Saturation of water reflectance in extremely turbid media based on field measurements, satellite data and bio-optical modelling

Yafei Luo; David Doxaran; Kevin Ruddick; Fang Shen; Bernard Gentili; Liwen Yan; Haijun Huang

doi:10.1364/OE.26.010435

Saturation of water reflectance in extremely turbid media based on field measurements, satellite data and bio-optical modelling

Yafei Luo
, David Doxaran
, Kevin Ruddick
, Fang Shen
, Bernard Gentili
, Liwen Yan
, Haijun Huang

State Key Laboratory of Estuarine and Coastal Research (School of Marine Sciences)

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

Evidence of water reflectance saturation in extremely turbid media is highlighted based on both field measurements and satellite data corrected for atmospheric effects. This saturation is obvious in visible spectral bands, i.e., in the blue, green and even red spectral regions when the concentration of suspended particulate matter (SPM) reaches then exceeds 100 to 1000 g.m⁻³. The validity of several bio-optical semi-analytical models is assessed in the case of highly turbid waters, based on comparisons with outputs of the Hydrolight radiative transfer model. The most suitable models allow to reproduce the observed saturation and, by inversion, to retrieve information on the SPM mass-specific inherent optical properties.

Original language	English
Pages (from-to)	10435-10451
Number of pages	17
Journal	Optics Express
Volume	26
Issue number	8
DOIs	https://doi.org/10.1364/OE.26.010435
State	Published - 16 Apr 2018

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title = "Saturation of water reflectance in extremely turbid media based on field measurements, satellite data and bio-optical modelling",

abstract = "Evidence of water reflectance saturation in extremely turbid media is highlighted based on both field measurements and satellite data corrected for atmospheric effects. This saturation is obvious in visible spectral bands, i.e., in the blue, green and even red spectral regions when the concentration of suspended particulate matter (SPM) reaches then exceeds 100 to 1000 g.m−3. The validity of several bio-optical semi-analytical models is assessed in the case of highly turbid waters, based on comparisons with outputs of the Hydrolight radiative transfer model. The most suitable models allow to reproduce the observed saturation and, by inversion, to retrieve information on the SPM mass-specific inherent optical properties.",

author = "Yafei Luo and David Doxaran and Kevin Ruddick and Fang Shen and Bernard Gentili and Liwen Yan and Haijun Huang",

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T1 - Saturation of water reflectance in extremely turbid media based on field measurements, satellite data and bio-optical modelling

AU - Luo, Yafei

AU - Doxaran, David

AU - Ruddick, Kevin

AU - Shen, Fang

AU - Gentili, Bernard

AU - Yan, Liwen

AU - Huang, Haijun

PY - 2018/4/16

Y1 - 2018/4/16

N2 - Evidence of water reflectance saturation in extremely turbid media is highlighted based on both field measurements and satellite data corrected for atmospheric effects. This saturation is obvious in visible spectral bands, i.e., in the blue, green and even red spectral regions when the concentration of suspended particulate matter (SPM) reaches then exceeds 100 to 1000 g.m−3. The validity of several bio-optical semi-analytical models is assessed in the case of highly turbid waters, based on comparisons with outputs of the Hydrolight radiative transfer model. The most suitable models allow to reproduce the observed saturation and, by inversion, to retrieve information on the SPM mass-specific inherent optical properties.

AB - Evidence of water reflectance saturation in extremely turbid media is highlighted based on both field measurements and satellite data corrected for atmospheric effects. This saturation is obvious in visible spectral bands, i.e., in the blue, green and even red spectral regions when the concentration of suspended particulate matter (SPM) reaches then exceeds 100 to 1000 g.m−3. The validity of several bio-optical semi-analytical models is assessed in the case of highly turbid waters, based on comparisons with outputs of the Hydrolight radiative transfer model. The most suitable models allow to reproduce the observed saturation and, by inversion, to retrieve information on the SPM mass-specific inherent optical properties.

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SN - 1094-4087

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EP - 10451

JO - Optics Express

JF - Optics Express

IS - 8

ER -

Saturation of water reflectance in extremely turbid media based on field measurements, satellite data and bio-optical modelling

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