Irreversibly increased nitrogen fixation in Trichodesmium experimentally adapted to elevated carbon dioxide

Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO 2 ) levels in short-term studies due to physiological plasticity. However, its long-term adaptive responses to ongoing anthropogenic CO 2 increas...

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Published in:	Nature communications Vol. 6; no. 1; p. 8155
Main Authors:	Hutchins, David A., Walworth, Nathan G., Webb, Eric A., Saito, Mak A., Moran, Dawn, McIlvin, Matthew R., Gale, Jasmine, Fu, Fei-Xue
Format:	Journal Article
Language:	English
Published:	London Nature Publishing Group UK 01-09-2015 Nature Publishing Group Nature Pub. Group
Subjects:	631/158/857 704/106/829/826 82 82/80 Acidification Adaptation, Physiological - drug effects Adaptation, Physiological - physiology Anthropogenic factors Biological Evolution Carbon dioxide Carbon Dioxide - pharmacology Cell lines DNA methyltransferase Fitness Growth rate Humanities and Social Sciences Microorganisms multidisciplinary Nitrogen Nitrogen fixation Nitrogen Fixation - drug effects Nitrogen Fixation - physiology Oceans and Seas Oscillatoria - drug effects Oscillatoria - growth & development Oscillatoria - physiology Phosphorus Phosphorus - metabolism Reproductive fitness Science Science (multidisciplinary) Trichodesmium
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Abstract	Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO 2 ) levels in short-term studies due to physiological plasticity. However, its long-term adaptive responses to ongoing anthropogenic CO 2 increases are unknown. Here we show that experimental evolution under extended selection at projected future elevated CO 2 levels results in irreversible, large increases in nitrogen fixation and growth rates, even after being moved back to lower present day CO 2 levels for hundreds of generations. This represents an unprecedented microbial evolutionary response, as reproductive fitness increases acquired in the selection environment are maintained after returning to the ancestral environment. Constitutive rate increases are accompanied by irreversible shifts in diel nitrogen fixation patterns, and increased activity of a potentially regulatory DNA methyltransferase enzyme. High CO 2 -selected cell lines also exhibit increased phosphorus-limited growth rates, suggesting a potential advantage for this keystone organism in a more nutrient-limited, acidified future ocean. The long-term response of marine cyanobacteria to increased anthropogenic CO 2 are not known. Here, Hutchins et al . show that Trichodesmium exposed to long-term selection at elevated CO 2 display irreversible increases in nitrogen fixation and growth rates, even after returning to present day conditions.
AbstractList	Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO2) levels in short-term studies due to physiological plasticity. However, its long-term adaptive responses to ongoing anthropogenic CO2 increases are unknown. Here we show that experimental evolution under extended selection at projected future elevated CO2 levels results in irreversible, large increases in nitrogen fixation and growth rates, even after being moved back to lower present day CO2 levels for hundreds of generations. This represents an unprecedented microbial evolutionary response, as reproductive fitness increases acquired in the selection environment are maintained after returning to the ancestral environment. Constitutive rate increases are accompanied by irreversible shifts in diel nitrogen fixation patterns, and increased activity of a potentially regulatory DNA methyltransferase enzyme. High CO2-selected cell lines also exhibit increased phosphorus-limited growth rates, suggesting a potential advantage for this keystone organism in a more nutrient-limited, acidified future ocean. Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO 2 ) levels in short-term studies due to physiological plasticity. However, its long-term adaptive responses to ongoing anthropogenic CO 2 increases are unknown. Here we show that experimental evolution under extended selection at projected future elevated CO 2 levels results in irreversible, large increases in nitrogen fixation and growth rates, even after being moved back to lower present day CO 2 levels for hundreds of generations. This represents an unprecedented microbial evolutionary response, as reproductive fitness increases acquired in the selection environment are maintained after returning to the ancestral environment. Constitutive rate increases are accompanied by irreversible shifts in diel nitrogen fixation patterns, and increased activity of a potentially regulatory DNA methyltransferase enzyme. High CO 2 -selected cell lines also exhibit increased phosphorus-limited growth rates, suggesting a potential advantage for this keystone organism in a more nutrient-limited, acidified future ocean. The long-term response of marine cyanobacteria to increased anthropogenic CO 2 are not known. Here, Hutchins et al . show that Trichodesmium exposed to long-term selection at elevated CO 2 display irreversible increases in nitrogen fixation and growth rates, even after returning to present day conditions. Abstract Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO 2 ) levels in short-term studies due to physiological plasticity. However, its long-term adaptive responses to ongoing anthropogenic CO 2 increases are unknown. Here we show that experimental evolution under extended selection at projected future elevated CO 2 levels results in irreversible, large increases in nitrogen fixation and growth rates, even after being moved back to lower present day CO 2 levels for hundreds of generations. This represents an unprecedented microbial evolutionary response, as reproductive fitness increases acquired in the selection environment are maintained after returning to the ancestral environment. Constitutive rate increases are accompanied by irreversible shifts in diel nitrogen fixation patterns, and increased activity of a potentially regulatory DNA methyltransferase enzyme. High CO 2 -selected cell lines also exhibit increased phosphorus-limited growth rates, suggesting a potential advantage for this keystone organism in a more nutrient-limited, acidified future ocean.
ArticleNumber	8155
Author	Walworth, Nathan G. Saito, Mak A. McIlvin, Matthew R. Moran, Dawn Gale, Jasmine Hutchins, David A. Webb, Eric A. Fu, Fei-Xue
Author_xml	– sequence: 1 givenname: David A. surname: Hutchins fullname: Hutchins, David A. email: dahutch@usc.edu organization: Department of Biological Sciences, Marine and Environmental Biology, University of Southern California – sequence: 2 givenname: Nathan G. surname: Walworth fullname: Walworth, Nathan G. organization: Department of Biological Sciences, Marine and Environmental Biology, University of Southern California – sequence: 3 givenname: Eric A. surname: Webb fullname: Webb, Eric A. organization: Department of Biological Sciences, Marine and Environmental Biology, University of Southern California – sequence: 4 givenname: Mak A. surname: Saito fullname: Saito, Mak A. organization: Marine Chemistry and Geochemistry Department, Woods Hole Oceanographic Institution – sequence: 5 givenname: Dawn surname: Moran fullname: Moran, Dawn organization: Marine Chemistry and Geochemistry Department, Woods Hole Oceanographic Institution – sequence: 6 givenname: Matthew R. surname: McIlvin fullname: McIlvin, Matthew R. organization: Marine Chemistry and Geochemistry Department, Woods Hole Oceanographic Institution – sequence: 7 givenname: Jasmine surname: Gale fullname: Gale, Jasmine organization: Department of Biological Sciences, Marine and Environmental Biology, University of Southern California – sequence: 8 givenname: Fei-Xue surname: Fu fullname: Fu, Fei-Xue organization: Department of Biological Sciences, Marine and Environmental Biology, University of Southern California
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26327191$$D View this record in MEDLINE/PubMed
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Snippet	Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO 2 )... Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO2)... Abstract Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide... Nitrogen fixation rates of the globally distributed, biogeochemically important marine cyanobacterium Trichodesmium increase under high carbon dioxide (CO2 )...
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SubjectTerms	631/158/857 704/106/829/826 82 82/80 Acidification Adaptation, Physiological - drug effects Adaptation, Physiological - physiology Anthropogenic factors Biological Evolution Carbon dioxide Carbon Dioxide - pharmacology Cell lines DNA methyltransferase Fitness Growth rate Humanities and Social Sciences Microorganisms multidisciplinary Nitrogen Nitrogen fixation Nitrogen Fixation - drug effects Nitrogen Fixation - physiology Oceans and Seas Oscillatoria - drug effects Oscillatoria - growth & development Oscillatoria - physiology Phosphorus Phosphorus - metabolism Reproductive fitness Science Science (multidisciplinary) Trichodesmium
Title	Irreversibly increased nitrogen fixation in Trichodesmium experimentally adapted to elevated carbon dioxide
URI	https://link.springer.com/article/10.1038/ncomms9155 https://www.ncbi.nlm.nih.gov/pubmed/26327191 https://www.proquest.com/docview/1708599240 https://search.proquest.com/docview/1709708757 https://pubmed.ncbi.nlm.nih.gov/PMC4569722
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