Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification

The projected rise in anthropogenic CO2 and associated ocean acidification (OA) will change trace metal solubility and speciation, potentially altering Southern Ocean (SO) phytoplankton productivity and species composition. As iron (Fe) sources are important determinants of Fe bioavailability, we as...

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Main Authors:	Trimborn, S, Brenneis, T, Hoppe, CJM, Laglera, LM, Norman, L, Santos-Echeandía, J, Völkner, C, Wolf-Gladrow, D, Hassler, CS
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2017
Subjects:	Marine Biology & Hydrobiology Southern Ocean Antarc* Antarctica Ocean acidification
Online Access:	http://hdl.handle.net/10453/125814

id	ftunivtsydney:oai:opus.lib.uts.edu.au:10453/125814
record_format	openpolar
spelling	ftunivtsydney:oai:opus.lib.uts.edu.au:10453/125814 2023-05-15T13:51:50+02:00 Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification Trimborn, S Brenneis, T Hoppe, CJM Laglera, LM Norman, L Santos-Echeandía, J Völkner, C Wolf-Gladrow, D Hassler, CS 2017-08-31 application/pdf http://hdl.handle.net/10453/125814 unknown Marine Ecology Progress Series 10.3354/meps12250 Marine Ecology Progress Series, 2017, 578 pp. 35 - 50 0171-8630 http://hdl.handle.net/10453/125814 Marine Biology & Hydrobiology Journal Article 2017 ftunivtsydney 2022-03-13T14:00:50Z The projected rise in anthropogenic CO2 and associated ocean acidification (OA) will change trace metal solubility and speciation, potentially altering Southern Ocean (SO) phytoplankton productivity and species composition. As iron (Fe) sources are important determinants of Fe bioavailability, we assessed the effect of Fe-laden dust versus inorganic Fe (FeCl3) enrichment under ambient and high pCO2 levels (390 and 900 μatm) in a naturally Fe-limited SO phytoplankton community. Despite similar Fe chemical speciation and net particulate organic carbon (POC) production rates, CO2-dependent species shifts were controlled by Fe sources. Final phytoplankton communities of both control and dust treatments were dominated by the same species, with an OA-dependent shift from the diatom Pseudo-nitzschia prolongatoides towards the prymnesiophyte Phaeocystis antarctica. Addition of FeCl3 resulted in high abundances of Nitzschia lecointei and Chaetoceros neogracilis under ambient and high pCO2, respectively. These findings reveal that both the characterization of the phytoplankton community at the species level and the use of natural Fe sources are essential for a realistic projection of the biological carbon pump in the Felimited pelagic SO under OA. As dust deposition represents a more realistic scenario for the Felimited pelagic SO under OA, unaffected net POC production and dominance of P. antarctica can potentially weaken the export of carbon and silica in the future. Article in Journal/Newspaper Antarc* Antarctica Ocean acidification Southern Ocean University of Technology Sydney: OPUS - Open Publications of UTS Scholars Southern Ocean
institution	Open Polar
collection	University of Technology Sydney: OPUS - Open Publications of UTS Scholars
op_collection_id	ftunivtsydney
language	unknown
topic	Marine Biology & Hydrobiology
spellingShingle	Marine Biology & Hydrobiology Trimborn, S Brenneis, T Hoppe, CJM Laglera, LM Norman, L Santos-Echeandía, J Völkner, C Wolf-Gladrow, D Hassler, CS Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
topic_facet	Marine Biology & Hydrobiology
description	The projected rise in anthropogenic CO2 and associated ocean acidification (OA) will change trace metal solubility and speciation, potentially altering Southern Ocean (SO) phytoplankton productivity and species composition. As iron (Fe) sources are important determinants of Fe bioavailability, we assessed the effect of Fe-laden dust versus inorganic Fe (FeCl3) enrichment under ambient and high pCO2 levels (390 and 900 μatm) in a naturally Fe-limited SO phytoplankton community. Despite similar Fe chemical speciation and net particulate organic carbon (POC) production rates, CO2-dependent species shifts were controlled by Fe sources. Final phytoplankton communities of both control and dust treatments were dominated by the same species, with an OA-dependent shift from the diatom Pseudo-nitzschia prolongatoides towards the prymnesiophyte Phaeocystis antarctica. Addition of FeCl3 resulted in high abundances of Nitzschia lecointei and Chaetoceros neogracilis under ambient and high pCO2, respectively. These findings reveal that both the characterization of the phytoplankton community at the species level and the use of natural Fe sources are essential for a realistic projection of the biological carbon pump in the Felimited pelagic SO under OA. As dust deposition represents a more realistic scenario for the Felimited pelagic SO under OA, unaffected net POC production and dominance of P. antarctica can potentially weaken the export of carbon and silica in the future.
format	Article in Journal/Newspaper
author	Trimborn, S Brenneis, T Hoppe, CJM Laglera, LM Norman, L Santos-Echeandía, J Völkner, C Wolf-Gladrow, D Hassler, CS
author_facet	Trimborn, S Brenneis, T Hoppe, CJM Laglera, LM Norman, L Santos-Echeandía, J Völkner, C Wolf-Gladrow, D Hassler, CS
author_sort	Trimborn, S
title	Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
title_short	Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
title_full	Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
title_fullStr	Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
title_full_unstemmed	Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification
title_sort	iron sources alter the response of southern ocean phytoplankton to ocean acidification
publishDate	2017
url	http://hdl.handle.net/10453/125814
geographic	Southern Ocean
geographic_facet	Southern Ocean
genre	Antarc* Antarctica Ocean acidification Southern Ocean
genre_facet	Antarc* Antarctica Ocean acidification Southern Ocean
op_relation	Marine Ecology Progress Series 10.3354/meps12250 Marine Ecology Progress Series, 2017, 578 pp. 35 - 50 0171-8630 http://hdl.handle.net/10453/125814
_version_	1766255873391329280

Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification

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