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Irreversibly increased nitrogen fixation in Trichodesmium experimentally adapted to elevated carbon dioxide (2015)

Hutchins, David A. ; Walworth, Nathan G. ; Webb, Eric A. ; [et al.]

Nature Publishing Group

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Publication Date: 2022-05-25

Description: This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Nature Communications 6 (2015): 8155, doi:10.1038/ncomms9155.

Description: 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.

Description: Grant support was provided by U.S. National Science Foundation OCE 1260490 and OCE 1143760 to D.A.H., E.A.W., and F.-X.F, and OCE 1260233, OCE OA 1220484, and G.B. Moore Foundation 3782 and 3934 to M.A.S.© The Author(s), [year].

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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Individual and interactive effects of warming and CO2 on Pseudo-nitzschia subcurvata and Phaeocystis antarctica, two dominant phytoplankton from the Ross Sea, Antarctica (2017)

Zhu, Zhi ; Qu, Pingping ; Gale, Jasmine ; [et al.]

Copernicus

In: Biogeosciences. 2017; 14(23): 5281-5295. Published 2017 Nov 29. doi: 10.5194/bg-14-5281-2017.

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Publication Date: 2017-11-29

Description: We investigated the effects of temperature and CO2 variation on the growth and elemental composition of cultures of the diatom Pseudo-nitzschia subcurvata and the prymnesiophyte Phaeocystis antarctica, two ecologically dominant phytoplankton species isolated from the Ross Sea, Antarctica. To obtain thermal functional response curves, cultures were grown across a range of temperatures from 0 to 14 °C. In addition, a co-culturing experiment examined the relative abundance of both species at 0 and 6 °C. CO2 functional response curves were conducted from 100 to 1730 ppm at 2 and 8 °C to test for interactive effects between the two variables. The growth of both phytoplankton was significantly affected by temperature increase, but with different trends. Growth rates of P. subcurvata increased with temperature from 0 °C to maximum levels at 8 °C, while the growth rates of P. antarctica only increased from 0 to 2 °C. The maximum thermal limits of P. subcurvata and P. antarctica where growth stopped completely were 14 and 10 °C, respectively. Although P. subcurvata outgrew P. antarctica at both temperatures in the co-incubation experiment, this happened much faster at 6 than at 0 °C. For P. subcurvata, there was a significant interactive effect in which the warmer temperature decreased the CO2 half-saturation constant for growth, but this was not the case for P. antarctica. The growth rates of both species increased with CO2 increases up to 425 ppm, and in contrast to significant effects of temperature, the effects of CO2 increase on their elemental composition were minimal. Our results suggest that future warming may be more favorable to the diatom than to the prymnesiophyte, while CO2 increases may not be a major factor in future competitive interactions between Pseudo-nitzschia subcurvata and Phaeocystis antarctica in the Ross Sea.

Print ISSN: 1726-4170

Electronic ISSN: 1726-4189

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Irreversibly increased nitrogen fixation in Trichodesmium experimentally adapted to elevated carbon dioxide (2015)

Hutchins, David A. ; Walworth, Nathan G. ; Webb, Eric A. ; [et al.]

Springer Nature

In: Nature Communications. 2015; 6(1): 8155. Published 2015 Sep 01. doi: 10.1038/ncomms9155.

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Publication Date: 2015-09-01

Electronic ISSN: 2041-1723

Topics: Biology , Chemistry and Pharmacology , Natural Sciences in General , Physics

Published by Springer Nature

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Individual and interactive effects of warming and CO2 on Pseudo-nitzschia subcurvata and Phaeocystis antarctica, two dominant phytoplankton from the Ross Sea, Antarctica (2017)

Zhu, Zhi ; Qu, Pingping ; Gale, Jasmine ; [et al.]

Copernicus

In: Biogeosciences Discussions. 2017; 1-34. Published 2017 Feb 03. doi: 10.5194/bg-2017-18. [early online release]

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Publication Date: 2017-02-03

Description: We investigated the effects of temperature and CO2 variation on the growth and elemental composition of cultures of the diatom Pseudo-nitzschia subcurvata and the prymnesiophyte Phaeocystis antarctica, two ecologically dominant phytoplankton species isolated from the Ross Sea, Antarctica. To obtain thermal functional response curves, cultures were grown across a range of temperatures from 0 °C to 14 °C. In addition, a competition experiment examined the relative abundance of both species at 0 °C and 6 °C. CO2 functional response curves were conducted from 100 to 1730 ppm at 2 °C and 8 °C to test for interactive effects between the two variables. The growth of both phytoplankton was significantly affected by temperature increase, but with different trends. Growth rates of P. subcurvata increased with temperature from 0 °C to maximum levels at 8 °C, while the growth rates of P. antarctica only increased from 0 °C to 2 °C. The maximum thermal limits of P. subcurvata and P. antarctica where growth stopped completely were 14 °C and 10 °C, respectively. Although P. subcurvata outcompeted P. antarctica at both temperatures in the competition experiment, this happened much faster at 6 °C than at 0 °C. For P. subcurvata, there was a significant interactive effect in which the warmer temperature decreased the CO2 half saturation constant for growth, but this was not the case for P. antarctica. The growth rates of both species increased with CO2 increases up 425 ppm, and in contrast to significant effects of temperature, the effects of CO2 increase on their elemental composition were minimal. Our results suggest that future warming may be more favorable to the diatom than to the prymnesiophyte, while CO2 increases may not be a major factor in future competitive interactions between Pseudo-nitzschia subcurvata and Phaeocystis antarctica in the Ross Sea.

Print ISSN: 1810-6277

Electronic ISSN: 1810-6285

Topics: Biology , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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