Spectral variations in the near-infrared ocean reflectance

[1]  R. W. Austin,et al.  Ocean Optics Protocols for Satellite Ocean Color Sensor Validation , 2013 .

[2]  S. Hooker Platform and Environmental Effects on Above-And In-Water Determinations of Water-Leaving Radiances , 2013 .

[3]  B. Franz,et al.  Algorithm Updates for the Fourth Seawifs Data Reprocessing , 2013 .

[4]  M. Tratani,et al.  What is “atmospheric correction”? , 2013 .

[5]  Menghua Wang,et al.  Evaluation of MODIS SWIR and NIR-SWIR atmospheric correction algorithms using SeaBASS data , 2009 .

[6]  J. Ehn,et al.  Impact of sea ice on the retrieval of water-leaving reflectance, chlorophyll a concentration and inherent optical properties from satellite ocean color data , 2007 .

[7]  Dariusz Stramski,et al.  Variations in the optical properties of terrigenous mineral‐rich particulate matter suspended in seawater , 2007 .

[8]  David Doxaran,et al.  Near-infrared light scattering by particles in coastal waters. , 2007, Optics express.

[9]  Menghua Wang,et al.  Detection of turbid waters and absorbing aerosols for the MODIS ocean color data processing , 2007 .

[10]  A. Mangin,et al.  Estimation of light penetration, and horizontal and vertical visibility in oceanic and coastal waters from surface reflectance , 2007 .

[11]  Wei Shi,et al.  MODIS‐derived ocean color products along the China east coastal region , 2007 .

[12]  M. Defoin-Platel,et al.  How ambiguous is the inverse problem of ocean color in coastal waters , 2007 .

[13]  Michael S Twardowski,et al.  Hyperspectral temperature and salt dependencies of absorption by water and heavy water in the 400-750 nm spectral range. , 2006, Applied optics.

[14]  Giorgio Dall'Olmo,et al.  Effect of bio-optical parameter variability and uncertainties in reflectance measurements on the remote estimation of chlorophyll-a concentration in turbid productive waters: modeling results. , 2006, Applied optics.

[15]  David Doxaran,et al.  Apparent and inherent optical properties of turbid estuarine waters: measurements, empirical quantification relationships, and modeling. , 2006, Applied optics.

[16]  K. Ruddick,et al.  Seaborne measurements of near infrared water‐leaving reflectance: The similarity spectrum for turbid waters , 2006 .

[17]  A. Gitelson,et al.  Assessing the potential of SeaWiFS and MODIS for estimating chlorophyll concentration in turbid productive waters using red and near-infrared bands , 2005 .

[18]  M. Pinkerton,et al.  Modification to the atmospheric correction of SeaWiFS ocean colour images over turbid waters , 2005 .

[19]  Giorgio Dall'Olmo,et al.  Effect of bio-optical parameter variability on the remote estimation of chlorophyll-a concentration in turbid productive waters: experimental results. , 2005, Applied optics.

[20]  Machteld Rijkeboer,et al.  Effect of a Waveband Shift on Chlorophyll Retrieval from MERIS Imagery of Inland and Coastal Waters , 2004 .

[21]  D. Doxaran,et al.  Estimation of surface reflection effects on upwelling radiance field measurements in turbid waters , 2004 .

[22]  Stelvio Tassan,et al.  Variability of light absorption by aquatic particles in the near-infrared spectral region. , 2003, Applied optics.

[23]  Dariusz Stramski,et al.  Variations in the light absorption coefficients of phytoplankton, nonalgal particles, and dissolved organic matter in coastal waters around Europe , 2003 .

[24]  E. Boss,et al.  Spectral beam attenuation coefficient retrieved from ocean color inversion , 2003 .

[25]  Dariusz Stramski,et al.  Light scattering properties of marine particles in coastal and open ocean waters as related to the particle mass concentration , 2003 .

[26]  D. Antoine,et al.  Bidirectional reflectance of oceanic waters: accounting for Raman emission and varying particle scattering phase function. , 2002, Applied optics.

[27]  D. Doxaran,et al.  Spectral signature of highly turbid waters: Application with SPOT data to quantify suspended particulate matter concentrations , 2002 .

[28]  Stéphane Maritorena,et al.  Optimization of a semianalytical ocean color model for global-scale applications. , 2002, Applied optics.

[29]  Dariusz Stramski,et al.  Light absorption by aquatic particles in the near‐infrared spectral region , 2002 .

[30]  M. Sydor,et al.  Spectral Analysis of Bulk Reflectance from Coastal Waters: Deconvolution of Diffuse Spectra Due to Scattering and Absorption by Coastal Water , 2002 .

[31]  David Doxaran,et al.  A reflectance band ratio used to estimate suspended matter concentrations in sediment-dominated coastal waters , 2002 .

[32]  K. Ruddick,et al.  Optical remote sensing of chlorophyll a in case 2 waters by use of an adaptive two-band algorithm with optimal error properties. , 2001, Applied optics.

[33]  David T. Delpy,et al.  Noninvasive monitoring of brain tissue temperature by near-infrared spectroscopy , 2001, SPIE BiOS.

[34]  F. Muller‐Karger,et al.  Atmospheric Correction of SeaWiFS Imagery over Turbid Coastal Waters: A Practical Method , 2000 .

[35]  S. Maritorena,et al.  Atmospheric correction of satellite ocean color imagery: the black pixel assumption. , 2000, Applied optics.

[36]  K. Ruddick,et al.  Atmospheric correction of SeaWiFS imagery for turbid coastal and inland waters. , 2000, Applied optics.

[37]  C. Mobley,et al.  Estimation of the remote-sensing reflectance from above-surface measurements. , 1999, Applied optics.

[38]  M. Pinkerton,et al.  Calibration and Validation of Remotely Sensed Observations of Ocean Color from a Moored Data Buoy , 1999 .

[39]  H. Gons,et al.  Optical teledetection of chlorophyll a in turbid inland waters , 1999 .

[40]  V. I. Haltrin An analytic Fournier-Forand scattering phase function as an alternative to the Henyey-Greenstein phase function in hydrologic optics , 1998, IGARSS '98. Sensing and Managing the Environment. 1998 IEEE International Geoscience and Remote Sensing. Symposium Proceedings. (Cat. No.98CH36174).

[41]  J R Zaneveld,et al.  Absorption and attenuation of visible and near-infrared light in water: dependence on temperature and salinity. , 1997, Applied optics.

[42]  M. Perry,et al.  In situ phytoplankton absorption, fluorescence emission, and particulate backscattering spectra determined from reflectance , 1995 .

[43]  J. Luc Forand,et al.  Analytic phase function for ocean water , 1994, Other Conferences.

[44]  J. Jaffe Ocean Optics XII , 1994 .

[45]  D. Antoine,et al.  Heating rate within the upper ocean in relation to its bio-optical state , 1994 .

[46]  C. Mobley Light and Water: Radiative Transfer in Natural Waters , 1994 .

[47]  Menghua Wang,et al.  Retrieval of water-leaving radiance and aerosol optical thickness over the oceans with SeaWiFS: a preliminary algorithm. , 1994, Applied optics.

[48]  K. Stamnes,et al.  Comparison of numerical models for computing underwater light fields. , 1993, Applied optics.

[49]  L. Kou,et al.  Refractive indices of water and ice in the 0.65- to 2.5-µm spectral range. , 1993, Applied optics.

[50]  K. Carder,et al.  A simple spectral solar irradiance model for cloudless maritime atmospheres , 1990 .

[51]  M. Perry,et al.  Modeling in situ phytoplankton absorption from total absorption spectra in productive inland marine waters , 1989 .

[52]  A. Morel Optical modeling of the upper ocean in relation to its biogenous matter content (case I waters) , 1988 .

[53]  A. Bricaud,et al.  Light attenuation and scattering by phytoplanktonic cells: a theoretical modeling. , 1986, Applied optics.

[54]  H. Gordon,et al.  Clear water radiances for atmospheric correction of coastal zone color scanner imagery. , 1981, Applied optics.

[55]  André Morel,et al.  Report of the working group on water color , 1980 .

[56]  R. Colwell Remote sensing of the environment , 1980, Nature.

[57]  J. Munday,et al.  Landsat test of diffuse reflectance models for aquatic suspended solids measurement , 1979 .

[58]  A. J. Allnutt Optical Aspects of Oceanography , 1975 .

[59]  T. J. Petzold Volume Scattering Functions for Selected Ocean Waters , 1972 .

[60]  A. Rösel Optical Remote Sensing , 2013 .

[61]  Jocelyn Chanussot,et al.  Optical Remote Sensing , 2011 .

[62]  R. Macdonald,et al.  Primary productivity and export fluxes on the Canadian shelf of the Beaufort Sea: A modelling study , 2009 .

[63]  Veronica Hollis Non-invasive monitoring of brain tissue temperature by near-infrared spectroscopy , 2002 .

[64]  Jim Aiken,et al.  The atmospheric correction of water colour and the quantitative retrieval of suspended particulate matter in Case II waters: Application to MERIS , 1999 .

[65]  André Morel,et al.  A multiple scattering algorithm for atmospheric correction of remotely sensed ocean colour (MERIS instrument): Principle and implementation for atmospheres carrying various aerosols including absorbing ones , 1999 .

[66]  S. Lavender Remote sensing of suspended sediment , 1996 .

[67]  A. Morel,et al.  Atmospheric corrections and interpretation of marine radiances in czcs imagery, revisited , 1991 .

[68]  A. Morel Optical properties of pure water and pure sea water , 1974 .