Satellites will address critical science priorities for quantifying ocean carbon

The ability to routinely quantify global carbon dioxide (CO₂) absorption by the oceans has become crucial: it provides a powerful constraint for establishing global and regional carbon (C) budgets, and enables identification of the ecological impacts and risks of this uptake on the marine environmen...

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Veröffentlicht in:	Frontiers in ecology and the environment 2020-02, Vol.18 (1), p.27-35
Hauptverfasser:	Shutler, Jamie D, Wanninkhof, Rik, Nightingale, Philip D, Woolf, David K, Bakker, Dorothee CE, Watson, Andy, Ashton, Ian, Holding, Thomas, Chapron, Bertrand, Quilfen, Yves, Fairall, Chris, Schuster, Ute, Nakajima, Masakatsu, Donlon, Craig J
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Sprache:	eng
Schlagworte:	Absorption Carbon dioxide Cloud computing Earth observations (from space) Emissions Environmental risk Marine ecosystems Marine environment Marine technology Oceans REVIEWS Satellite observation Satellites Sciences of the Universe Terrestrial environments
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container_title	Frontiers in ecology and the environment
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creator	Shutler, Jamie D Wanninkhof, Rik Nightingale, Philip D Woolf, David K Bakker, Dorothee CE Watson, Andy Ashton, Ian Holding, Thomas Chapron, Bertrand Quilfen, Yves Fairall, Chris Schuster, Ute Nakajima, Masakatsu Donlon, Craig J
description	The ability to routinely quantify global carbon dioxide (CO₂) absorption by the oceans has become crucial: it provides a powerful constraint for establishing global and regional carbon (C) budgets, and enables identification of the ecological impacts and risks of this uptake on the marine environment. Advances in understanding, technology, and international coordination have made it possible to measure CO₂ absorption by the oceans to a greater degree of accuracy than is possible in terrestrial landscapes. These advances, combined with new satellite-based Earth observation capabilities, increasing public availability of data, and cloud computing, provide important opportunities for addressing critical knowledge gaps. Furthermore, Earth observation in synergy with in-situ monitoring can provide the large-scale ocean monitoring that is necessary to support policies to protect ocean ecosystems at risk, and motivate societal shifts toward meeting C emissions targets; however, sustained effort will be needed.
doi_str_mv	10.1002/fee.2129
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subjects	Absorption Carbon dioxide Cloud computing Earth observations (from space) Emissions Environmental risk Marine ecosystems Marine environment Marine technology Oceans REVIEWS Satellite observation Satellites Sciences of the Universe Terrestrial environments
title	Satellites will address critical science priorities for quantifying ocean carbon
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