Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-18T22:57:36.989Z Has data issue: false hasContentIssue false

A 180,000-year pollen record from Owens Lake, CA: terrestrial vegetation change on orbital scales

Published online by Cambridge University Press:  20 January 2017

Wallace B. Woolfenden*
Affiliation:
Mountain Heritage Associates, USDA Forest Service, P.O. Box 429, Lee Vining, CA 93541, USA

Abstract

Pollen from the upper 90 m of core OL-92 from Owens Lake is a climatically sensitive record of vegetation change that indicates shifts in the plant associations representing warm and cold desertscrub, pinyon–juniper woodland, and pine–fir forest during the past 180,000 years. These changes are synchronized with glacial–interglacial cycles. During glacial and stadial climates, juniper woodland expanded downslope and replaced warm desert shrubs while upper montane and subalpine forests in the arid Inyo Mountains also expanded, and those in the Sierra Nevada were displaced by the ice cap and periglacial conditions. Conversely, during interglacial and interstadial climates, warm desert plants expanded their range in the lowlands, juniper and sagebrush retreated upslope, and montane and subalpine forests expanded in the Sierra Nevada. The reconstructed vegetation history demonstrates a regional climatic response, and the congruence of the pollen sequence with marine and ice cap oxygen isotope stratigraphies suggests a link between regional vegetation and global climate change at orbital scales.

Type
Articles
Copyright
Elsevier Science (USA)

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

Adam, D.P (1988). U.S. Geological Society Professional Paper 1363, Lake County, California.Google Scholar
Adam, D.P, Sarna-Wojeicki, A.M, Rieck, H.J, Bradbury, J.P, Dean, W.E, and Forester, R.M Tulelake, California. The last 3 million years. Palaegeography, Palaeoclimatology. Palaeoecology 72, (1989). 89 103.Google Scholar
Atwater, B.F, Adam, D.P, Bradbury, J.P, Forester, R.M, Mark, R.M, Lettis, W.R, Fisher, G.R, Gobalet, K.W, and Robinson, S.W A fan dam for Tulare Lake, California, and implications for the Wisconsin glacial history of the Sierra Nevada. Geological Society of America Bulletin 97, (1986). 97 109.2.0.CO;2>CrossRefGoogle Scholar
Bach, A.J, Dorn, R.I, Elliott-Fisk, D.L, and Phillips, F.M Paleohydrological and paleoclimatological implications of glacial moraine complexes from Pine Creek, Bloody Canyon, and Bishop Creek, Eastern Sierra Nevada. Hall, C.A, Doyle-Jones, V, and Widawski, B The History of Water. Eastern Sierra Nevada, Owens Valley, White-Inyo Mountains White Mountain Research Station Symposium. Vol. 4, (1992). University of California, Los Angeles. 440 441.Google Scholar
Batchelder, G.L., (1970). Post-glacial Ecology at Black Lake, Mono County, California. Unpublished Ph.D. thesis, Northern Arizona University, Flagstaff, AZ.Google Scholar
Benson, L.V, May, H.M, Antweiler, R.C, Brinton, T.I, Kashgarian, M, Smoot, J.P, and Lund, S.P Continuous lake-sediment records of glaciation in the Sierra Nevada between 52,000 and 12,500 14C yr B.P. Quaternary Research 50, (1998). 113 127.CrossRefGoogle Scholar
Bischoff, J.L, and Cummings, K Wisconsin glaciation of the Sierra Nevada (79,000-15,000 yr ago) as recorded by rock flour in sediments of Owens Lake, California. Quaternary Research 55, (2001). 14 24.Google Scholar
Bischoff, J.L., Fitts, J.P., Fitzpatrick, J.A., (1997a). Responses of sediment geochemistry to climate change in Owens Lake sediment: and 800-k.y. record of saline/fresh cycles in core OL-92. in: Smith, G.I. Bishoff, J.L. (Eds.), An 800,000-Year Paleoclimatic Record from Core OL-92, Owens Lake, Southeast California., pp. 3747.Google Scholar
Bischoff, J.L, Menking, K.M, Fitts, J.P, and Fitzpatrick, J.A Climatic oscillations 10,000–155,000 yr ago at Owens Lake, California reflected in glacial rock flour abundance and lake salinity in Core OL-92. Quaternary Research 48, (1997). 313 325.CrossRefGoogle Scholar
Bischoff, J.L., Stafford, T.W. Rubin, M., (1997c). A time-depth scale for Owens Lake sediments of core OL-92: radiocarbon dates and constant mass-accumulation rate. in: Smith, G.I., Bishoff, J.L., (Eds.), An 800,000-Year Paleoclimatic Record from Core OL-92, Owens Lake, Southeast California.” pp. 9198.Google Scholar
Bradbury, J.P. (1997). A diatom-based paleohydrologic record of climate change for the past 800 k.y. from Owens Lake, California. in: Smith, G.I., Bishoff, J.L., (Eds.), An 800,000-Year Paleoclimatic Record from Core OL-92, Owens Lake, Southeast California., Geological Society of America Special Paper 317, pp. 99112.Google Scholar
Bursik, M.I, and Gillespie, A.R Late Pleistocene glaciation of Mono Basin, California. Quaternary Research 39, (1993). 24 35.CrossRefGoogle Scholar
Carter, C., (1997). Ostracodes in Owens Lake core OL-92: Alternation of saline and freshwater forms through time. in: Smith, G.I., Bishoff, J.L. (Eds.), An 800,000-Year Paleoclimatic Record from Core OL-92. Owens Lake, Southeast California., pp. 113119.Google Scholar
Clark, D.H, Bierman, P.R, and Larsen, P Correlation of late Pleistocene glaciation in the western United States with north Atlantic Heinrich events. Geology 23, (1995). 483 486.2.3.CO;2>CrossRefGoogle Scholar
Davis, O.K Climate and vegetation patterns in surface samples from arid western U.S.A.. application to Holocene climatic reconstructions. Palynology 19, (1995). 95 117.CrossRefGoogle Scholar
Davis, O.K Pollen analysis of a Holocene–late-Glacial sediment core from Mono Lake, Mono County, California. Quaternary Research 52, (1999). 243 249.Google Scholar
Faegri, K, and Iversen, J Textbook of Pollen Analysis. 4th ed (1985). Hafner, New York.Google Scholar
Flohn, H Local wind systems. Flohn, H World Survey of Climatology Vol. 2, (1969). General Climatology, Amsterdam.Google Scholar
Fullerton, D.S Chronology and correlation of glacial deposits in the Sierra Nevada, California. Quaternary Science Review 5, (1986). 161 169.Google Scholar
Grimm, E.C CONISS. a FORTRAN 77 program for stratigraphically constrained cluster analysis by the method of incremental sum of squares. Computers and Geoscience 13, (1987). 13 35.Google Scholar
Grimm, E.C., (1992). Tilia and Tilia-graph: pollen spreadsheet and graphics programs, Programs and Abstracts. 8th International Palynological Congress, Aix-en-Provence, September 612., p. 56 Google Scholar
Hales, J.E Jr. Southwestern United States summer monsoon source—Gulf of Mexico or Pacific Ocean?. Journal of Applied Meteorology 13, (1974). 331 342.2.0.CO;2>CrossRefGoogle Scholar
Hammer, O, Harper, D.A.T, and Ryan, P.D PAST. paleontological statistics software package for education and data analysis. Palaeontol. Electron. 4, (2001). 1 9. http://palaeoelectronica.org/2001_1/past/issuel_01.htm Google Scholar
Heusser, C.J, and Heusser, L.E Long continental pollen sequence from Washington State (U.S.A.). correlation of upper levels with marine pollen-oxygen isotope stratigraphy through substage 5e. Palaeogeography, Palaeoclimatology, Palaeoecology 79, (1990). 63 71.Google Scholar
Heusser, L.E. (1995). Pollen stratigraphy and paleoecologic interpretation of the 160-K.Y. record from Santa Barbara Basin, Hole 893A. in: Kennett, J.P. Baldauf, J.G. Lyle, M., (Eds.), Proceedings of the Ocean Drilling Program, Scientific Results, Vol. 146, (Pt. 2), pp. 265277.Google Scholar
Jennings, S.A, and Elliott-Fisk, D.L Packrat midden evidence of late Quaternary vegetation change in the White Mountains, California-Nevada. Quaternary Research 39, (1993). 214 221.Google Scholar
Karner, D.B, and Muller, R.A A causality problem for Milankovitch. Science 288, (2000). 2143 2144.Google Scholar
Koehler, P.A, and Anderson, R.S Full-glacial shoreline vegetation during the maximum highstand at Owens Lake, California. Great Basin Naturali 54, (1994). 142 149.Google Scholar
Koehler, P.A, and Anderson, R.S Thirty thousand years of vegetation changes in the Alabama Hills, Owens Valley, California. Quaternary Research 43, (1995). 238 248.CrossRefGoogle Scholar
Litwin, R.J, Smoot, J.P, Durika, N.J, and Smith, G.I Calibrating Late Quaternary terrestrial climate signals. radiometerically dated pollen evidence from the southern Sierra Nevada, USA. Quaternary Science Reviews 18, (1999). 1151 1171.Google Scholar
Markgraf, V Pollen dispersal in a mountain area. Grana 19, (1980). 127 146.Google Scholar
Martinson, D.G, Pisias, N.G, Hays, J.D, Imbrie, J, Moore, T.C, and Shackleton, N.J Age dating and the orbital theory of the ice ages. Development of a high-resolution 0 to 3,000,000-year chronostatigraphy. Quaternary Research 27, (1987). 1 29.CrossRefGoogle Scholar
Menking, K.M, Bischoff, J.L, Fitzpatrick, J.A, Burdette, J.W, and Rye, R.O Climatic/hydrologic oscillations since 155,000 yr ago at Owens Lake, California reflected in abundance and stable isotope composition of sediment carbon. Quaternary Research 48, (1997). 58 68.Google Scholar
Mensing, S.A Late-glacial and early Holocene vegetation and climate change near Owens Lake, eastern California. Quaternary Research 55, (2001). 57 65.Google Scholar
Neilson, R.P On the interface between current ecological studies and the paleobotany of pinon-juniper woodlands. Everett, R.L Proceedings—Pinyon-Juniper Conference. (1987). General Technical Report INT-215, Intermountain Research Station, Reno, Nevada. 93 98.Google Scholar
Petit, J.R, Jouzel, J, Raynaud, D, Barkov, N.I, Basile, I, Bender, M, Chapellaz, J, Davis, J, Delaygue, G, Delmotte, M, Kotlyakov, V.M, Legrand, M, Lipenkov, V, Lorious, C, Pepin, L, Ritz, C, Saltzman, E, and Stievanard, M 420,000 years of climate and atmospheric history revealed by the Vostok deep antarctic ice core. Nature 399, (1999). 429 436.Google Scholar
Phillips, F, Zreda, M.G, Benson, L.V, Plummer, M.A, Elmore, D, and Sharma, P Chronology for fluctuations in Lake Pleistocene Sierra Nevada glaciers and lakes. Science 274, (1996). 749 751.Google Scholar
Porter, S.C, Pierce, K.L, and Hamilton, T.D Late Wisconsin mountain glaciation in the Western United States. Wright, H.E Jr. Late-Quaternary Environments of the United States. Volume 1, The Late Pleistocene. (1983). University of Minnesota Press, Minneapolis. 71 111.Google Scholar
Pyke, C.B Some Meteorological Aspects of the Seasonal Distribution of Precipitation in the Western United States and Baja California. (1972). University of California Water Resources Center, Contribution No. 139, Los Angeles.Google Scholar
Smith, G.I Stratigraphy, lithologies, and sedimentary structures of Owens Lake core OL-92. Smith, G.I, and Bischoff, J.L An 800-000-Year Paleoclimatic Record from Core OL-92. (1997). Geological Society of America Special Paper 317, Owens Lake, Southeast California. 9 23.Google Scholar
Smith, G.I, and Bischoff, J.L An 800,000-Year Paleoclimatic Record from Core OL-92. (1997). Geological Society of America Special Paper 317, Owens Lake, Southeast California.Google Scholar
Smith, G.I., Bischoff, J.L., and Bradbury, J.P., (1997). Synthesis of the paleoclimatic record from Owens Lake core OL-92. in Smith, G.I., Bischoff, J.L. (Eds.), An 800,000-Year Paleoclimatic Record from Core OL-92, Owens Lake, Southeast California. Geological Society of America Special Paper 317, pp. 143160.Google Scholar
Smith, G.I, and Street-Perrott, F.A Pluvial lakes of the Western United States. Wright, H.E Jr. Late-Quaternary Environments of the United States, Volume 1. (1983). University of Minnesota Press, Minneapolis. 190 212.Google Scholar
Snyder, C.T, Hardman, G, and Zdenek, F.F Pleistocene Lakes in the Great Basin. (1964). U.S. Geological Survey, Washington, DC.Google Scholar
Solomon, A.M, and Silkworth, A.B Spatial patterns of atmospheric pollen transport in a montane region. Quaternary Research 25, (1986). 150 162.CrossRefGoogle Scholar
Thompson, R.S, Whitlock, C, Bartlein, P.J, Harrison, S.P, and Spaulding, W.G Climatic changes in the Western United States since 18,000 yr B.P. Wright, H.E Jr., Kutzbach, J.E, Webb, T III, Runddiman, W.F, Street-Perrott, F.A, and Bartlein, P.J Global Climates since the Last Glacial Maximum. (1993). University of Minnestota Press, Minneapolis. 468 513.Google Scholar
Wahrhaftig, C, and Birman, J.H The Quaternary of the Pacific Mountain System in California. Wright, H.E, and Frey, D.G The Quaternary of the United States, Vol. 1, The Late Pleistocene. (1965). Princeton University Press, Princeton. 299 340.Google Scholar
Whitlock, C, Sarna-Wojcicki, A.M, Bartlein, P.J, and Nickmann, R.J Environmental history and tephrostratigraphy at Carp Lake, southwestern Columbia Basin, Washington, USA. Paleogeography, Palaeoclimatology, Palaeoecology 155, (2000). 7 29.Google Scholar
Winograd, I, Coplen, T.B, Landwehr, J.M, Riggs, A.C, Ludwig, K.R, and Szabo, B.J Continuous 500,000-year climate record from vein calcite in Devils Hole, Nevada. Science 258, (1992). 255 260.Google Scholar
Woolfenden, W.B Late-Quaternary Vegetation History of the Southern Owens Valley Region, Inyo County, California, Unpublished Ph.D. thesis. (1996). The University of Arizona, Tucson, AZ.Google Scholar