Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment

Changes to seawater inorganic carbon and nutrient concentrations in response to the deliberate CO2 perturbation of natural plankton assemblages were studied during the 2005 Pelagic Ecosystem CO2 Enrichment (PeECE III) experiment. Inverse analysis of the temporal inorganic carbon dioxide system and n...

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Published in:Biogeosciences
Main Authors: Bellerby, R GJ, Schulz, Kai G, Riebesell, U, Neill, C, Nondal, G, Heegaard, E, Johannessen, T, Brown, K R
Format: Article in Journal/Newspaper
Language:unknown
Published: ePublications@SCU 2008
Subjects:
Environmental Sciences
Ocean acidification
Online Access:https://epubs.scu.edu.au/esm_pubs/2003
https://doi.org/10.5194/bg-5-1517-2008
id ftsoutherncu:oai:epubs.scu.edu.au:esm_pubs-3015
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spelling ftsoutherncu:oai:epubs.scu.edu.au:esm_pubs-3015 2023-05-15T17:50:27+02:00 Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment Bellerby, R GJ Schulz, Kai G Riebesell, U Neill, C Nondal, G Heegaard, E Johannessen, T Brown, K R 2008-01-01T08:00:00Z https://epubs.scu.edu.au/esm_pubs/2003 https://doi.org/10.5194/bg-5-1517-2008 unknown ePublications@SCU School of Environment, Science and Engineering Papers Environmental Sciences article 2008 ftsoutherncu https://doi.org/10.5194/bg-5-1517-2008 2019-08-06T12:54:28Z Changes to seawater inorganic carbon and nutrient concentrations in response to the deliberate CO2 perturbation of natural plankton assemblages were studied during the 2005 Pelagic Ecosystem CO2 Enrichment (PeECE III) experiment. Inverse analysis of the temporal inorganic carbon dioxide system and nutrient variations was used to determine the net community stoichiometric uptake characteristics of a natural pelagic ecosystem perturbed over a range of pCO2 scenarios (350, 700 and 1050 μatm). Nutrient uptake showed no sensitivity to CO2 treatment. There was enhanced carbon production relative to nutrient consumption in the higher CO2 treatments which was positively correlated with the initial CO2 concentration. There was no significant calcification response to changing CO2 in Emiliania huxleyi by the peak of the bloom and all treatments exhibited low particulate inorganic carbon production (~15 μmol kg−1). With insignificant air-sea CO2 exchange across the treatments, the enhanced carbon uptake was due to increase organic carbon production. The inferred cumulative C:N:P stoichiometry of organic production increased with CO2 treatment from 1:6.3:121 to 1:7.1:144 to 1:8.25:168 at the height of the bloom. This study discusses how ocean acidification may incur modification to the stoichiometry of pelagic production and have consequences for ocean biogeochemical cycling. Article in Journal/Newspaper Ocean acidification Southern Cross University: epublications@SCU Biogeosciences 5 6 1517 1527
institution Open Polar
collection Southern Cross University: epublications@SCU
op_collection_id ftsoutherncu
language unknown
topic Environmental Sciences
spellingShingle Environmental Sciences
Bellerby, R GJ
Schulz, Kai G
Riebesell, U
Neill, C
Nondal, G
Heegaard, E
Johannessen, T
Brown, K R
Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
topic_facet Environmental Sciences
description Changes to seawater inorganic carbon and nutrient concentrations in response to the deliberate CO2 perturbation of natural plankton assemblages were studied during the 2005 Pelagic Ecosystem CO2 Enrichment (PeECE III) experiment. Inverse analysis of the temporal inorganic carbon dioxide system and nutrient variations was used to determine the net community stoichiometric uptake characteristics of a natural pelagic ecosystem perturbed over a range of pCO2 scenarios (350, 700 and 1050 μatm). Nutrient uptake showed no sensitivity to CO2 treatment. There was enhanced carbon production relative to nutrient consumption in the higher CO2 treatments which was positively correlated with the initial CO2 concentration. There was no significant calcification response to changing CO2 in Emiliania huxleyi by the peak of the bloom and all treatments exhibited low particulate inorganic carbon production (~15 μmol kg−1). With insignificant air-sea CO2 exchange across the treatments, the enhanced carbon uptake was due to increase organic carbon production. The inferred cumulative C:N:P stoichiometry of organic production increased with CO2 treatment from 1:6.3:121 to 1:7.1:144 to 1:8.25:168 at the height of the bloom. This study discusses how ocean acidification may incur modification to the stoichiometry of pelagic production and have consequences for ocean biogeochemical cycling.
format Article in Journal/Newspaper
author Bellerby, R GJ
Schulz, Kai G
Riebesell, U
Neill, C
Nondal, G
Heegaard, E
Johannessen, T
Brown, K R
author_facet Bellerby, R GJ
Schulz, Kai G
Riebesell, U
Neill, C
Nondal, G
Heegaard, E
Johannessen, T
Brown, K R
author_sort Bellerby, R GJ
title Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
title_short Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
title_full Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
title_fullStr Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
title_full_unstemmed Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment
title_sort marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the peece iii experiment
publisher ePublications@SCU
publishDate 2008
url https://epubs.scu.edu.au/esm_pubs/2003
https://doi.org/10.5194/bg-5-1517-2008
genre Ocean acidification
genre_facet Ocean acidification
op_source School of Environment, Science and Engineering Papers
op_doi https://doi.org/10.5194/bg-5-1517-2008
container_title Biogeosciences
container_volume 5
container_issue 6
container_start_page 1517
op_container_end_page 1527
_version_ 1766157213951328256

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