Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters

Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters

Ocean acidification (OA) is likely to have an effect on the fertilizing potential of desert dust in high-nutrient, low-chlorophyll oceanic regions, either by modifying iron (Fe) speciation and bioavailability or by altering phytoplankton Fe requirements and acquisition. To address this issue, short...

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Main Authors: J. Mélançon, M. Levasseur, M. Lizotte, M. Scarratt, J.-É. Tremblay, P. Tortell, G.-P. Yang, G.-Y. Shi, H. Gao, D. Semeniuk, M. Robert, M. Arychuk, K. Johnson, N. Sutherland, M. Davelaar, N. Nemcek, A. Peña, W. Richardson
Format: Article
Language:English
Published: Copernicus Publications 2016-03-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/13/1677/2016/bg-13-1677-2016.pdf
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author J. Mélançon
M. Levasseur
M. Lizotte
M. Scarratt
J.-É. Tremblay
P. Tortell
G.-P. Yang
G.-Y. Shi
H. Gao
D. Semeniuk
M. Robert
M. Arychuk
K. Johnson
N. Sutherland
M. Davelaar
N. Nemcek
A. Peña
W. Richardson
spellingShingle J. Mélançon
M. Levasseur
M. Lizotte
M. Scarratt
J.-É. Tremblay
P. Tortell
G.-P. Yang
G.-Y. Shi
H. Gao
D. Semeniuk
M. Robert
M. Arychuk
K. Johnson
N. Sutherland
M. Davelaar
N. Nemcek
A. Peña
W. Richardson
Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
Biogeosciences
author_facet J. Mélançon
M. Levasseur
M. Lizotte
M. Scarratt
J.-É. Tremblay
P. Tortell
G.-P. Yang
G.-Y. Shi
H. Gao
D. Semeniuk
M. Robert
M. Arychuk
K. Johnson
N. Sutherland
M. Davelaar
N. Nemcek
A. Peña
W. Richardson
author_sort J. Mélançon
title Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
title_short Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
title_full Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
title_fullStr Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
title_full_unstemmed Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll waters
title_sort impact of ocean acidification on phytoplankton assemblage, growth, and dms production following fe-dust additions in the ne pacific high-nutrient, low-chlorophyll waters
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2016-03-01
description Ocean acidification (OA) is likely to have an effect on the fertilizing potential of desert dust in high-nutrient, low-chlorophyll oceanic regions, either by modifying iron (Fe) speciation and bioavailability or by altering phytoplankton Fe requirements and acquisition. To address this issue, short incubations (4 days) of northeast subarctic Pacific waters enriched with either FeSO<sub>4</sub> or dust and set at pH 8.0 (in situ) and 7.8 were conducted in August 2010. We assessed the impact of a decrease in pH on dissolved Fe concentration, phytoplankton biomass, taxonomy and productivity, and the production of dimethylsulfide (DMS) and its algal precursor dimethylsulfoniopropionate (DMSP). Chlorophyll <i>a</i> (chl <i>a</i>) remained unchanged in the controls and doubled in both the FeSO<sub>4</sub>-enriched and dust-enriched incubations, confirming the Fe-limited status of the plankton assemblage during the experiment. In the acidified treatments, a significant reduction (by 16–38 %) in the final concentration of chl <i>a</i> was measured compared to their nonacidified counterparts, and a 15 % reduction in particulate organic carbon (POC) concentration was measured in the dust-enriched acidified treatment compared to the dust-enriched nonacidified treatment. FeSO<sub>4</sub> and dust additions had a fertilizing effect mainly on diatoms and cyanobacteria as estimated from algal pigment signatures. Lowering the pH affected mostly the haptophytes, but pelagophyte concentrations were also reduced in some acidified treatments. Acidification did not significantly alter DMSP and DMS concentrations. These results show that dust deposition events in a low-pH iron-limited northeast subarctic Pacific are likely to stimulate phytoplankton growth to a lesser extent than in today's ocean during the few days following fertilization and point to a low initial sensitivity of the DMSP and DMS dynamics to OA.
url http://www.biogeosciences.net/13/1677/2016/bg-13-1677-2016.pdf
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spelling doaj-94da02dedcab4d44a79e310d6082aa2a2020-11-25T01:39:09ZengCopernicus PublicationsBiogeosciences1726-41701726-41892016-03-011351677169210.5194/bg-13-1677-2016Impact of ocean acidification on phytoplankton assemblage, growth, and DMS production following Fe-dust additions in the NE Pacific high-nutrient, low-chlorophyll watersJ. Mélançon0M. Levasseur1M. Lizotte2M. Scarratt3J.-É. Tremblay4P. Tortell5G.-P. Yang6G.-Y. Shi7H. Gao8D. Semeniuk9M. Robert10M. Arychuk11K. Johnson12N. Sutherland13M. Davelaar14N. Nemcek15A. Peña16W. Richardson17Université Laval, Department of biology (Québec-Océan), Québec, Québec, CanadaUniversité Laval, Department of biology (Québec-Océan), Québec, Québec, CanadaUniversité Laval, Department of biology (Québec-Océan), Québec, Québec, CanadaFisheries and Oceans Canada, Maurice Lamontagne Institute, Mont-Joli, Québec, CanadaUniversité Laval, Department of biology (Québec-Océan), Québec, Québec, CanadaUniversity of British Columbia, Department of Earth, Ocean and Atmospheric Sciences, Vancouver, British Columbia, CanadaOcean University of China, Key Laboratory of Marine Chemistry Theory and Technology, Ministry of Education, Qingdao, ChinaChinese Academy of Sciences, Institute of Atmospheric Physics, Beijing, ChinaOcean University of China, Key Laboratory of Marine Environment and Ecology, Ministry of Education, Qingdao, ChinaUniversity of British Columbia, Department of Earth, Ocean and Atmospheric Sciences, Vancouver, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaFisheries and Oceans Canada, Institute of Ocean Sciences, Sidney, British Columbia, CanadaOcean acidification (OA) is likely to have an effect on the fertilizing potential of desert dust in high-nutrient, low-chlorophyll oceanic regions, either by modifying iron (Fe) speciation and bioavailability or by altering phytoplankton Fe requirements and acquisition. To address this issue, short incubations (4 days) of northeast subarctic Pacific waters enriched with either FeSO<sub>4</sub> or dust and set at pH 8.0 (in situ) and 7.8 were conducted in August 2010. We assessed the impact of a decrease in pH on dissolved Fe concentration, phytoplankton biomass, taxonomy and productivity, and the production of dimethylsulfide (DMS) and its algal precursor dimethylsulfoniopropionate (DMSP). Chlorophyll <i>a</i> (chl <i>a</i>) remained unchanged in the controls and doubled in both the FeSO<sub>4</sub>-enriched and dust-enriched incubations, confirming the Fe-limited status of the plankton assemblage during the experiment. In the acidified treatments, a significant reduction (by 16–38 %) in the final concentration of chl <i>a</i> was measured compared to their nonacidified counterparts, and a 15 % reduction in particulate organic carbon (POC) concentration was measured in the dust-enriched acidified treatment compared to the dust-enriched nonacidified treatment. FeSO<sub>4</sub> and dust additions had a fertilizing effect mainly on diatoms and cyanobacteria as estimated from algal pigment signatures. Lowering the pH affected mostly the haptophytes, but pelagophyte concentrations were also reduced in some acidified treatments. Acidification did not significantly alter DMSP and DMS concentrations. These results show that dust deposition events in a low-pH iron-limited northeast subarctic Pacific are likely to stimulate phytoplankton growth to a lesser extent than in today's ocean during the few days following fertilization and point to a low initial sensitivity of the DMSP and DMS dynamics to OA.http://www.biogeosciences.net/13/1677/2016/bg-13-1677-2016.pdf

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