Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift

Realistic prediction of the near-future response of Arctic Ocean primary productivity to ongoing warming and sea ice loss requires a mechanistic understanding of the processes controlling nutrient bioavailability. To evaluate continental nutrient inputs, biological utilization, and the influence of...

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Published in:Global Biogeochemical Cycles
Main Authors: Laukert, G., Grasse, P., Novikhin, A., Povazhnyi, V., Doering, K., Hölemann, J., Janout, M., Bauch, D., Kassens, H., Frank, M.
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union (AGU) 2022
Subjects:
Climate Research
Geochemistry
Arctic Ocean
diatoms
Laptev Sea
nutrients
silicon isotopes
transpolar drift
Arctic
laptev
lena river
Sea ice
Online Access:https://lup.lub.lu.se/record/22199837-848c-4390-9373-71506fa8af4b
https://doi.org/10.1029/2022GB007316
id ftulundlup:oai:lup.lub.lu.se:22199837-848c-4390-9373-71506fa8af4b
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spelling ftulundlup:oai:lup.lub.lu.se:22199837-848c-4390-9373-71506fa8af4b 2023-05-15T15:00:33+02:00 Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift Laukert, G. Grasse, P. Novikhin, A. Povazhnyi, V. Doering, K. Hölemann, J. Janout, M. Bauch, D. Kassens, H. Frank, M. 2022-09 https://lup.lub.lu.se/record/22199837-848c-4390-9373-71506fa8af4b https://doi.org/10.1029/2022GB007316 eng eng American Geophysical Union (AGU) https://lup.lub.lu.se/record/22199837-848c-4390-9373-71506fa8af4b http://dx.doi.org/10.1029/2022GB007316 scopus:85138897476 Global Biogeochemical Cycles; 36(9), no e2022GB007316 (2022) ISSN: 0886-6236 Climate Research Geochemistry Arctic Ocean diatoms Laptev Sea nutrients silicon isotopes transpolar drift contributiontojournal/article info:eu-repo/semantics/article text 2022 ftulundlup https://doi.org/10.1029/2022GB007316 2023-02-01T23:39:27Z Realistic prediction of the near-future response of Arctic Ocean primary productivity to ongoing warming and sea ice loss requires a mechanistic understanding of the processes controlling nutrient bioavailability. To evaluate continental nutrient inputs, biological utilization, and the influence of mixing and winter processes in the Laptev Sea, the major source region of the Transpolar Drift (TPD), we compare observed with preformed concentrations of dissolved inorganic nitrogen (DIN) and phosphorus (DIP), silicic acid (DSi), and silicon isotope compositions of DSi (δ30SiDSi) obtained for two summers (2013 and 2014) and one winter (2012). In summer, preformed nutrient concentrations persisted in the surface layer of the southeastern Laptev Sea, while diatom-dominated utilization caused intense northward drawdown and a pronounced shift in δ30SiDSi from +0.91 to +3.82‰. The modeled Si isotope fractionation suggests that DSi in the northern Laptev Sea originated from the Lena River and was supplied during the spring freshet, while riverine DSi in the southeastern Laptev Sea was continuously supplied during the summer. Primary productivity fueled by river-borne nutrients was enhanced by admixture of DIN- and DIP-rich Atlantic-sourced waters to the surface, either by convective mixing during the previous winter or by occasional storm-induced stratification breakdowns in late summer. Substantial enrichments of DSi (+240%) and DIP (+90%) beneath the Lena River plume were caused by sea ice-driven redistribution and remineralization. Predicted weaker stratification on the outer Laptev Shelf will enhance DSi utilization and removal through greater vertical DIN supply, which will limit DSi export and reduce diatom-dominated primary productivity in the TPD. Article in Journal/Newspaper Arctic Arctic Ocean laptev Laptev Sea lena river Sea ice Lund University Publications (LUP) Arctic Arctic Ocean Laptev Sea Global Biogeochemical Cycles 36 9
institution Open Polar
collection Lund University Publications (LUP)
op_collection_id ftulundlup
language English
topic Climate Research
Geochemistry
Arctic Ocean
diatoms
Laptev Sea
nutrients
silicon isotopes
transpolar drift
spellingShingle Climate Research
Geochemistry
Arctic Ocean
diatoms
Laptev Sea
nutrients
silicon isotopes
transpolar drift
Laukert, G.
Grasse, P.
Novikhin, A.
Povazhnyi, V.
Doering, K.
Hölemann, J.
Janout, M.
Bauch, D.
Kassens, H.
Frank, M.
Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
topic_facet Climate Research
Geochemistry
Arctic Ocean
diatoms
Laptev Sea
nutrients
silicon isotopes
transpolar drift
description Realistic prediction of the near-future response of Arctic Ocean primary productivity to ongoing warming and sea ice loss requires a mechanistic understanding of the processes controlling nutrient bioavailability. To evaluate continental nutrient inputs, biological utilization, and the influence of mixing and winter processes in the Laptev Sea, the major source region of the Transpolar Drift (TPD), we compare observed with preformed concentrations of dissolved inorganic nitrogen (DIN) and phosphorus (DIP), silicic acid (DSi), and silicon isotope compositions of DSi (δ30SiDSi) obtained for two summers (2013 and 2014) and one winter (2012). In summer, preformed nutrient concentrations persisted in the surface layer of the southeastern Laptev Sea, while diatom-dominated utilization caused intense northward drawdown and a pronounced shift in δ30SiDSi from +0.91 to +3.82‰. The modeled Si isotope fractionation suggests that DSi in the northern Laptev Sea originated from the Lena River and was supplied during the spring freshet, while riverine DSi in the southeastern Laptev Sea was continuously supplied during the summer. Primary productivity fueled by river-borne nutrients was enhanced by admixture of DIN- and DIP-rich Atlantic-sourced waters to the surface, either by convective mixing during the previous winter or by occasional storm-induced stratification breakdowns in late summer. Substantial enrichments of DSi (+240%) and DIP (+90%) beneath the Lena River plume were caused by sea ice-driven redistribution and remineralization. Predicted weaker stratification on the outer Laptev Shelf will enhance DSi utilization and removal through greater vertical DIN supply, which will limit DSi export and reduce diatom-dominated primary productivity in the TPD.
format Article in Journal/Newspaper
author Laukert, G.
Grasse, P.
Novikhin, A.
Povazhnyi, V.
Doering, K.
Hölemann, J.
Janout, M.
Bauch, D.
Kassens, H.
Frank, M.
author_facet Laukert, G.
Grasse, P.
Novikhin, A.
Povazhnyi, V.
Doering, K.
Hölemann, J.
Janout, M.
Bauch, D.
Kassens, H.
Frank, M.
author_sort Laukert, G.
title Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
title_short Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
title_full Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
title_fullStr Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
title_full_unstemmed Nutrient and Silicon Isotope Dynamics in the Laptev Sea and Implications for Nutrient Availability in the Transpolar Drift
title_sort nutrient and silicon isotope dynamics in the laptev sea and implications for nutrient availability in the transpolar drift
publisher American Geophysical Union (AGU)
publishDate 2022
url https://lup.lub.lu.se/record/22199837-848c-4390-9373-71506fa8af4b
https://doi.org/10.1029/2022GB007316
geographic Arctic
Arctic Ocean
Laptev Sea
geographic_facet Arctic
Arctic Ocean
Laptev Sea
genre Arctic
Arctic Ocean
laptev
Laptev Sea
lena river
Sea ice
genre_facet Arctic
Arctic Ocean
laptev
Laptev Sea
lena river
Sea ice
op_source Global Biogeochemical Cycles; 36(9), no e2022GB007316 (2022)
ISSN: 0886-6236
op_relation https://lup.lub.lu.se/record/22199837-848c-4390-9373-71506fa8af4b
http://dx.doi.org/10.1029/2022GB007316
scopus:85138897476
op_doi https://doi.org/10.1029/2022GB007316
container_title Global Biogeochemical Cycles
container_volume 36
container_issue 9
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