Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)

Balch et al. (2007) evaluated global pelagic contemporary calcification from remote sensing data (mainly associated to coccolithophores) to 1.6 ± 0.3 Pg PIC yr-1 (1 Pg = 1015 g; PIC = particulate inorganic carbon). This would imply that coccolithophores would be the most important pelagic calcifier...

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Main Authors: Suykens, Kim, Delille, Bruno, Chou, Lei, De Bodt, Caroline, Harlay, Jérôme, Schmidt, Sabine, Borges, Alberto
Format: Conference Object
Language:English
Published: 2010
Subjects:
Life sciences
Environmental sciences & ecology
Aquatic sciences & oceanology
Sciences du vivant
Sciences de l’environnement & écologie
Sciences aquatiques & océanologie
Balch
Ocean acidification
Online Access:https://orbi.uliege.be/handle/2268/81234
https://orbi.uliege.be/bitstream/2268/81234/1/Suykens_et_al_2010_ISOBAY.pdf
id ftorbi:oai:orbi.ulg.ac.be:2268/81234
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spelling ftorbi:oai:orbi.ulg.ac.be:2268/81234 2024-10-20T14:11:06+00:00 Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay) Suykens, Kim Delille, Bruno Chou, Lei De Bodt, Caroline Harlay, Jérôme Schmidt, Sabine Borges, Alberto 2010-05-03 https://orbi.uliege.be/handle/2268/81234 https://orbi.uliege.be/bitstream/2268/81234/1/Suykens_et_al_2010_ISOBAY.pdf en eng https://orbi.uliege.be/handle/2268/81234 info:hdl:2268/81234 https://orbi.uliege.be/bitstream/2268/81234/1/Suykens_et_al_2010_ISOBAY.pdf open access http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess ISOBAY XII International Symposium on Oceanography of the Bay of Biscay, Brest, France [FR], 3-6 May 2010 Life sciences Environmental sciences & ecology Aquatic sciences & oceanology Sciences du vivant Sciences de l’environnement & écologie Sciences aquatiques & océanologie conference poster not in proceedings http://purl.org/coar/resource_type/c_18co info:eu-repo/semantics/conferencePoster 2010 ftorbi 2024-09-27T07:01:53Z Balch et al. (2007) evaluated global pelagic contemporary calcification from remote sensing data (mainly associated to coccolithophores) to 1.6 ± 0.3 Pg PIC yr-1 (1 Pg = 1015 g; PIC = particulate inorganic carbon). This would imply that coccolithophores would be the most important pelagic calcifier in the oceans, since other estimates of contemporary global pelagic calcification range between 0.7 Pg PIC yr-1 based on accumulation rates and sediment trap data (Milliman et al. 1999), and 1.4 Pg PIC yr-1, based on the seasonal cycle of total alkalinity (TA) in the euphotic zone (Lee 2001). The development of coccolithophorid blooms affects the seawater carbonate chemistry, and air-sea CO2 fluxes, through the organic carbon pump and the carbonate counter-pump. The ratio between calcification (carbonate counter-pump), and organic carbon production (organic carbon pump), the C:P ratio, depends on the life cycle (bloom development), and growth conditions of coccolithophores. At the onset of the coccolithophorid bloom, when nutrients are available for growth, organic carbon production dominates over calcification (C:P << 1, the so-called organic phase). At the end of the bloom, in nutrient depleted conditions, and high irradiances (due to stronger stratification), organic carbon production decreases and calcification increases (C:P ≤ 1, the so-called inorganic phase). Several manipulative experiments to test the effect of ocean acidification on coccolithophores have shown that while calcification would decrease, the export of organic carbon would increase mainly through increasing transparent exopolymer particles (TEP) production. For a credible implementation in mathematical models of such feed-back mechanisms to allow the projection of a future evolution of carbon biogeochemistry under global change, it is required to understand present day biogeochemistry and ecology of naturally occurring pelagic calcifying communities. In particular, the overall effect of phytoplankton communities on the C:P ratio, and the ... Conference Object Ocean acidification University of Liège: ORBi (Open Repository and Bibliography) Balch ENVELOPE(-63.967,-63.967,-65.250,-65.250)
institution Open Polar
collection University of Liège: ORBi (Open Repository and Bibliography)
op_collection_id ftorbi
language English
topic Life sciences
Environmental sciences & ecology
Aquatic sciences & oceanology
Sciences du vivant
Sciences de l’environnement & écologie
Sciences aquatiques & océanologie
spellingShingle Life sciences
Environmental sciences & ecology
Aquatic sciences & oceanology
Sciences du vivant
Sciences de l’environnement & écologie
Sciences aquatiques & océanologie
Suykens, Kim
Delille, Bruno
Chou, Lei
De Bodt, Caroline
Harlay, Jérôme
Schmidt, Sabine
Borges, Alberto
Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
topic_facet Life sciences
Environmental sciences & ecology
Aquatic sciences & oceanology
Sciences du vivant
Sciences de l’environnement & écologie
Sciences aquatiques & océanologie
description Balch et al. (2007) evaluated global pelagic contemporary calcification from remote sensing data (mainly associated to coccolithophores) to 1.6 ± 0.3 Pg PIC yr-1 (1 Pg = 1015 g; PIC = particulate inorganic carbon). This would imply that coccolithophores would be the most important pelagic calcifier in the oceans, since other estimates of contemporary global pelagic calcification range between 0.7 Pg PIC yr-1 based on accumulation rates and sediment trap data (Milliman et al. 1999), and 1.4 Pg PIC yr-1, based on the seasonal cycle of total alkalinity (TA) in the euphotic zone (Lee 2001). The development of coccolithophorid blooms affects the seawater carbonate chemistry, and air-sea CO2 fluxes, through the organic carbon pump and the carbonate counter-pump. The ratio between calcification (carbonate counter-pump), and organic carbon production (organic carbon pump), the C:P ratio, depends on the life cycle (bloom development), and growth conditions of coccolithophores. At the onset of the coccolithophorid bloom, when nutrients are available for growth, organic carbon production dominates over calcification (C:P << 1, the so-called organic phase). At the end of the bloom, in nutrient depleted conditions, and high irradiances (due to stronger stratification), organic carbon production decreases and calcification increases (C:P ≤ 1, the so-called inorganic phase). Several manipulative experiments to test the effect of ocean acidification on coccolithophores have shown that while calcification would decrease, the export of organic carbon would increase mainly through increasing transparent exopolymer particles (TEP) production. For a credible implementation in mathematical models of such feed-back mechanisms to allow the projection of a future evolution of carbon biogeochemistry under global change, it is required to understand present day biogeochemistry and ecology of naturally occurring pelagic calcifying communities. In particular, the overall effect of phytoplankton communities on the C:P ratio, and the ...
format Conference Object
author Suykens, Kim
Delille, Bruno
Chou, Lei
De Bodt, Caroline
Harlay, Jérôme
Schmidt, Sabine
Borges, Alberto
author_facet Suykens, Kim
Delille, Bruno
Chou, Lei
De Bodt, Caroline
Harlay, Jérôme
Schmidt, Sabine
Borges, Alberto
author_sort Suykens, Kim
title Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
title_short Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
title_full Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
title_fullStr Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
title_full_unstemmed Dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the Northeast European continental margin (northern Bay of Biscay)
title_sort dissolved inorganic carbon dynamics and air-sea carbon dioxide fluxes during coccolithophorid blooms in the northeast european continental margin (northern bay of biscay)
publishDate 2010
url https://orbi.uliege.be/handle/2268/81234
https://orbi.uliege.be/bitstream/2268/81234/1/Suykens_et_al_2010_ISOBAY.pdf
long_lat ENVELOPE(-63.967,-63.967,-65.250,-65.250)
geographic Balch
geographic_facet Balch
genre Ocean acidification
genre_facet Ocean acidification
op_source ISOBAY XII International Symposium on Oceanography of the Bay of Biscay, Brest, France [FR], 3-6 May 2010
op_relation https://orbi.uliege.be/handle/2268/81234
info:hdl:2268/81234
https://orbi.uliege.be/bitstream/2268/81234/1/Suykens_et_al_2010_ISOBAY.pdf
op_rights open access
http://purl.org/coar/access_right/c_abf2
info:eu-repo/semantics/openAccess
_version_ 1813451261552361472

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