Hardwoods.” U.S. Department of Agriculture Miscellaneous Publication 1146.Google Scholar
Madsen, D. B. (1973). “Late Quaternary Paleoecology in the Southeastern Great Basin.” Ph.D. dissertation, Department of Anthropology, University of Missouri, Columbia.Google Scholar
Madsen, D. B., and Currey, D. R. (1979). Dating glacial retreat and Late Quaternary vegetation changes, Wasatch Mountains, north central Utah, U.S.A. Quaternary Research 12 , 254270.Google Scholar
Madsen, D. B., and Kay, P. A. (1982). “Late Quaternary pollen analysis in the Bonneville Basin.” American Quaternary Association Conference Abstracts, Seattle.Google Scholar
Madsen, D. B. Rhode, D. Grayson, D. K. Livingston, S. L. Broughton, J. M., and Quade, J. (1995). “Faunal and vegetational records from the Bonneville Basin, Utah-Nevada, and their relationship to lake level changes, 14,000 7,0 BP.” Proceedings of the PAGES, PEP-1 (Americas) Transect Science Meeting, Albuquerque.Google Scholar
McCoy, W. D., and Williams, L. (1985). Application of an energy-balance model to the Late Pleistocene Little Cottonwood Glacier with implications regarding the paleohydrology of Lake Bonneville. In “Problems of and Prospects for Predicting Great Salt Lake Levels” (Kay, P. A. and Diaz, H. F., Eds.), pp. 4053. Center for Public Affairs and Administration, University of Utah, Salt Lake City.Google Scholar
Mead, J. I. (1987). Quaternary records of pika, Ochotona, in North America. Boreas 16 , 165171.Google Scholar
Mehringer, P. J. Jr. (1977). Great Basin Late Quaternary environments and chronology. In “Models and Great Basin Prehistory: A Symposium” (Fowler, D., Ed.), pp. 113167. Desert Research Institute Publications in the Social Sciences 12.Google Scholar
Mehringer, P. J. Jr. (1985). Late-Quaternary pollen records from the interior Pacific Northwest and northern Great Basin of the United States. In “Pollen Records of Late-Quaternary North American Sediments” (Bryant, V. M. Jr., and Holloway, R. G., Eds.), pp. 167189. American Association of Stratigraphic Palynologists Foundation.Google Scholar
Oviatt, C. G. Currey, D. R., and Sack, D. (1992). Radiocarbon chronology of Lake Bonneville, Eastern Great Basin, USA. Paiaeogeography, Palaeocli-matology, Palaeoecology 99 , 225241.Google Scholar
Siegal, R. D. (1983). “Paleoclimatic Significance of D/H and l3C/l2C Ratios in Pleistocene and Holocene Wood.” Thesis, University of Arizona.Google Scholar
Spencer, R. J. Baedecker, M. Eugster, H. P. Forester, R. M. Goldhaber, M. B. Jones, B. F. Kelts, K. McKenzie, J. Madsen, D. B. Rettig, S. L. Rubin, M., and Bowser, C. J. (1984). Great Salt Lake and precursors: Utah, the last 30,000 years. Contributions to Mineralogy and Petrology 86 , 321334.Google Scholar
Thompson, R. S. (1984). “Late Pleistocene and Holocene Environments in the Great Basin.” Ph.D. dissertation, University of Arizona.Google Scholar
Thompson, R. S. (1990). Late Quaternary vegetation and climate in the Great Basin. In “Packrat Middens: The Last 40,000 Years of Biotic Change” (Betancourt, J. L. Van Devender, T. R., and Martin, P. S., Eds.), pp. 200239. University of Arizona Press, Tucson.Google Scholar
Thompson, R. S. (1992). Late Quaternary environments in Ruby Valley, Nevada. Quaternary Research 37 , 115.Google Scholar
Thompson, R. S. Toolin, L. J. Forester, R. M., and Spencer, R. J. (1990). Accelerator-mass spectrometer (AMS) radiocarbon dating of Pleistocene lake sediments in the Great Basin. Paiaeogeography, Palaeoclimatology, Palaeoecology 78 , 301313.Google Scholar
Thompson, R. S. Whitlock, C. Bartlein, P. J. Harrison, S. P., and Spaulding, W. G. (1993). Climatic changes in the western United States since 18,000 B. P. In “Global Climates Since the Last Glacial Maximum” (Wright, H. E. Jr. Kutzbach, J. E. Webb, T. III Ruddiman, W. F. Street-Perrott, F. A., and Bartlein, P. J., Eds.), pp. 468513. Univ. Minnesota Press, Minneapolis.Google Scholar
Van Devender, T. R. (1973). “Late Pleistocene Plants and Animals of the Sonoran Desert: A Survey of Ancient Packrat Middens in Southwestern Arizona.” Ph.D. dissertation, University of Arizona.Google Scholar
Wells, P. V. (1983). Paleogeography of montane islands in the Great Basin since the last glaciopluvial. Ecological Monographs 53 , 341382.Google Scholar
Whitlock, C. (1993). Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63(2), 173198.Google Scholar