Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF

Nitrogen (N) is the main limiting nutrient for biological production in the Arctic Ocean. While dissolved inorganic N (DIN) is well studied, the substantial pool of N bound in organic matter (OM) and its bioavailability in the system is rarely considered. Covering a full annual cycle, we here follow...

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Main Authors: Maria L. Paulsen, Lena Seuthe, Marit Reigstad, Aud Larsen, Mattias R. Cape, Maria Vernet
Format: Still Image
Language:unknown
Published: 2018
Subjects:
Online Access:https://doi.org/10.3389/fmars.2018.00416.s002
https://figshare.com/articles/Image_2_Asynchronous_Accumulation_of_Organic_Carbon_and_Nitrogen_in_the_Atlantic_Gateway_to_the_Arctic_Ocean_TIFF/7344101
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spelling ftfrontimediafig:oai:figshare.com:article/7344101 2023-05-15T14:55:20+02:00 Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF Maria L. Paulsen Lena Seuthe Marit Reigstad Aud Larsen Mattias R. Cape Maria Vernet 2018-11-15T04:02:40Z https://doi.org/10.3389/fmars.2018.00416.s002 https://figshare.com/articles/Image_2_Asynchronous_Accumulation_of_Organic_Carbon_and_Nitrogen_in_the_Atlantic_Gateway_to_the_Arctic_Ocean_TIFF/7344101 unknown doi:10.3389/fmars.2018.00416.s002 https://figshare.com/articles/Image_2_Asynchronous_Accumulation_of_Organic_Carbon_and_Nitrogen_in_the_Atlantic_Gateway_to_the_Arctic_Ocean_TIFF/7344101 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering particulate and dissolved organic matter nitrogen pools dissolved primary production high latitude ecosystems marginal ice zone Svalbard West Spitsbergen Current microorganisms Image Figure 2018 ftfrontimediafig https://doi.org/10.3389/fmars.2018.00416.s002 2018-11-21T23:59:54Z Nitrogen (N) is the main limiting nutrient for biological production in the Arctic Ocean. While dissolved inorganic N (DIN) is well studied, the substantial pool of N bound in organic matter (OM) and its bioavailability in the system is rarely considered. Covering a full annual cycle, we here follow N and carbon (C) content in particulate (P) and dissolved (D) OM within the Atlantic water inflow to the Arctic Ocean. While particulate organic carbon (POC), particulate organic nitrogen (PON), and dissolved organic carbon (DOC) accumulated in the surface waters from January to May, the dissolved organic nitrogen (DON)-pool decreased substantially (Δ – 50 μg N L -1 ). The DON reduction was greater than the simultaneous reduction in DIN (Δ – 30 μg N L -1 ), demonstrating that DON is a valuable N-source supporting the growing biomass. While the accumulating POM had a C/N ratio close to Redfield, the asynchronous accumulation of C and N in the dissolved pool resulted in a drastic increase in the C/N ratio of dissolved organic molecules (DOM) during the spring bloom. This is likely due to a combination of the reduction in DON, and a high release of carbon-rich sugars from phytoplankton, as 32% of the spring primary production (PP) was dissolved. Our findings thus caution calculations of particulate PP from DIN drawdown. During post-bloom the DON pool increased threefold due to an enhanced microbial processing of OM and reduced phytoplankton production. The light absorption spectra of DOM revealed high absorption within the UV range during spring bloom indicating DOM with low molecular weight in this period. The absorption of DOM was generally lower in the winter months than in spring and summer. Our results demonstrate that the change in ecosystem function (i.e., phytoplankton species and activity, bacterial activity and grazing) in different seasons is associated with strong changes in the C/N ratios and optical character of DOM and underpin the essential role of DON for the production cycle in the Arctic. Still Image Arctic Arctic Ocean Phytoplankton Svalbard Spitsbergen Frontiers: Figshare Arctic Arctic Ocean Svalbard
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
particulate and dissolved organic matter
nitrogen pools
dissolved primary production
high latitude ecosystems
marginal ice zone
Svalbard
West Spitsbergen Current
microorganisms
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
particulate and dissolved organic matter
nitrogen pools
dissolved primary production
high latitude ecosystems
marginal ice zone
Svalbard
West Spitsbergen Current
microorganisms
Maria L. Paulsen
Lena Seuthe
Marit Reigstad
Aud Larsen
Mattias R. Cape
Maria Vernet
Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
particulate and dissolved organic matter
nitrogen pools
dissolved primary production
high latitude ecosystems
marginal ice zone
Svalbard
West Spitsbergen Current
microorganisms
description Nitrogen (N) is the main limiting nutrient for biological production in the Arctic Ocean. While dissolved inorganic N (DIN) is well studied, the substantial pool of N bound in organic matter (OM) and its bioavailability in the system is rarely considered. Covering a full annual cycle, we here follow N and carbon (C) content in particulate (P) and dissolved (D) OM within the Atlantic water inflow to the Arctic Ocean. While particulate organic carbon (POC), particulate organic nitrogen (PON), and dissolved organic carbon (DOC) accumulated in the surface waters from January to May, the dissolved organic nitrogen (DON)-pool decreased substantially (Δ – 50 μg N L -1 ). The DON reduction was greater than the simultaneous reduction in DIN (Δ – 30 μg N L -1 ), demonstrating that DON is a valuable N-source supporting the growing biomass. While the accumulating POM had a C/N ratio close to Redfield, the asynchronous accumulation of C and N in the dissolved pool resulted in a drastic increase in the C/N ratio of dissolved organic molecules (DOM) during the spring bloom. This is likely due to a combination of the reduction in DON, and a high release of carbon-rich sugars from phytoplankton, as 32% of the spring primary production (PP) was dissolved. Our findings thus caution calculations of particulate PP from DIN drawdown. During post-bloom the DON pool increased threefold due to an enhanced microbial processing of OM and reduced phytoplankton production. The light absorption spectra of DOM revealed high absorption within the UV range during spring bloom indicating DOM with low molecular weight in this period. The absorption of DOM was generally lower in the winter months than in spring and summer. Our results demonstrate that the change in ecosystem function (i.e., phytoplankton species and activity, bacterial activity and grazing) in different seasons is associated with strong changes in the C/N ratios and optical character of DOM and underpin the essential role of DON for the production cycle in the Arctic.
format Still Image
author Maria L. Paulsen
Lena Seuthe
Marit Reigstad
Aud Larsen
Mattias R. Cape
Maria Vernet
author_facet Maria L. Paulsen
Lena Seuthe
Marit Reigstad
Aud Larsen
Mattias R. Cape
Maria Vernet
author_sort Maria L. Paulsen
title Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
title_short Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
title_full Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
title_fullStr Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
title_full_unstemmed Image_2_Asynchronous Accumulation of Organic Carbon and Nitrogen in the Atlantic Gateway to the Arctic Ocean.TIFF
title_sort image_2_asynchronous accumulation of organic carbon and nitrogen in the atlantic gateway to the arctic ocean.tiff
publishDate 2018
url https://doi.org/10.3389/fmars.2018.00416.s002
https://figshare.com/articles/Image_2_Asynchronous_Accumulation_of_Organic_Carbon_and_Nitrogen_in_the_Atlantic_Gateway_to_the_Arctic_Ocean_TIFF/7344101
geographic Arctic
Arctic Ocean
Svalbard
geographic_facet Arctic
Arctic Ocean
Svalbard
genre Arctic
Arctic Ocean
Phytoplankton
Svalbard
Spitsbergen
genre_facet Arctic
Arctic Ocean
Phytoplankton
Svalbard
Spitsbergen
op_relation doi:10.3389/fmars.2018.00416.s002
https://figshare.com/articles/Image_2_Asynchronous_Accumulation_of_Organic_Carbon_and_Nitrogen_in_the_Atlantic_Gateway_to_the_Arctic_Ocean_TIFF/7344101
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmars.2018.00416.s002
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