Bio-optics of the Chesapeake Bay from measurements and radiative transfer closure
暂无分享,去创建一个
Maria Tzortziou | Ziauddin Ahmad | Jay R. Herman | Ajit Subramaniam | Lawrence W. Harding | Patrick J. Neale | Charles L. Gallegos | J. Herman | Z. Ahmad | C. Gallegos | A. Subramaniam | L. Harding | M. Tzortziou | P. Neale
[1] K. Carder,et al. Semianalytic Moderate‐Resolution Imaging Spectrometer algorithms for chlorophyll a and absorption with bio‐optical domains based on nitrate‐depletion temperatures , 1999 .
[2] R. Maffione,et al. Instruments and methods for measuring the backward-scattering coefficient of ocean waters. , 1997, Applied optics.
[3] T. J. Petzold. Volume Scattering Functions for Selected Ocean Waters , 1972 .
[4] J. Kirk,et al. Monte Carlo modeling of the performance of a reflective tube absorption meter. , 1992, Applied optics.
[5] K. Baker,et al. Optical properties of the clearest natural waters (200-800 nm). , 1981, Applied optics.
[6] A. J. Allnutt. Optical Aspects of Oceanography , 1975 .
[7] G. F. Humphrey,et al. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton , 1975 .
[8] M. Perry,et al. Modeling in situ phytoplankton absorption from total absorption spectra in productive inland marine waters , 1989 .
[9] E. Fry,et al. Absorption spectrum (380-700 nm) of pure water. II. Integrating cavity measurements. , 1997, Applied optics.
[10] J. Gower,et al. Observations of in situ fluorescence of chlorophyll-a in Saanich Inlet , 1980 .
[11] D. Siegel,et al. Inherent optical property inversion of ocean color spectra and its biogeochemical interpretation: 1. Time series from the Sargasso Sea , 1997 .
[12] Lisa R. Moore,et al. Determination of spectral absorption coefficients of particles, dissolved material and phytoplankton for discrete water samples , 2000 .
[13] Catherine A. Brown,et al. New algorithms for MODIS sun‐induced chlorophyll fluorescence and a comparison with present data products , 2005 .
[14] R. W. Austin,et al. Ocean Optics Protocols for Satellite Ocean Color Sensor Validation , 2013 .
[15] Casey C. Moore,et al. Scattering error correction of reflecting-tube absorption meters , 1994, Other Conferences.
[16] H. Gordon,et al. Diffuse reflectance of the ocean: the theory of its augmentation by chlorophyll a fluorescence at 685 nm. , 1979, Applied optics.
[17] B Gentili,et al. Determination of the fluorescence quantum yield by oceanic phytoplankton in their natural habitat. , 2000, Applied optics.
[18] G. Zibordi,et al. Measured and modeled radiometric quantities in coastal waters: toward a closure. , 2003, Applied optics.
[19] Michael S. Twardowski,et al. Particulate backscattering ratio at LEO 15 and its use to study particle composition and distribution , 2004 .
[20] Stéphane Maritorena,et al. Optimization of a semianalytical ocean color model for global-scale applications. , 2002, Applied optics.
[21] L. Prieur,et al. Analysis of variations in ocean color1 , 1977 .
[22] C. Mobley,et al. Phase function effects on oceanic light fields. , 2002, Applied optics.
[23] C. Gallegos,et al. Partitioning spectral absorption in case 2 waters: discrimination of dissolved and particulate components. , 2002, Applied optics.
[24] Stelvio Tassan,et al. Variability of light absorption by aquatic particles in the near-infrared spectral region. , 2003, Applied optics.
[25] Dariusz Stramski,et al. Light absorption by aquatic particles in the near‐infrared spectral region , 2002 .
[26] J. Adolf,et al. Bio-optical model for Chesapeake Bay and the Middle Atlantic Bight , 2004 .
[27] J. Gower,et al. Use of the In Vivo Fluorescence Line at 685 nm for Remote Sensing Surveys of Surface Chlorophyll a , 1981 .
[28] Norman B. Nelson,et al. Calibration of an integrating sphere for determining the absorption coefficient of scattering suspensions. , 1993, Applied optics.
[29] C. Mobley,et al. Toward closure of upwelling radiance in coastal waters. , 2003, Applied optics.
[30] H. Gordon,et al. Self‐shading of in‐water optical instruments , 1992 .
[31] K. Carder,et al. Marine humic and fulvic acids: Their effects on remote sensing of ocean chlorophyll , 1989 .
[32] L. Harding,et al. SeaWiFS retrievals of chlorophyll in Chesapeake Bay and the mid-Atlantic bight , 2005 .
[33] Curtis D. Mobley,et al. A numerical model for the computation of radiance distributions in natural waters with wind‐roughened surfaces , 1988 .
[34] A. Morel. Optical properties of pure water and pure sea water , 1974 .
[35] L. Alberotanza,et al. Oceanography from Space , 1981, Marine Science.
[36] S. Tassan. The effect of dissolved “yellow substance” on the quantitative retrieval of chlorophyll and total suspended sediment concentrations from remote measurements of water colour , 1988 .
[37] G. Zibordi,et al. Instrument self-shading in underwater optical measurements: experimental data. , 1995, Applied optics.
[38] J R Zaneveld,et al. Absorption and attenuation of visible and near-infrared light in water: dependence on temperature and salinity. , 1997, Applied optics.
[39] Maria Tzortziou. MEASUREMENTS AND CHARACTERIZATION OF OPTICAL PROPERTIES IN THE CHESAPEAKE BAY'S ESTUARINE WATERS USING IN-SITU MEASUREMENTS, MODIS SATELLITE OBSERVATIONS, AND RADIATIVE TRANSFER MODELING , 2004 .
[40] C. Cox. Statistics of the sea surface derived from sun glitter , 1954 .
[41] Dariusz Stramski,et al. Variations in the light absorption coefficients of phytoplankton, nonalgal particles, and dissolved organic matter in coastal waters around Europe , 2003 .
[42] C. Mobley. Light and Water: Radiative Transfer in Natural Waters , 1994 .
[43] M Sydor,et al. Effect of suspended particulate and dissolved organic matter on remote sensing of coastal and riverine waters. , 1997, Applied optics.