An overview of approaches and challenges for retrieving marine inherent optical properties from ocean color remote sensing

An overview of approaches and challenges for retrieving marine inherent optical properties from ocean color remote sensing

•Ocean color algorithms for obtaining marine inherent optical properties are reviewed.•Known uncertainties associated with each approach and knowledge gaps are discussed.•Common performance metrics used to evaluate the satellite retrievals are provided.•Recommendations for future investment for upco...

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Veröffentlicht in:Progress in oceanography 2018-01, Vol.160, p.186-212
Hauptverfasser: Werdell, P. Jeremy, McKinna, Lachlan I.W., Boss, Emmanuel, Ackleson, Steven G., Craig, Susanne E., Gregg, Watson W., Lee, Zhongping, Maritorena, Stéphane, Roesler, Collin S., Rousseaux, Cécile S., Stramski, Dariusz, Sullivan, James M., Twardowski, Michael S., Tzortziou, Maria, Zhang, Xiaodong
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Bio-optics
Inherent optical properties
Ocean color
Oceanography
Satellite remote sensing
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container_end_page 212
container_issue
container_start_page 186
container_title Progress in oceanography
container_volume 160
creator Werdell, P. Jeremy
McKinna, Lachlan I.W.
Boss, Emmanuel
Ackleson, Steven G.
Craig, Susanne E.
Gregg, Watson W.
Lee, Zhongping
Maritorena, Stéphane
Roesler, Collin S.
Rousseaux, Cécile S.
Stramski, Dariusz
Sullivan, James M.
Twardowski, Michael S.
Tzortziou, Maria
Zhang, Xiaodong
description •Ocean color algorithms for obtaining marine inherent optical properties are reviewed.•Known uncertainties associated with each approach and knowledge gaps are discussed.•Common performance metrics used to evaluate the satellite retrievals are provided.•Recommendations for future investment for upcoming satellite missions are presented. Ocean color measured from satellites provides daily global, synoptic views of spectral water-leaving reflectances that can be used to generate estimates of marine inherent optical properties (IOPs). These reflectances, namely the ratio of spectral upwelled radiances to spectral downwelled irradiances, describe the light exiting a water mass that defines its color. IOPs are the spectral absorption and scattering characteristics of ocean water and its dissolved and particulate constituents. Because of their dependence on the concentration and composition of marine constituents, IOPs can be used to describe the contents of the upper ocean mixed layer. This information is critical to further our scientific understanding of biogeochemical oceanic processes, such as organic carbon production and export, phytoplankton dynamics, and responses to climatic disturbances. Given their importance, the international ocean color community has invested significant effort in improving the quality of satellite-derived IOP products, both regionally and globally. Recognizing the current influx of data products into the community and the need to improve current algorithms in anticipation of new satellite instruments (e.g., the global, hyperspectral spectroradiometer of the NASA Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) mission), we present a synopsis of the current state of the art in the retrieval of these core optical properties. Contemporary approaches for obtaining IOPs from satellite ocean color are reviewed and, for clarity, separated based their inversion methodology or the type of IOPs sought. Summaries of known uncertainties associated with each approach are provided, as well as common performance metrics used to evaluate them. We discuss current knowledge gaps and make recommendations for future investment for upcoming missions whose instrument characteristics diverge sufficiently from heritage and existing sensors to warrant reassessing current approaches.
doi_str_mv 10.1016/j.pocean.2018.01.001
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Given their importance, the international ocean color community has invested significant effort in improving the quality of satellite-derived IOP products, both regionally and globally. Recognizing the current influx of data products into the community and the need to improve current algorithms in anticipation of new satellite instruments (e.g., the global, hyperspectral spectroradiometer of the NASA Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) mission), we present a synopsis of the current state of the art in the retrieval of these core optical properties. Contemporary approaches for obtaining IOPs from satellite ocean color are reviewed and, for clarity, separated based their inversion methodology or the type of IOPs sought. Summaries of known uncertainties associated with each approach are provided, as well as common performance metrics used to evaluate them. 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Ocean color measured from satellites provides daily global, synoptic views of spectral water-leaving reflectances that can be used to generate estimates of marine inherent optical properties (IOPs). These reflectances, namely the ratio of spectral upwelled radiances to spectral downwelled irradiances, describe the light exiting a water mass that defines its color. IOPs are the spectral absorption and scattering characteristics of ocean water and its dissolved and particulate constituents. Because of their dependence on the concentration and composition of marine constituents, IOPs can be used to describe the contents of the upper ocean mixed layer. This information is critical to further our scientific understanding of biogeochemical oceanic processes, such as organic carbon production and export, phytoplankton dynamics, and responses to climatic disturbances. Given their importance, the international ocean color community has invested significant effort in improving the quality of satellite-derived IOP products, both regionally and globally. Recognizing the current influx of data products into the community and the need to improve current algorithms in anticipation of new satellite instruments (e.g., the global, hyperspectral spectroradiometer of the NASA Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) mission), we present a synopsis of the current state of the art in the retrieval of these core optical properties. Contemporary approaches for obtaining IOPs from satellite ocean color are reviewed and, for clarity, separated based their inversion methodology or the type of IOPs sought. Summaries of known uncertainties associated with each approach are provided, as well as common performance metrics used to evaluate them. We discuss current knowledge gaps and make recommendations for future investment for upcoming missions whose instrument characteristics diverge sufficiently from heritage and existing sensors to warrant reassessing current approaches.</abstract><cop>Goddard Space Flight Center</cop><pub>Elsevier Ltd</pub><pmid>30573929</pmid><doi>10.1016/j.pocean.2018.01.001</doi><tpages>27</tpages><oa>free_for_read</oa></addata></record>
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subjects Bio-optics
Inherent optical properties
Ocean color
Oceanography
Satellite remote sensing
title An overview of approaches and challenges for retrieving marine inherent optical properties from ocean color remote sensing
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