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References

  • Aubrey, D. G., D. L. Inman, and C. D. Winant (1980), The statistical prediction of beach changes in southern California, J. Geophys. Res., 85, 32643276.
  • Barnard, P. L., J. Eshleman, L. Erikson, and D. M. Hanes (2007), Coastal processes study at Ocean Beach, San Francisco, CA: Summary of data collection 2004-1006, Open File Rep. 2007-1217, U.S. Geol. Surv., Reston, Va.
  • Barnard, P. L., L. H. Erikson, and J. E. Hansen (2009), Monitoring and modeling shoreline response due to shoreface nourishment on a high-energy coast, J. Coastal Res., 56, 2933.
  • Bruun, P. (1954), Coastal erosion and development of beach profiles, Tech. Memo. 44, U.S. Army Corps of Eng., Washington, D. C.
  • Dallas, K. L., and P. L. Barnard (2009), Linking human impacts within an estuary to ebb-tidal delta evolution, J. Coastal Res., 56, 713716.
  • Davidson, M. A., and I. L. Turner (2009), A behavioral template beach profile model for predicting seasonal to interannual shoreline evolution, J. Geophys. Res., 114, F01020, doi:10.1029/2007JF000888.
  • Davidson, M. A., R. P. Lewis, and I. L. Turner (2010), Forecasting seasonal to multi-year shoreline change, Coastal Eng., 57, 620629, doi:10.1016/j.coastaleng.2010.02.001.
  • Dean, R. G. (1977), Equilibrium beach profiles: U.S. Atlantic and Gulf coasts, Ocean Eng. Rep. 12, Dep. of Civ. Eng., Univ. of Del., Newark, Del.
  • Dean, R. G. (1991), Equilibrium beach profiles: Characteristics and applications, J. Coastal Res., 7, 5384.
  • Dubois, R. N. (1990), Barrier-beach erosion and rising sea level, Geology, 18, 11501152.
  • Eshleman, J. E., P. L. Barnard, E. L. H., and D. M. Hanes (2007), Coupling alongshore variations in wave energy to beach morphologic change using the SWAN wave model at Ocean Beach, San Francisco, CA, paper presented at 10th International Workshop on Wave Hindcasting and Forecasting, Oahu, Hawaii, Environ. Can., 11–16 Nov.
  • Hansen, J. E., and P. L. Barnard (2010), Sub-weekly to interannual variability of a high-energy shoreline, Coastal Eng., 57, 959972, doi:10.1016/j.coastaleng.2010.05.011.
  • Haxel, J. H., and R. A. Holman (2004), The sediment response of a dissipative beach to variations in wave climate, Mar. Geol., 206, 7399.
  • Kriebel, D. L., and R. G. Dean (1993), Convolution method for time-dependent beach profile response, J. Waterway Port Coastal Ocean Eng., 119, 204226.
  • Larson, M., and N. C. Kraus (1989), SBEACH: Numerical model for simulating storm-induced beach change, Tech. Rep. CERC-89-9, U.S. Army Corps of Eng., Vicksburg, Miss.
  • Larson, M., M. Capobianco, and H. Hanson (2000), Relationship between beach profiles and waves at Duck, North Carolina, determined by canonical correlation analysis, Mar. Geol., 160, 275288.
  • Lee, G., R. J. Nicholls, and W. A. Birkemeier (1998), Storm-driven variability of the beach-nearshore profile at Duck, North Carolina, USA, 1981–1991, Mar. Geol., 148, 163177.
  • List, J. H., and A. S. Farris (1999), Large-scale shoreline response to storms and fair weather, in Coastal Sediments '99, edited by N. C. Kraus, and W. G. McDougal, pp. 13241338, Am. Soc. of Civ. Eng., Reston, Va.
  • List, J. H., A. S. Farris, and C. Sullivan (2006), Reversing storm hotspots on sandy beaches: Spatial and temporal characteristics, Mar. Geol., 226, 261279.
  • Miller, J. K., and R. G. Dean (2004), A simple new shoreline change model, Coastal Eng., 51, 531556.
  • Miller, J. K., and R. G. Dean (2006), An engineering scale model for predicting the shoreline response to variations in waves and water levels, paper presented at 7th International Conference on HydroScience and Engineering, Am. Soc. of Civ. Eng., Philadelphia, Pa., 10–13 Sep.
  • Miller, J. K., and R. G. Dean (2007), Shoreline variability via empirical orthogonal function analysis: Part II. Relationship to nearshore conditions, Coastal Eng., 54, 133150.
  • Morton, R. A., J. C. Gibeaut, and J. G. Paine (1995), Meso-scale transfer of sand during and after storms: Implications for prediction of shoreline movement, Mar. Geol., 126, 161179.
  • National Oceanic and Atmostpheric Administration (2010), Tides and Currents, http://tidesandcurrents.noaa.gov/, Cent. of Oper. Prod. and Serv., Silver Spring, Md.
  • O'Reilly, W. C., and R. T. Guza (1998), Assimilating coastal wave observations in regional swell predictions. Part I: Inverse methods, J. Phys. Oceanogr., 28, 679691.
  • Quartel, S., A. Kroon, and B. G. Ruessink (2008), Seasonal accretion and erosion patterns on a microtidal sandy beach, Mar. Geol., 250, 1933, doi:10.1016/j.margeo.2007.11.003.
  • Wentworth, C. K. (1922), A scale of grade and class terms for clastic sediments, J. Geol., 30, 377392.
  • Wright, L. D., and A. D. Short (1984), Morphodynamic variability of surf zones and beaches: A synthesis, Mar. Geol., 56, 93118.
  • Wright, L. D., A. D. Short, and M. O. Green (1985), Short-term changes in the morphodynamic states of beaches and surf zones: An empirical predictive model, Mar. Geol., 62, 339364.
  • Yates, M. L., R. T. Guza, and W. C. O'Reilly (2009), Equilibrium shoreline response: Observations and modeling, J. Geophys. Res., 114, C09014, doi:10.1029/2009JC005359.