Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean

Cyanobacterial nitrogen fixation supplies bioavailable nitrogen to marine ecosystems, but the mechanisms governing iron and phosphorus co-limitation in elevated CO2remain unknown. Here, the authors show a complex cellular response to co-limitation characterized by changes in growth, cell size, and t...

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Autores principales: Nathan G. Walworth, Fei-Xue Fu, Eric A. Webb, Mak A. Saito, Dawn Moran, Matthew R. Mcllvin, Michael D. Lee, David A. Hutchins
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Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/0f84d78d917340fdb94ebe32f18e3f96
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spelling oai:doaj.org-article:0f84d78d917340fdb94ebe32f18e3f962021-12-02T16:57:05ZMechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean10.1038/ncomms120812041-1723https://doaj.org/article/0f84d78d917340fdb94ebe32f18e3f962016-06-01T00:00:00Zhttps://doi.org/10.1038/ncomms12081https://doaj.org/toc/2041-1723Cyanobacterial nitrogen fixation supplies bioavailable nitrogen to marine ecosystems, but the mechanisms governing iron and phosphorus co-limitation in elevated CO2remain unknown. Here, the authors show a complex cellular response to co-limitation characterized by changes in growth, cell size, and the proteome.Nathan G. WalworthFei-Xue FuEric A. WebbMak A. SaitoDawn MoranMatthew R. McllvinMichael D. LeeDavid A. HutchinsNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-11 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Nathan G. Walworth
Fei-Xue Fu
Eric A. Webb
Mak A. Saito
Dawn Moran
Matthew R. Mcllvin
Michael D. Lee
David A. Hutchins
Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
description Cyanobacterial nitrogen fixation supplies bioavailable nitrogen to marine ecosystems, but the mechanisms governing iron and phosphorus co-limitation in elevated CO2remain unknown. Here, the authors show a complex cellular response to co-limitation characterized by changes in growth, cell size, and the proteome.
format article
author Nathan G. Walworth
Fei-Xue Fu
Eric A. Webb
Mak A. Saito
Dawn Moran
Matthew R. Mcllvin
Michael D. Lee
David A. Hutchins
author_facet Nathan G. Walworth
Fei-Xue Fu
Eric A. Webb
Mak A. Saito
Dawn Moran
Matthew R. Mcllvin
Michael D. Lee
David A. Hutchins
author_sort Nathan G. Walworth
title Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
title_short Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
title_full Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
title_fullStr Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
title_full_unstemmed Mechanisms of increased Trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
title_sort mechanisms of increased trichodesmium fitness under iron and phosphorus co-limitation in the present and future ocean
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/0f84d78d917340fdb94ebe32f18e3f96
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