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  • Allen, P. A., and A. L. Densmore (2000), Sediment flux from an uplifting fault block, Basin Res., 12, 367380.
  • Beanland, S., and M. M. Clark (1994), The Owens Valley Fault Zone, eastern California, and surface faulting associated with the 1872 earthquake, U.S. Geol. Surv. Bull., 1982, 129.
  • Beaty, C. B. (1963), Origin of alluvial fans, White Mountains, California and Nevada, Ann. Assoc. Am. Geogr., 53, 516535.
  • Benson, L. V., and R. S. Thompson (1987), Lake-level variation in the Lahonton basin for the past 50,000 years, Quat. Res., 28, 6985.
  • Benson, L. V., D. R. Currey, R. I. Dorn, K. R. Lajoie, C. G. Oviatt, S. W. Robinson, G. I. Smith, and S. Stine (1990), Chronology of expansion and contraction of 4 Great Basin lake systems during the past 35,000 years, Palaeogeogr. Palaeoclimatol. Palaeoecol., 78, 241286.
  • Bierman, P. R., A. Gillespie, K. X. Whipple, and D. Clark (1991), Quaternary geomorphology and geochronology of Owens Valley, California, in Geological Excursions in Southern California and Mexico, edited by M. J. Walawender, and B. B. Hanan, pp. 199223, Geol. Soc. of Am., San Diego, Calif.
  • Bierman, P. R., A. R. Gillespie, and M. W. Caffee (1995), Cosmogenic ages for earthquake recurrence intervals and debris flow fan deposition, Owens Valley, California, Science, 270, 447450.
  • Blair, T. C. (1999), Sedimentology of the debris-flow dominated Warm Spring Canyon alluvial fan, Death Valley, California, Sedimentology, 46, 941965.
  • Blair, T. C., and J. G. McPherson (1994), Alluvial fan processes and forms, in Geomorphology of Desert Environments, edited by A. D. Abrahams, and A. J. Parsons, pp. 354402, Chapman and Hall, London.
  • Brocklehurst, S. H., and K. X. Whipple (2002), Glacial erosion and relief production in the eastern Sierra Nevada, California, Geomorphology, 42, 124.
  • Bull, W. B. (1964a), History and causes of channel trenching in western Fresno County, California, Am. J. Sci., 262, 249258.
  • Bull, W. B. (1964b), Geomorphology of segmented alluvial fans in western Fresno County, California, U.S. Geol. Surv. Prof. Pap., 352-E, 1128.
  • Bull, W. B. (1977), The alluvial fan environment, Prog. Phys. Geogr., 1, 222270.
  • Bull, W. B. (1991), Geomorphic Responses to Climatic Changes, 326 pp., Oxford Univ. Press, Oxford, U. K.
  • Denny, C. S. (1965), Alluvial fans in the Death Valley region, California and Nevada, U.S. Geol. Surv. Prof. Pap., 466, 162.
  • Densmore, A. L., P. A. Allen, and G. Simpson (2007), Development and response of a coupled catchment fan system under changing tectonic and climatic forcing, J. Geophys. Res., 112, F01002, doi:10.1029/2006JF000474.
  • Dühnforth, M. (2007), Sediment flux and deposition on arid-region fan in eastern California, USA, Ph.D. thesis, Eidg. Tech. Hochsch. Zürich, Zurich, Switzerland.
  • Dutton, C. E. (1880), Geology of the high plateaus of Utah, U.S. Geogr. Geol. Surv. Rocky Mtn. Reg., report, U.S. Gov. Print. Off., Washington, D. C.
  • Eckis, R. (1928), Alluvial fans in the Cucamonga district, southern California, J. Geol., 36, 111141.
  • Fraser, G. S., and P. G. DeCelles (1992), Geomorphic controls on sediment accumulation at margins of foreland basins, Bas. Res., 4, 233252.
  • Gillespie, A. R. (1982), Quaternary glaciation and tectonism in the southeastern Sierra Nevada, Inyo County, California, Ph.D. thesis, 687 pp., Calif. Inst. of Technol., Pasadena.
  • Hales, J. E. (1974), Southwestern United States summer monsoon source: Gulf of Mexico or Pacific Ocean? J. Appl. Meteorol., 13, 331342.
  • Harvey, A. M. (1984), Aggradation and dissection sequences on Spanish alluvial fans: Influence on morphological development, Catena, 11, 289304.
  • Harvey, A. M., P. E. Wigand, and S. G. Wells (1999), Response of alluvial fan systems to the late Pleistocene to Holocene climatic transition: Contrasts between the margins of pluvial Lakes Lahonton and Mojave, Nevada and California, USA, Catena, 36, 255281.
  • Hollet, K. J., W. R. Danskin, W. F. McCaffrey, and C. L. Walti (1991), Geology and water resources of Owens Valley, California, U.S. Geol. Surv. Water Supply Pap., 2370-B, 177.
  • Hooke, R. L. (1967), Processes on arid-region alluvial fans, J. Geol., 75, 438460.
  • Hooke, R. L. (1972), Geomorphic evidence for late-Wisconsin and Holocene tectonic deformation, Death Valley, California, Geol. Soc. Am. Bull., 83, 20732098.
  • Hooke, R. L., and R. I. Dorn (1992), Segmentation of alluvial fan in Death Valley, California: New insights from surface exposure dating and laboratory modelling, Earth Surf. Processes Landforms, 17, 557574.
  • Hostetler, S. W., and P. U. Clark (1997), Climatic controls of western US glaciers at the Last Glacial Maximum, Quat. Sci. Rev., 16, 505511.
  • Hunt, C. B., and D. R. Mabey (1966), General geology of Death Valley, California–Stratigraphy and structure, Death Valley, California, U.S. Geol. Surv. Prof. Pap., 494-A, 1162.
  • Ivy-Ochs, S. (1996), The dating of rock surface using in situ produced 10Be, 26Al, and 36Cl, with examples from Antarctica and the Swiss Alps, Ph.D. thesis, 196 pp., Swiss Fed. Inst. of Technol., Zurich.
  • Kessler, M. A., R. S. Anderson, and G. M. Stock (2006), Modeling topographic and climatic control of east–west asymmetry in Sierra Nevada glacier length during the Last Glacial Maximum, J. Geophys. Res., 111, F02002, doi:10.1029/2005JF000365.
  • Kohl, C. P., and K. Nishiizumi (1992), Chemical isolation of quartz for measurement of in situ-produced cosmogenic nuclides, Geochim. Cosmochim. Acta, 56, 35833587.
  • Lal, D. (1991), Cosmic ray labeling of erosion surfaces: In situ nuclide production rates and erosion models, Earth Planet. Sci. Lett., 104, 424439.
  • Li, H. C., J. L. Bischoff, T. L. Ku, and Z. Y. Zhu (2004), Climate and hydrology of the last interglaciation (MIS 5) in Owens Basin, California: Isotopic and geochemical evidence from core OL-92, Quat. Sci. Rev., 23, 4963.
  • Lustig, L. K. (1965), Clastic sedimentation in Deep Springs Valley, California, U.S. Geol. Surv. Prof. Pap., 352-F, 1192.
  • Masarik, J., M. Frank, J. M. Schafer, and R. Wieler (2001), Correction of in situ cosmogenic nuclide production rates for geomagnetic field intensity variations during the past 800,000 years, Geochim. Cosmochim. Acta, 65, 29953003.
  • Menking, K. M., R. Y. Anderson, N. G. Shafike, K. H. Syed, and B. D. Allen (2004), Wetter or colder during the Last Glacial Maximum? Revisiting the pluvial lake question in southwestern North America, Quat. Res., 62, 280288.
  • Moore, J. G. (1963), Geology of the Mount Pinchot Quadrangle, southern Sierra Nevada, California, U.S. Geol. Surv. Bull., 1130, 1152.
  • Moore, J. G. (1981), Geologic map of the Mount Whitney Quadrangle, Inyo and Tulare counties, California, U.S. Geol. Surv. Geol. Quadrangle Map, GQ-1545.
  • Nichols, G. J., and J. A. Fisher (2007), Processes, facies and architecture of fluvial distributary system deposits, Sediment. Geol., 195, 7590, doi:10.1016/j.sedgeo.2006.07.004.
  • Ochs, M., and S. Ivy-Ochs (1997), The chemical behavior of Be, Al, Fe, Ca and Mg during AMS target preparation from terrestrial silicates modeled with chemical speciation calculations, Nucl. Instrum. Methods Phys. Res., Sect. B, 123, 235240.
  • Petit, J. R., et al. (1999), Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica, Nature, 399, 429436.
  • Pigati, J. S., and N. A. Lifton (2004), Geomagnetic effects on time-integrated cosmogenic nuclide production with emphasis on in situ C14 and Be10, Earth Planet. Sci. Lett., 226, 193205.
  • Reheis, M. C., J. L. Slate, C. K. Throckmorton, J. P. McGeehin, A. M. Sarna-Wojcicki, and L. Dengler (1996), Late quaternary sedimentation on the Leidy Creek fan, Nevada–California: Geomorphic responses to climate change, Basin Res., 8, 279299.
  • Ritter, J. B., J. R. Miller, Y. Enzel, and S. G. Wells (1995), Reconciling the roles of tectonism and climate in Quaternary alluvial fan evolution, Geology, 23, 245248.
  • Ritter, J. B., J. R. Miller, and J. Husek-Wulforst (2000), Environmental controls on the evolution of alluvial fans in Buena Vista Valley, north central Nevada, during late Quaternary time, Geomorphology, 36, 6387.
  • Robert, C. (2004), Late Quaternary variability of precipitation in southern California and climatic implications: Clay mineral evidence from the Santa Barbara Basin, ODP Site 893, Quat. Sci. Rev., 23, 10291040.
  • Small, E. E., R. S. Anderson, J. L. Repka, and R. Finkel (1997), Erosion rates of alpine bedrock summit surfaces deduced from in situ Be-10 and Al-26, Earth Planet. Sci. Lett., 150, 413425.
  • Stock, G. M. (2004), Topographic evolution and climate change in the Sierra Nevada, California, deduced from isotopic studies of cave deposits, Ph.D. thesis, 260 pp., Univ. of Calif., Santa Cruz.
  • Stone, J. O. (2000), Air pressure and cosmogenic isotope production, J. Geophys. Res., 105(B10), 23,75323,759.
  • Thompson, R. S., C. Whitlock, P. J. Bartlein, S. P. Harrison, and W. G. Spaulding (1993), Climate changes in the western United States since 18,000 yr B.P. in Global Climate Since the Last Glacial Maximum, edited by H. E. Wright et al., pp. 468513, Univ. of Minn. Press, Minneapolis.
  • Wells, S. G., L. D. McFadden, and J. C. Dohrenwend (1987), Influence of late Quaternary climatic changes on geomorphic and pedogenic processes on a desert piedmont, eastern Mojave Desert, California, Quat. Res., 27, 130146.
  • Whipple, K. X., and T. Dunne (1992), The influence of debris-flow rheology on fan morphology, Owens Valley, California, Geol. Soc. Am. Bull., 104, 887900.
  • Whipple, K. X., and C. R. Trayler (1996), Tectonic control of fan size: The importance of spatially variable subsidence rates, Basin Res., 8, 351366.
  • Zehfuss, P. H., P. R. Bierman, A. R. Gillespie, R. M. Burke, and M. W. Caffee (2001), Slip rates on the Fish Springs Fault, Owens Valley, California, deduced from cosmogenic 10Be and 26Al and soil development on fan surfaces, Geol. Soc. Am. Bull., 113, 241255.