Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf

The waters adjacent to the Nioghalvfjerdsbræ (79 North Glacier, 79NG) are influenced by Greenland Ice Sheet (GrIS) melt, sea-ice meltwater, and waters on the adjacent northeast Greenland shelf (NEGS). We investigated ocean acidification (OA) variables and the role of freshening, primary production,...

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Bibliographic Details
Main Authors: Agneta Fransson, Melissa Chierici, Mats A. Granskog, Paul A. Dodd, Colin A. Stedmon
Format: Dataset
Language:unknown
Published: 2023
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Dijmphna Sound
Nioghalvfjerdsbræ
Arctic fjord
total alkalinity
biogeochemical processes
polar water
nutrients
aragonite saturation
glacier
Greenland
Ice Sheet
Ocean acidification
Sea ice
Online Access:https://doi.org/10.3389/fmars.2023.1155126.s003
https://figshare.com/articles/dataset/Table_2_Impacts_of_glacial_and_sea-ice_meltwater_primary_production_and_ocean_CO2_uptake_on_ocean_acidification_state_of_waters_by_the_79_North_Glacier_and_northeast_Greenland_shelf_pdf/24407380
id ftfrontimediafig:oai:figshare.com:article/24407380
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/24407380 2024-09-15T18:07:45+00:00 Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf Agneta Fransson Melissa Chierici Mats A. Granskog Paul A. Dodd Colin A. Stedmon 2023-10-20T04:23:23Z https://doi.org/10.3389/fmars.2023.1155126.s003 https://figshare.com/articles/dataset/Table_2_Impacts_of_glacial_and_sea-ice_meltwater_primary_production_and_ocean_CO2_uptake_on_ocean_acidification_state_of_waters_by_the_79_North_Glacier_and_northeast_Greenland_shelf_pdf/24407380 unknown doi:10.3389/fmars.2023.1155126.s003 https://figshare.com/articles/dataset/Table_2_Impacts_of_glacial_and_sea-ice_meltwater_primary_production_and_ocean_CO2_uptake_on_ocean_acidification_state_of_waters_by_the_79_North_Glacier_and_northeast_Greenland_shelf_pdf/24407380 CC BY 4.0 Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering Dijmphna Sound Nioghalvfjerdsbræ Arctic fjord total alkalinity biogeochemical processes polar water nutrients aragonite saturation Dataset 2023 ftfrontimediafig https://doi.org/10.3389/fmars.2023.1155126.s003 2024-08-19T06:20:03Z The waters adjacent to the Nioghalvfjerdsbræ (79 North Glacier, 79NG) are influenced by Greenland Ice Sheet (GrIS) melt, sea-ice meltwater, and waters on the adjacent northeast Greenland shelf (NEGS). We investigated ocean acidification (OA) variables and the role of freshening, primary production, and air-sea CO 2 exchange in Dijmphna Sound (DS) and on the NEGS in the summers of 2012 and 2016. The upper 150 m consisted of Polar Water with Arctic origin that was divided into a fresh surface layer (SL<50 m) and a cold halocline layer (CHL, 50 to 150 m). The layer below 150 m was of Atlantic origin. The SL freshwater was larger in 2012 than in 2016, mainly originated from local 79NG (and GrIS) runoff in DS, whereas on the NEGS in both years, it was mainly from sea-ice melt. The lowest aragonite saturation state (Ω Ar ) of 1.13 was found in the SL in 2012. Biological CO 2 drawdown at primary production caused increased Ω Ar in SL, which compensated for most of the Ω Ar decrease due to the freshwater dilution of carbonate ions reducing total alkalinity, hence preventing corrosive conditions. This was most pronounced near the 79NG front in 2012, where surface stratification was most pronounced coinciding with large glacial meltwater fractions. Freshening decreased Ω Ar by 0.4 at the 79NG front was compensated by biological CO 2 drawdown by ~0.5. In 2016, a well-mixed water column in DS and NEGS, with dilution by sea-ice meltwater, caused less compensation on Ω Ar by biological CO 2 drawdown than in 2012. In future with changing climate and changing ocean chemistry, the increased meltwater effects may overcome the alleviating effects of biological CO 2 drawdown on OA with unfavorable conditions for calcifying organisms. However, our study also suggests that primary production may be stimulated by stratification from surface meltwater. In addition, Atlantification and subglacial discharge may result in upwelling of inorganic nutrients that could promote primary production. Dataset glacier Greenland Ice Sheet Ocean acidification Sea ice Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Dijmphna Sound
Nioghalvfjerdsbræ
Arctic fjord
total alkalinity
biogeochemical processes
polar water
nutrients
aragonite saturation
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Dijmphna Sound
Nioghalvfjerdsbræ
Arctic fjord
total alkalinity
biogeochemical processes
polar water
nutrients
aragonite saturation
Agneta Fransson
Melissa Chierici
Mats A. Granskog
Paul A. Dodd
Colin A. Stedmon
Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Dijmphna Sound
Nioghalvfjerdsbræ
Arctic fjord
total alkalinity
biogeochemical processes
polar water
nutrients
aragonite saturation
description The waters adjacent to the Nioghalvfjerdsbræ (79 North Glacier, 79NG) are influenced by Greenland Ice Sheet (GrIS) melt, sea-ice meltwater, and waters on the adjacent northeast Greenland shelf (NEGS). We investigated ocean acidification (OA) variables and the role of freshening, primary production, and air-sea CO 2 exchange in Dijmphna Sound (DS) and on the NEGS in the summers of 2012 and 2016. The upper 150 m consisted of Polar Water with Arctic origin that was divided into a fresh surface layer (SL<50 m) and a cold halocline layer (CHL, 50 to 150 m). The layer below 150 m was of Atlantic origin. The SL freshwater was larger in 2012 than in 2016, mainly originated from local 79NG (and GrIS) runoff in DS, whereas on the NEGS in both years, it was mainly from sea-ice melt. The lowest aragonite saturation state (Ω Ar ) of 1.13 was found in the SL in 2012. Biological CO 2 drawdown at primary production caused increased Ω Ar in SL, which compensated for most of the Ω Ar decrease due to the freshwater dilution of carbonate ions reducing total alkalinity, hence preventing corrosive conditions. This was most pronounced near the 79NG front in 2012, where surface stratification was most pronounced coinciding with large glacial meltwater fractions. Freshening decreased Ω Ar by 0.4 at the 79NG front was compensated by biological CO 2 drawdown by ~0.5. In 2016, a well-mixed water column in DS and NEGS, with dilution by sea-ice meltwater, caused less compensation on Ω Ar by biological CO 2 drawdown than in 2012. In future with changing climate and changing ocean chemistry, the increased meltwater effects may overcome the alleviating effects of biological CO 2 drawdown on OA with unfavorable conditions for calcifying organisms. However, our study also suggests that primary production may be stimulated by stratification from surface meltwater. In addition, Atlantification and subglacial discharge may result in upwelling of inorganic nutrients that could promote primary production.
format Dataset
author Agneta Fransson
Melissa Chierici
Mats A. Granskog
Paul A. Dodd
Colin A. Stedmon
author_facet Agneta Fransson
Melissa Chierici
Mats A. Granskog
Paul A. Dodd
Colin A. Stedmon
author_sort Agneta Fransson
title Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
title_short Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
title_full Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
title_fullStr Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
title_full_unstemmed Table_2_Impacts of glacial and sea-ice meltwater, primary production, and ocean CO2 uptake on ocean acidification state of waters by the 79 North Glacier and northeast Greenland shelf.pdf
title_sort table_2_impacts of glacial and sea-ice meltwater, primary production, and ocean co2 uptake on ocean acidification state of waters by the 79 north glacier and northeast greenland shelf.pdf
publishDate 2023
url https://doi.org/10.3389/fmars.2023.1155126.s003
https://figshare.com/articles/dataset/Table_2_Impacts_of_glacial_and_sea-ice_meltwater_primary_production_and_ocean_CO2_uptake_on_ocean_acidification_state_of_waters_by_the_79_North_Glacier_and_northeast_Greenland_shelf_pdf/24407380
genre glacier
Greenland
Ice Sheet
Ocean acidification
Sea ice
genre_facet glacier
Greenland
Ice Sheet
Ocean acidification
Sea ice
op_relation doi:10.3389/fmars.2023.1155126.s003
https://figshare.com/articles/dataset/Table_2_Impacts_of_glacial_and_sea-ice_meltwater_primary_production_and_ocean_CO2_uptake_on_ocean_acidification_state_of_waters_by_the_79_North_Glacier_and_northeast_Greenland_shelf_pdf/24407380
op_rights CC BY 4.0
op_doi https://doi.org/10.3389/fmars.2023.1155126.s003
_version_ 1810445125197758464

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