Grootes, P.M., and M. Stuiver. 1997. Oxygen 18/16 variability in Greenland snow and ice with 10−3- to105-year time resolution. Journal of Geophysical Research 102(C12): 26455-26470.

Hilley, G.E., and J.R. Arrowsmith. 2008. Geomorphic response to uplift along the Dragon’s Back Pressure Ridge, Carrizo Plain, California. Geology 36:367-370.

Ivanov, V.Y., R.L. Bras, and E.R. Vivoni. 2008. Vegetation-hydrology dynamics in complex terrain of semiarid areas: I. A mechanistic approach to modeling dynamic feedbacks. Water Resources Research 44:W03429.

Iverson, N. 2008. Challenges and opportunities in Earth surface processes: A glaciocentric perspective. Powerpoint presentation to Committee on Challenges and Opportunities in Earth Surface Processes, June 24. On file at the National Academies Public Access Records Office.

Jibson, R.W. 2005. Landslide hazards at La Conchita, California. U.S. Geological Survey Open-File Report 2005-1067, 12 pp.

Koons, P.O. 1990. The two-sided orogen: Collision and erosion from the sand box to the Southern Alps, New Zealand. Geology 18:679-682.

Major, J.J., J.E. O’Connor, G.E. Grant, K.R. Spicer, H.M. Bragg, A. Rhode, D.Q. Tanner, C.W. Anderson, and J.R. Wallick. 2008. Initial fluvial response to the removal of Oregon’s Marmot Dam. Eos 89(27):241.

Merritts, D.M., G. Hilley, J.R. Arrowsmith, W. Carter, W. Dietrich, J. Jacobs, S. Martel, J. Roering, R. Shrestha, and N.P. Snyder. 2009. Workshop on Studying Earth Surface Processes with High-Resolution Topographic Data, Boulder, Colo. June 15-18, 2008. Available at (accessed May 20, 2009).

Mitchell, N.C., and J.M. Huthnance. 2007. Comparing the smooth, parabolic shapes of interfluves in continental slopes to predictions of diffusion transport models. Marine Geology 236(3-4):189-208.

Nagel, J., T. Dietz, and J. Broadbent. 2009. Workshop on Sociological Perspectives on Global Climate Change (summary of workshop proceedings held at NSF in Arlington, Va. May 30-31, 2008).

National Research Council (NRC). 2001a. Basic Research Opportunities in Earth Science. Washington, D.C.: National Academy Press, 154 pp.

NRC. 2001b. Compensating for Wetland Losses Under the Clean Water Act. Washington, D.C.: National Academy Press, 348 pp.

NRC. 2004. Facilitating Interdisciplinary Research. Washington, D.C.: The National Academies Press, 332 pp.

NRC. 2007a. Elevation Data for Floodplain Mapping. Washington, D.C.: The National Academies Press, 168 pp.

NRC. 2007b. Evaluating Progress of the U.S. Climate Change Science Program: Methods and Preliminary Results. Washington, D.C.: The National Academies Press, 178 pp.

NRC. 2008. Hydrology, Ecology, and Fishes of the Klamath River Basin. Washington, D.C.: The National Academies Press, 272 pp.

National Science Foundation (NSF). 2008. Surface Earth processes: Earth meets life, air and water. Powerpoint presentation to American Geophysical Union Surface Earth Processes Town Hall Meeting, December 18. On file at the National Academies Public Access Records Office.

Owen, L.A., G. Thackray, R.S. Anderson, J. Briner, D. Kaufman, G.H. Roe, W. Pfeffer, and C. Yi. 2008. Integrated research on mountain glaciers: Current status, priorities and future prospects. Geomorphology 103(2):158-171.

Perron, J.T., J.W. Kirchner, and W.E. Dietrich. 2009. Formation of evenly spaced ridges and valleys. Nature 460:502-505. doi:10.1038/nature08174.

Pfirman, S., and the AC-ERE. 2003. Complex environmental systems: Synthesis for Earth, life, and society in the 21st century, A report summarizing a 10-year outlook in environmental research and education for the National Science Foundation, 68 pp. Available at (accessed June 1, 2009).

Robinson, D.A., A. Binley, N. Crook, F.D. Day-Lewis, T.P.A. Ferre, V.J.S. Grauch, R. Knight, M. Knoll, V. Lakshmi, R. Miller, J. Nyquist, L. Pellerin, K. Singha, and L. Slater. 2008. Advancing process-based watershed hydrological research using near-surface geophysics: A vision for, and review of, electrical and magnetic geophysical methods. Hydrological Processes 22(18):3604-3635.

Roering, J.J. 2008. How well can hillslope evolution models “explain” topography? Simulating soil transport and production with high-resolution topographic data. GSA Bulletin 120(9/10):1248-1262.

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