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  • Albanakis, K. S. (1990), Testing of a model for the simulation of the volume reflectance of water due to suspended sediment under controlled conditions, for various sediment types, Int. J. Remote Sens., 11(9), 15331547.
  • Austin, R. W. (1980), Gulf of Mexico, ocean-color surface-truth measurements, Boundary-layer Meteorol., 18, 269285.
  • Babin, M., A. Morel, V. Fournier-Sicre, F. Fell, and D. Stramski (2003), Light scattering properties of marine particles in coastal and open ocean waters as related to the particle mass concentration, Limnol. Oceanogr., 48(2), 843859.
  • Bader, H. (1970), The hyperbolic distribution of particle sizes, J. Geophys. Res., 75(15), 28222830.
  • Bass, M., E. W. Van Stryland, D. R. Williams, and W. L. Wolfe (Eds.) (1995), Handbook of Optics–Volume I Fundamentals, Techniques, and Design, 2nd ed., 43.21 pp., McGraw-Hill, New York.
  • Bergmann, T., G. Fahnenstiel, S. Lohrenz, D. Millie, and O. Schofield (2004), Impacts of a recurrent resuspension event and variable phytoplankton community composition on remote sensing reflectance, J. Geophys. Res., 109, C10S15, doi:10.1029/2002JC001575.
  • Berk, A., G. P. Anderson, P. K. Acharya, M. L. Hoke, J. H. Chetwynd, L. S. Bernstein, E. P. Shettle, M. W. Matthew, and S. M. Adler-Golden (2003), MODTRAN4 Version 3 Revision 1 User's Manual, Air Force Research Laboratory, Hanscom AFB, MA.
  • Bohren, C., and D. R. Huffman (1983), Absorption and Scattering of Light by Small Particles, Wiley, New York.
  • Bowers, D. G., and C. E. Binding (2006), The optical properties of mineral suspended particles: A review and synthesis, Estuarine, Coastal Shelf Sci., 67, 219230.
  • Brando, V. E., and A. G. Dekker (2003), Satellite hyperspectral remote sensing for estimating estuarine and coastal water quality, IEEE Trans. Geosci. Remote Sens., 41(6), 13781387.
  • Bricaud, A., and A. Morel (1986), Light attenuation and scattering by photoplanktonic cells: A theoretical modeling, Appl. Opt., 25, 571580.
  • Bukata, R. P., J. H. Jerome, K. Y. Kondratyev, and D. V. Pozdnyakov (1995), Optical Properties and Remote Sensing of Inland Coastal Waters, 362 pp., CRC, Boca Raton, FL.
  • Chander, G., B. L. Markham, and J. Barsi (2007), Revised Landsat 5 thematic mapper radiometric calibration, IEEE Trans. Geosci. Remote Sens. Lett., 4, 490494.
  • Curran, P. J., and E. M. M. Novo (1988), The relationship between suspended sediment concentration and remotely sensed spectral radiance: A review, J. Coastal Res., 4, 351368.
  • Dekker, A. G., R. J. Vos, and S. W. M. Peters (2001), Comparison of remote sensing data, model results and in situ data for total suspended matter (TSM) in the southern Frisian lakes, Sci. Total Environ., 268, 197214.
  • Durand, D., J. Bijaoui, and F. Cauneau (2000), Optical remote sensing of shallow-water environmental parameters: A feasibility study, Remote Sens. Environ., 73(2), 152161.
  • Egan, W. G., and T. W. Hilgeman (1979), Optical Properties of Inhomogeneous Materials: Applications to Geology, Astronomy, Chemistry, and Engineering, 235 pp., Academic, New York.
  • Eshel, G., G. J. Levy, U. Mingelgrin, and M. J. Singer (2004), Critical evaluation of the use of laser diffraction for particle-size distribution analysis, Soil Sci. Soc. Am. J., 68, 736743.
  • Frette, Ø., J. J. Stamnes, and K. Stamnes (1998), Optical remote sensing of marine constituents in coastal waters: A feasibility study, Appl. Opt., 16(1), 202204.
  • Gaudoin, O., B. Yang, and M. Xie (2003), A simple goodness-of-fit test for the power-law process, based on the Duane plot, IEEE Trans. Reliab., 52(1), 6974.
  • Gillespie, J. B., J. D. Lindberg, and M. S. Smith (1974), Visible and near-infrared absorption coefficients of montmorillonite and related clays, Am. Mineral., 59, 11131116.
  • Gould, R. W., and R. A. Arnone (1997), Estimating the beam attenuation coefficient in coastal waters from AVHRR imagery, Cont. Shelf Res., 17(11), 13751387.
  • Green, R. E., and H. M. Sosik (2004), Analysis of apparent optical properties and ocean color models using measurements of seawater constituents in New England continental shelf surface waters, J. Geophys. Res., 109, C03026, doi:10.1029/2003JC001977.
  • Gregg, W. W., and K. Carder (1990), A simple spectral solar irradiance model for cloudless maritime atmospheres, Limnol. Oceanogr., 35, 16571675.
  • Harrison, A. W., and C. A. Coombes (1988), An opaque cloud cover model of sky short wavelength radiance, Solar Energy, 41(4), 387392.
  • Holyer, R. J. (1978), Toward universal multispectral suspended sediment algorithms, Remote Sens. Environ., 7, 323338.
  • Hoogenboom, H. J., A. G. Dekker, and J. F. deHaan (1998), Retrieval of chlorophyll and suspended matter from imaging spectrometry data by matrix inversion, Can. J. Remote Sens., 24(2), 144151.
  • Jonasz, M., and G. R. Fournier (2007), Light Scattering by Particles in Water: Theoretical and Experimental Foundations, Elsevier, London.
  • Kirk, J. T. O. (1994), Light and Photosynthesis in Aquatic Ecosystems, Cambridge University Press, Cambridge.
  • Legleiter, C. J., D. A. Roberts, A. W. Marcus, and M. A. Fonstad (2004), Passive optical remote sensing of river channel morphology and in-stream habitat: Physical basis and feasibility, Remote Sens. Environ., 93, 493510.
  • Marcus, A. W., and M. A. Fonstad (2010), Remote sensing of rivers: The emergence of a subdiscipline in the river sciences, Earth Surf. Process. Landforms, 35, 18671872.
  • Meade, R. H. (1985), Suspended sediment in the Amazon River and its tributaries in Brazil during 1982–1984. Open-File Report 85-492, edited, p. , 39, U.S. Geological Survey Open-File Report, Washington, D.C.
  • Mertes, L. A. K., A. Dekker, G. R. Brakenridge, C. Birkett, and G. Letourneau (2004), Rivers and Lakes, edited by S. L. Ustin, pp. 345400, John Wiley, New York.
  • Mie, G. (1908), Beiträge zur Optik trüber Medien, speziell kolloidaler Metallösungen, Ann. Phys., 330(3), 377445.
  • Milliman, J. D., and R. H. Meade (1983), World-wide delivery of river sediment to the oceans, J. Geol., 91(1), 121.
  • Mobley, C. D. (1994), Light and Water: Radiative Transfer in Natural Waters, 592 pp., Academic, San Diego, CA.
  • Mobley, C. D. (1999), Estimation of the remote-sensing reflectance from above-surface measurements, Appl. Opt., 38, 74427455.
  • Mobley, C. D., and L. K. Sundman (2001), Hydrolight 4.2 Technical Documentation, Sequoia Scientific, Redmond, CA.
  • Munday, J. C., and T. T. Alfoldi (1979), LANDSAT test of diffuse reflectance models for aquatic suspended solids measurement, Remote Sens. Environ., 8, 169183.
  • Ouillon, S., P. Douillet, and S. Andrefouet (2004), Coupling satellite data with in situ measurements and numerical modeling to study fine suspended-sediment transport: A study for the lagoon of New Caledonia, Coral Reefs, 23, 109122.
  • Patterson, E. M., D. A. Gillette, and B. H. Stockton (1977), Complex index of refraction between 300 and 700 nm for Saharan aerosols, J. Geophys. Res. Oceans Atm., 82(21), 31533160.
  • Pavelsky, T. M., and L. C. Smith (2009), Remote sensing of suspended sediment concentration, flow velocity, and lake recharge in the Peace-Athabasca Delta, Canada, Water Resour. Res., 45, W11417, doi:10.1029/2008WR007424.
  • Peng, F., S. W. Effler, D. O'Donnell, M. G. Perkins, and A. Weidemann (2007), Role of minerogenic particles in light scattering in lakes and a river in central New York, Appl. Opt., 46(26), 65776596.
  • Pope, R. M., and E. S. Fry (1997), Absorption spectrum (380–700 nm) of pure water. II. Integrating cavity measurements, Appl. Opt., 36(33), 87108723.
  • Ritchie, J. C., P. V. Zimba, and J. H. Everitt (2003a), Remote sensing techniques to assess water quality, Photogram. Eng. Remote Sens., 69, 695704.
  • Ritchie, J. C., P. V. Zimba, and J. H. Everitt (2003b), Remote sensing techniques to assess water quality, Photogram. Eng. Remote Sens., 69(6), 695704.
  • Roberts, D., K. Halligan, and P. Dennison (2007), VIPER Tools User Manual, Univ. of Calif., Santa Barbara, California.
  • Ruhl, C. A., D. H. Schoellhamer, R. P. Stumpf, and C. L. Lindsay (2001), Combined use of remote sensing and continuous monitoring to analyze the variability of suspended-sediment concentrations in San Francisco Bay, California, Estuarine, Coastal Shelf Sci., 53, 801812.
  • Schiebe, F. R., J. A. Harrington, and J. C. Ritchie (1992), Remote sensing of suspended sediments: The Lake Chicot, Arkansas project, Int. J. Remote Sens., 13(8), 14871509.
  • Sokolik, I. N., and O. B. Toon (1999), Incorporation of mineralogical composition into models of the radiative properties of mineral aerosol from UV to IR wavelengths, J. Geophys. Res., 104(D8), 94239444.
  • Stramski, D., M. Babin, and S. B. Wozniak (2007), Variations in the optical properties of terrigenous mineral-rich particulate matter suspended in seawater, Limnol. Oceanogr., 52(6), 24182433.
  • Stumpf, R. P., and J. R. Pennock (1989), Calibration of a general optical equation for remote sensing of suspended sediments in a moderately turbid estuary, J. Geophys. Res., 94(C10), 14,36314,371.
  • Teillet, P. M., D. L. Helder, B. L. Markham, J. L. Barker, K. J. Thome, R. Morfitt, J. R. Schott, and F. D. Palluconi (2001), A lifetime radiometric calibration record for the Landsat Thematic Mapper, in Proceedings of the Canadian Symposium on Remote Sensing, Quebec City, Quebec.
  • Toole, D. A., D. A. Siegel, D. W. Menzies, M. J. Neumann, and R. C. Smith (2000), Remote-sensing reflectance determinations in the coastal ocean environment: impact of instrumental characteristics and environmental variability, Appl. Opt., 39(3), 456469.
  • Whitlock, C. H., L. R. Poole, J. W. Usry, W. M. Houghton, W. G. Witte, W. D. Morris, and E. A. Gurganus (1981), Comparison of reflectance with backscatter and absorption parameters for turbid waters, Appl. Opt., 20(3), 517522.
  • Witte, W. G. (1982), Laboratory upwelled radiance and reflectance spectra of Kerr Reservoir sediment waters, NASA Technical Paper, 119.
  • Woodruff, D. L., R. P. Stumpf, J. A. Scope, and H. W. Paerl (1999), Remote estimation of water clarity in optically complex estuarine waters, Remote Sens. Environ., 68, 4152.
  • Wozniak, C. B., and D. Stramski (2004), Modeling the optical properties of mineral particles suspended in seawater and their influence on ocean reflectance and chlorophyll estimation from remote sensing algorithms, Appl. Opt., 43(17), 34893503.