Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-23T01:16:20.918Z Has data issue: false hasContentIssue false

A continuous 4000-year lake-level record of Owens Lake, south-central Sierra Nevada, California, USA

Published online by Cambridge University Press:  02 July 2018

Steven N. Bacon*
Affiliation:
Division of Earth and Ecosystem Sciences, Desert Research Institute, 2215 Raggio Parkway, Reno, Nevada 89512, USA
Nicholas Lancaster
Affiliation:
Division of Earth and Ecosystem Sciences, Desert Research Institute, 2215 Raggio Parkway, Reno, Nevada 89512, USA
Scott Stine
Affiliation:
Department of Geography and Environmental Studies, California State University East Bay, Hayward, California 94542, USA
Edward J. Rhodes
Affiliation:
University of Sheffield, Department of Geography, Winter Street, Sheffield, S10 2TN, United Kingdom
Grace A. McCarley Holder
Affiliation:
Great Basin Unified Air Pollution Control District, 157 Short Street, Bishop, California 93514, USA
*
*Corresponding author at: Division of Earth and Ecosystem Sciences, Desert Research Institute, 2215 Raggio Parkway, Reno, Nevada 89512, USA. E-mail address: [email protected] (S.N. Bacon).

Abstract

Reconstruction of lake-level fluctuations from landform and outcrop evidence typically involves characterizing periods with relative high stands. We developed a new approach to provide water-level estimates in the absence of shoreline evidence for Owens Lake in eastern California by integrating landform, outcrop, and existing lake-core data with wind-wave and sediment entrainment modeling of lake-core sedimentology. We also refined the late Holocene lake-level history of Owens Lake by dating four previously undated shoreline features above the water level (1096.4 m) in AD 1872. The new ages coincide with wetter and cooler climate during the Neopluvial (~3.6 ka), Medieval Pluvial (~0.8 ka), and Little Ice Age (~0.35 ka). Dates from stumps below 1096 m also indicate two periods of low stands at ~0.89 and 0.67 ka during the Medieval Climatic Anomaly. The timing of modeled water levels associated with 22 mud and sand units in lake cores agree well with shoreline records of Owens Lake and nearby Mono Lake, as well as with proxy evidence for relatively wet and dry periods from tree-ring and glacial records within the watershed. Our integrated analysis provides a continuous 4000-yr lake-level record showing the timing, duration, and magnitude of hydroclimate variability along the south-central Sierra Nevada.

Type
Research Article
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2018 

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

REFERENCES

Adams, K.D., 2007. Late Holocene sedimentary environments and lake-level fluctuations at Walker Lake, Nevada USA. Geological Society of America Bulletin 119, 126139.Google Scholar
Adams, K.D., Negrini, R.M., Cook, E.R., Rajagopal, S., 2015. Annually resolved late Holocene paleohydrology of the southern Sierra Nevada and Tulare Lake, California. Water Resources Research 51, 97089724.Google Scholar
Bacon, S.N., Burke, R.M., Pezzopane, S.K., Jayko, A.S., 2006. Last glacial maximum and Holocene lake levels of Owens Lake, eastern California, USA. Quaternary Science Reviews 25, 12641282.Google Scholar
Bacon, S.N., Lancaster, N., Stine, S., Rhodes, E.J., Holder, G.A.M., 2013. Refined late Holocene lake-level history of Owens Lake, east-central California. Geological Society of America Annual Meeting Abstracts with Programs 45, 552.Google Scholar
Bacon, S.N., McDonald, E.V., Caldwell, T.G., Dalldorf, G.K., 2010. Timing and distribution of alluvial fan sedimentation in response to strengthening of late Holocene ENSO variability in the Sonoran Desert, southwestern Arizona, USA. Quaternary Research 73, 425438.Google Scholar
Bacon, S.N., Pezzopane, S.K., 2007. A 25,000-year record of earthquakes on the Owens Valley fault near Lone Pine, California: implications for recurrence intervals, slip rates, and segmentation models. Geological Society of America Bulletin 119, 823847.Google Scholar
Bale, R.J., Roberston, I., Salzer, M.W., Loader, J.J., Leavitt, S.W., Gagen, M., Harlan, T.P., McCarroll, D., 2011. An annually resolved bristlecone pine carbon isotope chronology for the last millennium. Quaternary Research 76, 2229.Google Scholar
Barth, C., Boyle, D.P., Hatchett, B.J., Bassett, S.D., Garner, C.B., Adams, K.D., 2016. Late Pleistocene climate inferences from a water balance model of Jakes Valley, Nevada (USA). Journal of Paleolimnology 56, 109122.Google Scholar
Bartov, Y., Enzel, Y., Porat, N., Stein, M., 2007. Evolution of the late Pleistocene-Holocene Dead Sea Basin from sequence stratigraphy of fan deltas and lake-level reconstruction. Journal of Sedimentary Research 77, 680692.Google Scholar
Beanland, S., Clark, M.M., 1994. The Owens Valley fault zone, eastern California, and surface rupture associated with the 1872 earthquake. U.S. Geological Survey Bulletin 1982, United States Government Printing Office, Washington, 29 p.Google Scholar
Belmecheri, S., Babst, F., Wahl, E.R., Stahle, D.W., Trouet, V., 2015. Multi-century evaluation of Sierra Nevada snowpack. Nature Climate Change 6, 23.Google Scholar
Benson, L., 2004. Western Lakes. In: Gillespie, A.R., Porter, S.C., Atwater, B.F. (Eds.), The Quaternary Period in the United States. Elsevier, New York, pp. 185204.Google Scholar
Benson, L., Burdett, J., Lund, S., Kashgarian, M., Mensing, S., 1997. Nearly synchronous climate change in the Northern Hemisphere during the last glacial termination. Nature 388, 263265.Google Scholar
Benson, L., Kashgarian, M., Rye, R., Lund, S., Paillet, F., Smoot, J., Kester, C., Mensing, S., Meko, D., Lindstrom, S., 2002. Holocene multidecadal and multicentennial droughts affecting northern California and Nevada. Quaternary Science Reviews 21, 659682.Google Scholar
Benson, L.V., Burdett, J.W., Kashgarian, M., Lund, S.P., Phillips, F.M., Rye, R.O., 1996. Climatic and hydrologic oscillations in the Owens Lake basin and the adjacent Sierra Nevada, California. Science 274, 746749.Google Scholar
Berkelhammer, M., Stott, L.D., 2008. Recent and dramatic changes in Pacific storm trajectories recorded in δ18O from bristlecone pine tree ring cellulose. Geochemistry, Geophysics, Geosystems 9, Q04008. http://dx.doi.org/10.1029/2007GC001803.Google Scholar
Birkeland, P.W., 1999. Soils and Geomorphology. 3rd ed. Oxford University Press, New York.Google Scholar
Bowerman, N.D., Clark, D.H., 2011. Holocene glaciation of the central Sierra Nevada, California. Quaternary Science Reviews 30, 1067–1058.Google Scholar
Bull, W.B., 1991. Geomorphic Response to Climate Change. Oxford University Press, New York.Google Scholar
Buyalert, J., Thiel, C., Murray, A.S., Vendenberghe, D.A.G., Yi, S., Lu, H., 2011. IRSL and post-IR IRSL residual doses recorded in modern dust samples from the Chinese loess plateau. Geochronometria 38, 432440.Google Scholar
Carver, G.A., 1970. Quaternary tectonism and surface faulting in Owens Lake basin, California. Technical Report AT2. MacKay School of Mines, University of Nevada, Reno.Google Scholar
Cayan, D.R., Redmond, K.T., Riddle, L.G., 1999. ENSO and hydrologic extremes in the western United States. Journal of Climate 12, 2881–2893.Google Scholar
Chen, Y., Sheng-Hua, L., Li, B., 2014. Residual doses and sensitivity change of post IR IRSL signals from potassium feldspar under different bleaching conditions. Geochronometria 40, 229238.Google Scholar
Cook, B.I., Seager, R., Miller, R.L., 2011. On the causes and dynamics of the early twentieth-century North American pluvial. Journal of Climate 24, 50435060.Google Scholar
Cook, E.R., Meko, D.M., Stahle, D.W., Cleaveland, M.K., 1999. Drought reconstructions for the continental United States. Journal of Climate 12, 11451162.Google Scholar
Cook, E.R., Seager, R., Heim, R.R. Jr., Vose, R.S., Herweijer, C., Woodhouse, C., 2010. Megadrought in North America: placing the IPCC projections of hydroclimate change in a long-term paleoclimate context. Journal of Quaternary Science 25, 4861.Google Scholar
Cook, E.R., Woodhouse, C., Eakin, C.M., Meko, D.M., Stahle, D.W., 2004. Long-term aridity changes in the western United States. Science 306, 10151018.Google Scholar
Dana, G.L., Lenz, P.H., 1986. Effects of increasing salinity on an Artemia population from Mono Lake, California. Oecologia 68, 428436.Google Scholar
Davidson, G.R., Carnley, M., Lange, T., Galicki, S.J., Douglas, A., 2004. Changes in sediment accumulation rate in oxbow lake following late 9th century clearing of land for agricultural use: a 210Pb, 137Ce, and 14C study in Mississippi, USA. Radiocarbon 46, 755764.Google Scholar
Dettinger, M.D., Cayan, D.R., Diaz, H.F., Meko, D.M., 1998. North-south precipitation patterns in western North America on interannual-to-decadal timescales. Journal of Climate 11, 30953111.Google Scholar
Dettinger, M.D., Ghil, M., Keppenne, C.L., 1995. Interannual and interdecadal variability of United States surface-air temperatures, 1910–1987. Climate Change 31, 3566.Google Scholar
Dolan, J.F., McAuliffe, L.J., Rhodes, E.J., McGill, S.F., Zinke, R., 2016. Extreme multi-millennial slip rate variations on the Garlock fault, California: strain super-cycles, potentially time-variable fault strength, and implications for system-level earthquake occurrence. Earth and Planetary Science Letters 446, 123136.Google Scholar
EarthScope. 2011. Owens Valley fault zone LiDAR Survey, Plate Boundary Observatory operated by UNAVCO for EarthScope (accessed February 10, 2014). http://www.earthscope.org.Google Scholar
Ehlers, E.G., Blatt, H., 1982. Petrology: Igneous, Sedimentary, and Metamorphic. W.H Freeman and Company, New York.Google Scholar
Einsele, G., 2000. Sedimentary Basins: Evolution, Facies, and Sediment Budget. 2nd ed. Springer, New York.Google Scholar
Fagherazzi, S., Wiberg, P.L., 2009. Importance of wind conditions, fetch, and water levels on wave-generated shear stresses in shallow intertidal basins. Journal of Geophysical Research 114, F03022. http://dx.doi.org/10.1029/2008JF001139.Google Scholar
Friedman, I., Bischoff, J.L., Johnson, A., Tyler, S.W., Fitts, J.P., 1997. Movement and diffusion of pore fluids in Owens Lake sediment: an 800-k.y. record of saline/fresh cycles in 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, Geological Society of America, Denver. pp. 4966.Google Scholar
Gale, H.S., 1914. Salines in the Owens, Searles, and Panamint basins, southeastern California. U.S. Geology Survey Bulletin 580-L, 251323.Google Scholar
Gillespie, A.R., Clark, D.H., 2011. Glaciations of the Sierra Nevada, California, USA. Developments in Quaternary Science 15, 447462.Google Scholar
Graham, N.E., Hughes, M.K., 2007. Reconstructing the medieval low stands of Mono Lake, Sierra Nevada, California, USA. Holocene 17, 11971210.Google Scholar
Haddon, E.K., Amos, C.B., Zielke, O., Jayko, A.S., Bürgmann, R., 2016. Surface slip during large Owens Valley earthquakes. Geochemistry, Geophysics, Geosystems 17, 22392269.Google Scholar
Håkanson, L., 1977. The influence of wind, fetch, and water depth on the distribution of sediments in Lake Väern, Sweden. Canadian Journal of Earth Sciences 14, 397412.Google Scholar
Håkanson, L., Jansson, M., 2002. Principles of Lake Sedimentology. The Blackburn Press, New Jersey.Google Scholar
Handy, R.L., Spangler, M.G., 2007. Geotechnical Engineering: Soil and Foundation Principles and Practice. 5th ed. McGraw-Hill, New York.Google Scholar
Harpold, A.A., Dettinger, M., Rajagopal, S., 2017. Defining snow drought and why it matters. Eos, 98. http://doi.org/10.1029/2017EO068775.Google Scholar
Hatchett, B.J., Boyle, D.P., Garner, C.B., Kaplan, M.L., Bassett, S.D., Putnam, A.E., 2018. Sensitivity of a western Great Basin terminal lake to winter northeast Pacific storm track activity and moisture transport. In: Starratt, S.W., Rosen, M.R. (Eds.), From Saline to Freshwater: The Diversity of Western Lakes in Space and Time. Geological Society of America 536 (in press). https://doi.org/10.1130/2018.2536(05).Google Scholar
Hatchett, B.J., Boyle, D.P., Garner, C.B., Kaplan, M.L., Putnam, A.E., Bassett, S., 2016. Magnitude and frequency of wet years under a megadrought climate in the western Great Basin, USA. Quaternary Science Reviews 152, 197202.Google Scholar
Hatchett, B.J., Boyle, D.P., Putnam, A.E., Bassett, S.D., 2015. Placing the 2012–2015 California-Nevada drought into a paleoclimatic context: insights from Walker Lake, California-Nevada, USA. Geophysical Research Letters 42, 86328640.Google Scholar
Hatchett, B.J., McEvoy, D.J., 2018. Exploring the origins of snow droughts in the northern Sierra Nevada, California. American Meteorological Society (in press). https://doi.org/10.1175/EI-D-17-0027.1.Google Scholar
Herbst, D.B., Prather, M., 2014. Owens Lake: from dustbowl to mosaic of salt water habitats. Lakeline 34, 3438.Google Scholar
Hollett, K.J., Danskin, W.R., McCafferey, W.F., Walti, C.L., 1991. Geology and water resources of Owens Valley, California. U.S. Geological Survey Water-Supply Paper 2370-B. United States Government Printing Office, Washington.Google Scholar
Howat, I.M., Tulaczyk, S., 2005. Trends in spring snowpack over a half-century of climate warming in California, USA. Annals of Glaciology 40, 151156.Google Scholar
Hughes, M.K., Funkhouser, G., Ni, F., 2002. The ancient bristlecone pines of Methuselah Walk, California, as a natural archive of past environment. PAGES News 10, 1617.Google Scholar
Hughes, M.K., Graumlich, L.J., 1996. Multimillennial dendroclimatic studies from the western United States. In: Bradley, R.S., Jones, P.D., Jouzel, J. (Eds.), Climatic Variations and Forcing Mechanisms of the Last 2000 Years. Springer Verlag, Berlin, pp. 109124.Google Scholar
Jayko, A.S., 2009. Surficial geologic map of the Darwin Hills 30’ × 60’ quadrangle, Inyo County, California. U.S. Geological Survey Scientific Investigations Map 3040, scale 1:100,000. United States Government Printing Office, Washington.Google Scholar
Jayko, A.S., Bacon, S.N., 2008. Late Quaternary MIS 6–8 shoreline features of pluvial Owens Lake, Owens Valley, eastern California. In: Reheis, M.C., Hershler, R., Miller, D.M. (Eds.) Late Cenozoic Drainage History of the Southwestern Great Basin and Lower Colorado River Region: Geologic and Biotic Perspectives, Geological Society of America Special Paper 439, 185206.Google Scholar
Ji, Z.G., 2017. Hydrodynamics and Water Quality: Modeling Rivers, Lakes, and Estuaries. John Wiley & Sons Inc., New Jersey. Google Scholar
Kleppe, J.A., Brothers, D.S., Kent, G.M., Biondi, F., Jensen, S., Driscoll, N.W., 2011. Duration and severity of medieval drought in the Lake Tahoe basin. Quaternary Science Reviews 30, 32693279.Google Scholar
Konrad, S.K., Clark, D.H., 1998. Evidence for and early Neoglacial glacier advance from rock glaciers and lake sediments in the Sierra Nevada, California, USA. Arctic and Alpine Research 30, 272284.Google Scholar
LaMarche, V.C. Jr., 1974. Paleoclimatic inferences from long tree-ring records. Science 183, 10431048.Google Scholar
Lancaster, N., Baker, S., Bacon, S., McCarley-Holder, G., 2015. Owens Lake dune fields: composition, sources of sand, and transport pathways. Catena 134, 4149.Google Scholar
Lancaster, N., McCarley-Holder, G., 2013. Decadal-scale evolution of a small dune field: Keeler Dunes, California 1944–2010. Geomorphology 180–181, 281291.Google Scholar
Le, K., Lee, J., Owen, L.A., Finkel, R., 2007. Late Quaternary slip rates along the Sierra Nevada frontal fault zone, California: evidence for slip partitioning across the western margin of the Eastern California Shear Zone–Basin and Range Province. Geological Society of America Bulletin 119, 240256.Google Scholar
Leavitt, S.W., 1994. Major wet interval in the White Mountains Medieval Warm Period evidenced in δ13C of bristlecone pine tree rings. Climatic Change 26, 299307.Google Scholar
Lee, C.H., 1915. Report on hydrology of Owens Lake basin and the natural soda industry as affected by the Los Angeles Aqueduct diversion. Report written by City Hydraulic Engineer, Los Angeles, California. Los Angeles Department of Water and Power, Los Angeles.Google Scholar
Le Roux, J.P., 2010. Sediment entrainment under fully developed waves as a function of water depth, boundary layer thickness, bottom slope and roughness. Sedimentary Geology 223, 143149.Google Scholar
Li, B., Roberts, R.G., Jacobs, Z., 2014. On the dose dependency of the bleachable and non-bleachable components of IRSL from K-feldspar: improved procedures for luminescence dating of Quaternary Sediments. Quaternary Geology 17, 113.Google Scholar
Li, H., Bischoff, J.L., Ku, T., Lund, S.P., Stott, L.D., 2000. Climate variability in east-central California during the past 1000 years reflected by high-resolution geochemical and isotopic records from Owens Lake sediments. Quaternary Research 54, 187197.Google Scholar
Lund, S.P., Newton, M.S., Hammond, D.E., Davis, O.K., Bradbury, J.P., 1993. Late Quaternary stratigraphy of Owens Lake, California. In: Benson, L.V. (Ed.) Proceedings on the Workshop “Ongoing Paleoclimatic Studies in the Northern Great Basin, U.S. Geological Survey Circular 1119, 4752.Google Scholar
Martin, E.A., Rice, C.A., 1981. Sampling and analyzing sediment cores for 210Pb geochronology. U.S. Geological Survey Open-File Report, 81983.Google Scholar
Matsubara, Y., Howard, A.D., 2009. A spatially explicit model of runoff, evaporation, and lake extent: Application to modern and late Pleistocene lakes in the Great Basin region, western United States. Water Resources Research 45, W06425.Google Scholar
McDonald, E.V., McFadden, L.D., Wells, S.G., 2003. Regional response of alluvial fans to the Pleistocene-Holocene climatic transition, Mojave Desert, California. In: Enzel, Y., Wells, S.G., Lancaster, N. (Eds.) Paleoenvironments and Paleohydrology of the Mojave and Southern Great Basin Deserts, Geological Society of America Special Paper 368, 189205.Google Scholar
McFadden, L.D., McDonald, E.V., Wells, S.G., Anderson, K., Quade, J., Forman, S.L., 1998. The vesicular layer and carbonate collars of desert soils and pavements: formation, age and relation to climate change. Geomorphology 24, 101145.Google Scholar
McFadden, L.D., Ritter, J.B., Wells, S.G., 1989. Use of multiparameter relative-age methods for age estimation and correlation of alluvial-fan surfaces on a desert piedmont, eastern Mojave Desert, California. Quaternary Research 32, 276290.Google Scholar
Meko, D.M., Woodhouse, C.A., 2011. Application of streamflow reconstruction to water resources management. In: Hughes, M.K., Swetnam, T.W., Diaz H.F. (Eds.), Dendroclimatology: Progress and Prospects. Springer, Dordrecht, pp. 231261.Google Scholar
Mensing, S.A., 2001. Late-glacial and early Holocene vegetation and climate change near Owens Lake, eastern California. Quaternary Research 55, 5765.Google Scholar
Mensing, S.A., Sharpe, S.E., Tunno, I., Sada, D.W., Thomas, J.M., Starratt, S., Smith, J., 2013. The Lake Holocene Dry Period: multiproxy evidence for an extended drought between 2800 and 1850 cal yr BP across the central Great Basin, USA. Quaternary Science Reviews 78, 266282.Google Scholar
Mensing, S.A., Smith, J., Norman, K.B., Allen, M., 2008. Extended drought in the Great Basin of western North America in the last two millennia reconstructed from pollen records. Quaternary International 188, 7989.Google Scholar
Mihevc, T.M., Cochran, G.F., and Hall, M., 1997. Simulation of Owens Lake water levels. Unpublished report prepared by Water Resources Center, Desert Research Institute, Reno for the Great Basin Unified Air Pollution Control District (June 1997), Publication No. 41155., 30 p.Google Scholar
Munroe, J.S., Laabs, B.J., 2013. Temporal correspondence between pluvial lake highstands in the southwestern US and Heinrich Event 1. Journal of Quaternary Science 28, 4958.Google Scholar
Nayar, K.G., Sharqawy, M.H., Banchik, L.D., LienhardV., J.H. V., J.H., 2016. Thermophysical properties of seawater: a review and new correlations that include pressure dependence. Desalination 390, 124.Google Scholar
Negrini, R.M., Wigand, P.E., Draucker, S., Gobalet, K., Gardner, J.K., Sutton, M.Q., Yohe, R.M., 2006. The Rambla highstand shoreline and the Holocene lake-level history of Tulare Lake, California, USA. Quaternary Science Reviews 25, 15991618.Google Scholar
Newton, M.S., 1991. Holocene Stratigraphy and Magnetostratigraphy of Owens and Mono Lakes, Eastern California. PhD dissertation, University of Southern California, Los Angeles.Google Scholar
Orme, A.R., Orme, A.J., 2008. Late Pleistocene shorelines of Owens Lake, California, and their hydroclimatic and tectonic implication. In: Reheis, M.C., Hershler, R., Miller, D.M. (Eds.) Late Cenozoic Drainage History of the Southwestern Great Basin and Lower Colorado River Region: Geologic and Biotic Perspectives, Geological Society of America Special Paper 439, 207226.Google Scholar
Otvos, E.G., 2000. Beach ridges: definitions and significance. Geomorphology 32, 83108.Google Scholar
Pagano, T., Garen, D., 2005. A recent increase in western U.S. streamflow variability and persistence. Journal of Hydrometeorology 6, 173179.Google Scholar
Peterson, F.F., 1981. Landforms of the Basin and Range province: defined for soil surveys. Nevada agriculture experiment station, Technical Bulletin 28. University of Nevada, Reno.Google Scholar
Reardon, K.E., Moreno-Casas, P.A., Bombardelli, F.A., Schladow, S.G., 2016. Seasonal nearshore sediment resuspension and water clarity at Lake Tahoe. Lake and Reservoir Management 32, 132145.Google Scholar
Redmond, K.T., Koch, R.W., 1991. Surface climate and streamflow variability in the western United States and their relationship to large scale circulation indices. Water Resources Research 27, 23812399.Google Scholar
Reheis, M.C., Adams, K.D., Oviatt, C.G., Bacon, S.N., 2014. Pluvial lakes in the Great Basin of the western United States – a view from the outcrop. Quaternary Science Reviews 97, 3357.Google Scholar
Reimer, P., Bard, E., Bayliss, A., Beck, J., Blackwell, P., Ramsey, C., Van der Plicht, J., 2013. IntCal13 and marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55, 18691887.Google Scholar
Rhodes, E.J., 2015. Dating sediments using potassium feldspar single-grain IRSL: initial methodological considerations. Quaternary International 362, 1422.Google Scholar
Rohweder, J., Rogala, J.T., Johnson, B.L., Anderson, D., Clark, S., Chamberlin, F., Runyon, K., 2008. Application of wind fetch and wave models for habitat rehabilitation and enhancement projects. U.S. Geological Survey Open-File Report 2008–1200. United States Government Printing Office, Washington.Google Scholar
Salzer, M.W., Bunn, A.G., Graham, N.E., Hughes, M.K., 2014. Five millennia of paleotemperature from tree-rings in the Great Basin, USA. Climate Dynamics 42, 15171526.Google Scholar
Salzer, M.W., Hughes, M.K., Bunn, A.G., Kipfmueller, K.F., 2009. Recent unprecedented tree-ring growth in bristlecone pine at the highest elevations and possible causes. Proceedings of the US National Academy of Sciences 106, 20348–20353. Google Scholar
Scuderi, L.A., 1987a. Late Holocene upper timberline variation in the southern Sierra Nevada. Nature 325, 242244.Google Scholar
Scuderi, L.A., 1987b. Glacier variations in the Sierra Nevada, California, as reflected to a 1200-year tree-ring chronology. Quaternary Research 27, 220231.Google Scholar
Scuderi, L.A., 1993. A 2000-year tree ring record of annual temperatures in the Sierra Nevada Mountains. Science 259, 14331436.Google Scholar
Sharqawy, M.H., Lienhard, J.H., Zubair, S.M., 2010. Thermophysical properties of seawater: a review of existing correlations and data. Desalination and Water Treatment 16, 354380.Google Scholar
Slemmons, D.B., Vittori, E., Jayko, A.S., Carver, G.A., Bacon, S.N., 2008. Quaternary fault and lineament map of Owens Valley, Inyo County, eastern California. Geological Society of America Map and Chart 96. Geological Society of America, Denver.Google Scholar
Smith, G.I., 1997. Stratigraphy, lithologies, and sedimentary structures of 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, 924.Google Scholar
Smith, G.I., Bischoff, J.L., 1997. Core OL-92 from Owens Lake: Project rationale, geologic setting, drilling procedures, and summary. 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, 18.Google Scholar
Smith, G.I., Bischoff, J.L., 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, 143160.Google Scholar
Smith, G.I., Pratt, W.P., 1957. Core logs from Owens, China, Searles, and Panamint Basins, California. U.S. Geological Survey Bulletin 1045-A, 162.Google Scholar
Smoot, J.P., Litwin, R.J., Bischoff, J.L., Lund, S.P., 2000. Sedimentary record of the 1872 earthquake and “Tsunami” at Owens Lake, southeast California. Journal of Sedimentary Geology 135, 241254.Google Scholar
Solomina, O.N., Bradley, R.S., Jomelli, V., Geirsdottir, A., Kaufman, D.S., Koch, J., McKay, N.P., et al., 2016. Glacier fluctuations during the past 2000 years. Quaternary Science Reviews 149, 6190.Google Scholar
Stine, S., 1990. Late Holocene fluctuations of Mono Lake, eastern California. Paleogeography, Paleoclimatology, and Paleoecology 78, 333381.Google Scholar
Stine, S., 1994. Extreme and persistent drought in California and Patagonia during Medieval time. Nature 339, 546549.Google Scholar
Stinson, M.C., 1977. Geology of the Keeler 15’ quadrangle, Inyo County, California, California Division of Mines and Geology Map Sheet 38, scale 1:62,500. California Division of Mines and Geology, Sacramento.Google Scholar
Stone, P., Dunne, G.C., Conrad, J.E., Swanson, B.J., Stevens, C.H., Valin, V.C., 2004. Geologic map of the Cerro Gordo Peak 7.5’ quadrangle, Inyo County, California. U.S. Geological Survey Scientific Investigations Map 2851, scale 1:24,000. United States Government Printing Office, Washington.Google Scholar
Stone, P., Dunne, G.C., Moore, J.G., Smith, G.I., 2000. Geologic map of the Lone Pine 15’ quadrangle, Inyo County, California. U.S. Geological Survey Scientific Investigations Map 2617, scale 1:64,000. United States Government Printing Office, Washington.Google Scholar
Street, J.H., Anderson, R.S., Paytan, A., 2012. An organic geochemical record of Sierra Nevada climate since the LGM from Swamp Lake Yosemite. Quaternary Science Reviews 40, 89106.Google Scholar
Street, J.H., Anderson, R.S., Rosenbauer, R.J., Paytan, A., 2013. n-Alkane evidence for the onset of wetter conditions in the Sierra Nevada, California (USA) at the mid-Holocene transition, ~3.0 ka. Quaternary Research 79, 1423.Google Scholar
Stuiver, M., Reimer, P.J., 1993. Extended 14C data base and revised CALIB 3.0 14C age calibration program. In: Stuiver, M., Long, A., Kra, R.S. (Eds.) Calibration 1993, Radiocarbon 35, 215230.Google Scholar
Stuiver, M., Reimer, P.J., Reimer, R.W., 2017. CALIB 7.1 (accessed February 21, 2017). http://calib.org.Google Scholar
Teeter, A.M., Johnson, B.H., Berger, C., Stelling, G., Scheffner, N.W., Garcia, M.H., Parchure, T.M., 2001. Hydrodynamic and sediment transport modeling with emphasis on shallow-water, vegetated areas (lakes, reservoirs, estuaries and lagoons). Hydrobiologia 444, 1–23. Google Scholar
Tolwinski-Ward, S.E., Tingley, M.P., Evans, M.N., Hughes, M.K., Nychka, D.W., 2015. Probabilistic reconstructions of local temperature and soil moisture from tree-ring data with potentially time-varying climatic response. Climate Dynamics 44, 791806.Google Scholar
United States Army Corps of Engineers (USACE). 1984. Shore Protection Manual Volume 1. U.S. Army Engineer Waterways Experiment Station, Vicksburg, Mississippi.Google Scholar
United States Army Corps of Engineers (USACE). 2002. Coastal Engineering Manual. Engineer Manual 1110-2-1100, Part II and III. United States Corps of Engineers, Washington DC.Google Scholar
Vogel, R.M., Tsai, Y., Limbrunner, J.F., 1998. The regional persistence and variability of annual streamflow in the United States. Water Resources Research 34, 34453459.Google Scholar
Wentworth, C.K., 1922. A scale of grade and class terms for clastic sediments. Journal of Geology 30, 377392.Google Scholar
Winkle, W.V., Eaton, F.M., 1910. Quality of the surface waters of California. United States Geological Survey, Water-Supply Paper 237. United States Government Printing Office, Washington.Google Scholar
Yu, Z., Dong, W., Jiang, P., 2015. Temperature and rainfall estimates for past 18000 years in Owens Valley, California with a coupled catchment-lake model. Hydrology and Earth System Sciences 12, 65056539.Google Scholar
Zhong, S., Li, J., Whiteman, C.D., Bian, X., Yao, W., 2008. Climatology of high wind events in the Owens Valley, California. Monthly Weather Review 136, 35363552.Google Scholar
Supplementary material: File

Bacon et al. supplementary material

Bacon et al. supplementary material 1

Download Bacon et al. supplementary material(File)
File 18 KB