Groom, SB, Sathyendranath, S, Ban, Y, Bernard, S, Brewin, RJW, Brotas, V, Brockmann, C, Chauhan, P, Choi, J-K, Chuprin, A, Ciavatta, S, Cipollini, P, Donlon, CJ, Franz, BA, He, X, Hirata, T, Jackson, T, Kampel, M, Krasemann, H, Lavender, SJ, Pardo-Martinez, S, Melin, F, Platt, T, Santoleri, R, Skákala, J, Schaeffer, B, Smith, M, Steinmetz, F, Valente, A and Wang, M 2019 Satellite Ocean Colour: Current Status and Future Perspective. Frontiers in Marine Science, 6. https://doi.org/10.3389/fmars.2019.00485
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Abstract/Summary
Spectrally resolved water-leaving radiances (ocean colour) and inferred chlorophyll concentration are key to studying phytoplankton dynamics at seasonal and interannual scales, for a better understanding of the role of phytoplankton in marine biogeochemistry; the global carbon cycle; and the response of marine ecosystems to climate variability, change and feedback processes. Ocean colour data also have a critical role in operational observation systems monitoring coastal eutrophication, harmful algal blooms, and sediment plumes. The contiguous ocean-colour record reached 21 years in 2018; however, it is comprised of a number of one-off missions such that creating a consistent time-series of ocean-colour data requires merging of the individual sensors (including MERIS, Aqua-MODIS, SeaWiFS, VIIRS, and OLCI) with differing sensor characteristics, without introducing artefacts. By contrast, the next decade will see consistent observations from operational ocean colour series with sensors of similar design and with a replacement strategy. Also, by 2029 the record will start to be of sufficient duration to discriminate climate change impacts from natural variability, at least in some regions. This paper describes the current status and future prospects in the field of ocean colour focusing on large to medium resolution observations of oceans and coastal seas. It reviews the user requirements in terms of products and uncertainty characteristics and then describes features of current and future satellite ocean-colour sensors, both operational and innovative. The key role of in situ validation and calibration is highlighted as are ground segments that process the data received from the ocean-colour sensors and deliver analysis-ready products to end-users. Example applications of the ocean-colour data are presented, focusing on the climate data record and operational applications including water quality and assimilation into numerical models. Current capacity building and training activities pertinent to ocean colour are described and finally a summary of future perspectives is provided.
Item Type: | Publication - Article |
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Additional Keywords: | ocean colour, phytoplankton, ground-segment, climate data records, water-quality, capacity building |
Divisions: | Plymouth Marine Laboratory > National Capability categories > NERC Earth Observation Data Acquisition & Analysis Service (NEODAAS) Plymouth Marine Laboratory > Science Areas > Earth Observation Science and Applications |
Depositing User: | S Hawkins |
Date made live: | 04 Apr 2022 15:40 |
Last Modified: | 04 Apr 2022 15:40 |
URI: | https://plymsea.ac.uk/id/eprint/9666 |
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