ADEOS-II/GLIの生物光学アルゴリズム

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概要

• 論文の詳細を見る

• Empirical bio-optical algorithms developed for GLI are described. These algorithms can be used to retrieve in-water properties from GLI normalized water leaving radiances in temperate Case 1 waters. The OC4 Chl-a algorithm uses the maximum band ratio switching procedure for bands that do not saturate over the ocean. GLI is the only ocean color sensor that has ultra-violet (UV) bands and we developed an experimental red tide UV index for the early detection of dinoflagellate blooms. The red tide index uses the increased absorption of UV light by mycosporine-like amino-acids (MAAs). A special version of the Chl-a algorithm was developed for the Southern Ocean Case 1 waters. The standard algorithms cannot be applied to turbid near-shore waters, e.g. off Korea and Hong Kong where bio-optical characteristics deviate drastically from Case 1 characteristics. Developing new and improved algorithms for Case 2 waters is a major challenge in bio-optical oceanography.

• 2009-01-31

著者

• MITCHELL B.

  Scripps Institution of Oceanography, UCSD

• KAHRU Mati

  Scripps Institution of Oceanography, UCSD

• Kahru Mati

  Scripps Institution Of Oceanography Ucsd

• Mitchell B.

  Scripps Institution Of Oceanography Ucsd

• Mitchell B.

  Scripps Institution Of Oceanography

関連論文

• Validation of ADEOS-II GLI Ocean Color Products Using In-Situ Observations
• ADEOS-II/GLIの生物光学アルゴリズム
• GLI海洋プロダクトの開発と利用研究(宇宙応用シンポジウム : ADEOS-II)
• Ocean Color Algorithms for Estimating Water Clarity (Secchi Depth) from Sea WiFS
• Study of A Recurring Anticyclonic Eddy Off The Northeast Korean Coast Using Satellite Ocean Color and Sea Surface Temperature Imagery

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