Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.

The potential interactive effects of iron (Fe) limitation and Ocean Acidification in the Southern Ocean (SO) are largely unknown. Here we present results of a long-term incubation experiment investigating the combined effects of CO2 and Fe availability on natural phytoplankton assemblages from the W...

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Main Authors: Clara J M Hoppe, Christel S Hassler, Christopher D Payne, Philippe D Tortell, Björn Rost, Scarlett Trimborn
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3835797?pdf=render
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spelling doaj-e6e45216d0cb4d6b966c0824b2e844872020-11-24T20:40:20ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e7989010.1371/journal.pone.0079890Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.Clara J M HoppeChristel S HasslerChristopher D PaynePhilippe D TortellBjörn RostScarlett TrimbornThe potential interactive effects of iron (Fe) limitation and Ocean Acidification in the Southern Ocean (SO) are largely unknown. Here we present results of a long-term incubation experiment investigating the combined effects of CO2 and Fe availability on natural phytoplankton assemblages from the Weddell Sea, Antarctica. Active Chl a fluorescence measurements revealed that we successfully cultured phytoplankton under both Fe-depleted and Fe-enriched conditions. Fe treatments had significant effects on photosynthetic efficiency (Fv/Fm; 0.3 for Fe-depleted and 0.5 for Fe-enriched conditions), non-photochemical quenching (NPQ), and relative electron transport rates (rETR). pCO2 treatments significantly affected NPQ and rETR, but had no effect on Fv/Fm. Under Fe limitation, increased pCO2 had no influence on C fixation whereas under Fe enrichment, primary production increased with increasing pCO2 levels. These CO2-dependent changes in productivity under Fe-enriched conditions were accompanied by a pronounced taxonomic shift from weakly to heavily silicified diatoms (i.e. from Pseudo-nitzschia sp. to Fragilariopsis sp.). Under Fe-depleted conditions, this functional shift was absent and thinly silicified species dominated all pCO2 treatments (Pseudo-nitzschia sp. and Synedropsis sp. for low and high pCO2, respectively). Our results suggest that Ocean Acidification could increase primary productivity and the abundance of heavily silicified, fast sinking diatoms in Fe-enriched areas, both potentially leading to a stimulation of the biological pump. Over much of the SO, however, Fe limitation could restrict this possible CO2 fertilization effect.http://europepmc.org/articles/PMC3835797?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Clara J M Hoppe
Christel S Hassler
Christopher D Payne
Philippe D Tortell
Björn Rost
Scarlett Trimborn
spellingShingle Clara J M Hoppe
Christel S Hassler
Christopher D Payne
Philippe D Tortell
Björn Rost
Scarlett Trimborn
Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
PLoS ONE
author_facet Clara J M Hoppe
Christel S Hassler
Christopher D Payne
Philippe D Tortell
Björn Rost
Scarlett Trimborn
author_sort Clara J M Hoppe
title Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
title_short Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
title_full Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
title_fullStr Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
title_full_unstemmed Iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
title_sort iron limitation modulates ocean acidification effects on southern ocean phytoplankton communities.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description The potential interactive effects of iron (Fe) limitation and Ocean Acidification in the Southern Ocean (SO) are largely unknown. Here we present results of a long-term incubation experiment investigating the combined effects of CO2 and Fe availability on natural phytoplankton assemblages from the Weddell Sea, Antarctica. Active Chl a fluorescence measurements revealed that we successfully cultured phytoplankton under both Fe-depleted and Fe-enriched conditions. Fe treatments had significant effects on photosynthetic efficiency (Fv/Fm; 0.3 for Fe-depleted and 0.5 for Fe-enriched conditions), non-photochemical quenching (NPQ), and relative electron transport rates (rETR). pCO2 treatments significantly affected NPQ and rETR, but had no effect on Fv/Fm. Under Fe limitation, increased pCO2 had no influence on C fixation whereas under Fe enrichment, primary production increased with increasing pCO2 levels. These CO2-dependent changes in productivity under Fe-enriched conditions were accompanied by a pronounced taxonomic shift from weakly to heavily silicified diatoms (i.e. from Pseudo-nitzschia sp. to Fragilariopsis sp.). Under Fe-depleted conditions, this functional shift was absent and thinly silicified species dominated all pCO2 treatments (Pseudo-nitzschia sp. and Synedropsis sp. for low and high pCO2, respectively). Our results suggest that Ocean Acidification could increase primary productivity and the abundance of heavily silicified, fast sinking diatoms in Fe-enriched areas, both potentially leading to a stimulation of the biological pump. Over much of the SO, however, Fe limitation could restrict this possible CO2 fertilization effect.
url http://europepmc.org/articles/PMC3835797?pdf=render
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