Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current

Diatoms of the iron-replete continental margins and North Atlantic are key exporters of organic carbon. In contrast, diatoms of the iron-limited Antarctic Circumpolar Current sequester silicon, but comparatively little carbon, in the underlying deep ocean and sediments. Because the Southern Ocean is...

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Published in:Proceedings of the National Academy of Sciences
Main Authors: Assmy, P., Smetacek, V., Klaas, C., Henjes, J., Strass, V.H., Arrieta, J.M., Bathmann, U., Cisewski, B., Fuchs, N., Herndl, G.J.
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
Antarctic
Southern Ocean
Antarc*
North Atlantic
Online Access:http://imis.nioz.nl/imis.php?module=ref&refid=240495
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spelling ftnioz:oai:imis.nioz.nl:240495 2023-05-15T13:47:57+02:00 Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current Assmy, P. Smetacek, V. Klaas, C. Henjes, J. Strass, V.H. Arrieta, J.M. Bathmann, U. Cisewski, B. Fuchs, N. Herndl, G.J. 2013 http://imis.nioz.nl/imis.php?module=ref&refid=240495 en eng info:eu-repo/semantics/altIdentifier/wos/000328548600066 info:eu-repo/semantics/altIdentifier/doi/oi.org/10.1073/pnas.1309345110 http://imis.nioz.nl/imis.php?module=ref&refid=240495 info:eu-repo/semantics/closedAccess %3Ci%3EProc.+Natl.+Acad.+Sci.+U.S.A.+110%2851%29%3C%2Fi%3E%3A+20633%E2%80%9320638.+%3Ca+href%3D%22http%3A%2F%2Fdx.doi.org%2F10.1073%2Fpnas.1309345110%22+target%3D%22_blank%22%3Ehttp%3A%2F%2Fdx.doi.org%2F10.1073%2Fpnas.1309345110%3C%2Fa%3E info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2013 ftnioz https://doi.org/10.1073/pnas.1309345110 2022-05-01T13:59:12Z Diatoms of the iron-replete continental margins and North Atlantic are key exporters of organic carbon. In contrast, diatoms of the iron-limited Antarctic Circumpolar Current sequester silicon, but comparatively little carbon, in the underlying deep ocean and sediments. Because the Southern Ocean is the major hub of oceanic nutrient distribution, selective silicon sequestration there limits diatom blooms elsewhere and consequently the biotic carbon sequestration potential of the entire ocean. We investigated this paradox in an in situ iron fertilization experiment by comparing accumulation and sinking of diatom populations inside and outside the iron-fertilized patch over 5 wk. A bloom comprising various thin- and thick-shelled diatom species developed inside the patch despite the presence of large grazer populations. After the third week, most of the thinner-shelled diatom species underwent mass mortality, formed large, mucous aggregates, and sank out en masse (carbon sinkers). In contrast, thicker-shelled species, in particular Fragilariopsis kerguelensis, persisted in the surface layers, sank mainly empty shells continuously, and reduced silicate concentrations to similar levels both inside and outside the patch (silica sinkers). These patterns imply that thick-shelled, hence grazer-protected, diatom species evolved in response to heavy copepod grazing pressure in the presence of an abundant silicate supply. The ecology of these silica-sinking species decouples silicon and carbon cycles in the iron-limited Southern Ocean, whereas carbon-sinking species, when stimulated by iron fertilization, export more carbon per silicon. Our results suggest that large-scale iron fertilization of the silicate-rich Southern Ocean will not change silicon sequestration but will add carbon to the sinking silica flux. Article in Journal/Newspaper Antarc* Antarctic North Atlantic Southern Ocean NIOZ Repository (Royal Netherlands Institute for Sea Research) Antarctic Southern Ocean Proceedings of the National Academy of Sciences 110 51 20633 20638
institution Open Polar
collection NIOZ Repository (Royal Netherlands Institute for Sea Research)
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language English
description Diatoms of the iron-replete continental margins and North Atlantic are key exporters of organic carbon. In contrast, diatoms of the iron-limited Antarctic Circumpolar Current sequester silicon, but comparatively little carbon, in the underlying deep ocean and sediments. Because the Southern Ocean is the major hub of oceanic nutrient distribution, selective silicon sequestration there limits diatom blooms elsewhere and consequently the biotic carbon sequestration potential of the entire ocean. We investigated this paradox in an in situ iron fertilization experiment by comparing accumulation and sinking of diatom populations inside and outside the iron-fertilized patch over 5 wk. A bloom comprising various thin- and thick-shelled diatom species developed inside the patch despite the presence of large grazer populations. After the third week, most of the thinner-shelled diatom species underwent mass mortality, formed large, mucous aggregates, and sank out en masse (carbon sinkers). In contrast, thicker-shelled species, in particular Fragilariopsis kerguelensis, persisted in the surface layers, sank mainly empty shells continuously, and reduced silicate concentrations to similar levels both inside and outside the patch (silica sinkers). These patterns imply that thick-shelled, hence grazer-protected, diatom species evolved in response to heavy copepod grazing pressure in the presence of an abundant silicate supply. The ecology of these silica-sinking species decouples silicon and carbon cycles in the iron-limited Southern Ocean, whereas carbon-sinking species, when stimulated by iron fertilization, export more carbon per silicon. Our results suggest that large-scale iron fertilization of the silicate-rich Southern Ocean will not change silicon sequestration but will add carbon to the sinking silica flux.
format Article in Journal/Newspaper
author Assmy, P.
Smetacek, V.
Klaas, C.
Henjes, J.
Strass, V.H.
Arrieta, J.M.
Bathmann, U.
Cisewski, B.
Fuchs, N.
Herndl, G.J.
spellingShingle Assmy, P.
Smetacek, V.
Klaas, C.
Henjes, J.
Strass, V.H.
Arrieta, J.M.
Bathmann, U.
Cisewski, B.
Fuchs, N.
Herndl, G.J.
Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
author_facet Assmy, P.
Smetacek, V.
Klaas, C.
Henjes, J.
Strass, V.H.
Arrieta, J.M.
Bathmann, U.
Cisewski, B.
Fuchs, N.
Herndl, G.J.
author_sort Assmy, P.
title Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
title_short Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
title_full Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
title_fullStr Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
title_full_unstemmed Thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited Antarctic Circumpolar Current
title_sort thick-shelled, grazer-protected diatoms decouple ocean carbon and silicon cycles in the iron-limited antarctic circumpolar current
publishDate 2013
url http://imis.nioz.nl/imis.php?module=ref&refid=240495
geographic Antarctic
Southern Ocean
geographic_facet Antarctic
Southern Ocean
genre Antarc*
Antarctic
North Atlantic
Southern Ocean
genre_facet Antarc*
Antarctic
North Atlantic
Southern Ocean
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container_title Proceedings of the National Academy of Sciences
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