Interactive effects of iron and temperature on the growth of Fragilariopsis cylindrus

Loay Jabre; Erin M. Bertrand

doi:10.1002/lol2.10158

Interactive effects of iron and temperature on the growth of Fragilariopsis cylindrus

Loay Jabre, Erin M. Bertrand

Medicine

Research output: Contribution to journal › Letter › peer-review

18 Citations (Scopus)

Abstract

Iron and temperature are important drivers controlling phytoplankton growth in the Southern Ocean (SO). Most studies examining phytoplankton responses to these variables consider them independently, testing responses to changing temperature under constant iron and vice versa. Consequently, we lack a phenomenological and mechanistic understanding of how concurrent changes in these variables influence primary productivity. Here, we used a matrix of three temperatures and eight iron levels to examine changes in growth rate, photophysiology, and size in Fragilariopsis cylindrus. Temperature and iron interactively influenced growth; warming decreased iron demand, allowing cells to maintain half-maximal growth rate at lower iron concentrations. We also observed possible mechanisms underpinning this phenomenon: warming increased light-harvesting cross section and reduced cell size, thereby increasing light energy availability and iron uptake efficiency. These results suggest that interactive iron-warming effects could lead to larger increases in SO phytoplankton growth than those currently predicted by marine ecosystem models.

Original language	English
Pages (from-to)	363-370
Number of pages	8
Journal	Limnology And Oceanography Letters
Volume	5
Issue number	5
DOIs	https://doi.org/10.1002/lol2.10158
Publication status	Published - Oct 2020

Bibliographical note

Funding Information:
We thank Julie LaRoche for access to the flow cytometer and Hugh MacIntyre for access to fluorometers throughout the project. We also thank Zoe Finkel, Andrew Irwin, Zhengke Li, H.M., J.L.R, David Hutchins, and Scott McCain for meaningful discussion and feedback. This work was funded by the Nova Scotia Graduate Scholarship to L.J., NSERC Discovery Grant RGPIN‐2015‐05009 to E.B., an NSERC Canada Research Chair to E.B., and Simons Foundation Grant 504183 to E.B.

Publisher Copyright:
© 2020 The Authors. Limnology and Oceanography Letters published by Wiley Periodicals, Inc. on behalf of Association for the Sciences of Limnology and Oceanography.

ASJC Scopus Subject Areas

Aquatic Science
Oceanography

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/lol2.10158

Cite this

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abstract = "Iron and temperature are important drivers controlling phytoplankton growth in the Southern Ocean (SO). Most studies examining phytoplankton responses to these variables consider them independently, testing responses to changing temperature under constant iron and vice versa. Consequently, we lack a phenomenological and mechanistic understanding of how concurrent changes in these variables influence primary productivity. Here, we used a matrix of three temperatures and eight iron levels to examine changes in growth rate, photophysiology, and size in Fragilariopsis cylindrus. Temperature and iron interactively influenced growth; warming decreased iron demand, allowing cells to maintain half-maximal growth rate at lower iron concentrations. We also observed possible mechanisms underpinning this phenomenon: warming increased light-harvesting cross section and reduced cell size, thereby increasing light energy availability and iron uptake efficiency. These results suggest that interactive iron-warming effects could lead to larger increases in SO phytoplankton growth than those currently predicted by marine ecosystem models.",

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note = "Funding Information: We thank Julie LaRoche for access to the flow cytometer and Hugh MacIntyre for access to fluorometers throughout the project. We also thank Zoe Finkel, Andrew Irwin, Zhengke Li, H.M., J.L.R, David Hutchins, and Scott McCain for meaningful discussion and feedback. This work was funded by the Nova Scotia Graduate Scholarship to L.J., NSERC Discovery Grant RGPIN‐2015‐05009 to E.B., an NSERC Canada Research Chair to E.B., and Simons Foundation Grant 504183 to E.B. Publisher Copyright: {\textcopyright} 2020 The Authors. Limnology and Oceanography Letters published by Wiley Periodicals, Inc. on behalf of Association for the Sciences of Limnology and Oceanography.",

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N2 - Iron and temperature are important drivers controlling phytoplankton growth in the Southern Ocean (SO). Most studies examining phytoplankton responses to these variables consider them independently, testing responses to changing temperature under constant iron and vice versa. Consequently, we lack a phenomenological and mechanistic understanding of how concurrent changes in these variables influence primary productivity. Here, we used a matrix of three temperatures and eight iron levels to examine changes in growth rate, photophysiology, and size in Fragilariopsis cylindrus. Temperature and iron interactively influenced growth; warming decreased iron demand, allowing cells to maintain half-maximal growth rate at lower iron concentrations. We also observed possible mechanisms underpinning this phenomenon: warming increased light-harvesting cross section and reduced cell size, thereby increasing light energy availability and iron uptake efficiency. These results suggest that interactive iron-warming effects could lead to larger increases in SO phytoplankton growth than those currently predicted by marine ecosystem models.

AB - Iron and temperature are important drivers controlling phytoplankton growth in the Southern Ocean (SO). Most studies examining phytoplankton responses to these variables consider them independently, testing responses to changing temperature under constant iron and vice versa. Consequently, we lack a phenomenological and mechanistic understanding of how concurrent changes in these variables influence primary productivity. Here, we used a matrix of three temperatures and eight iron levels to examine changes in growth rate, photophysiology, and size in Fragilariopsis cylindrus. Temperature and iron interactively influenced growth; warming decreased iron demand, allowing cells to maintain half-maximal growth rate at lower iron concentrations. We also observed possible mechanisms underpinning this phenomenon: warming increased light-harvesting cross section and reduced cell size, thereby increasing light energy availability and iron uptake efficiency. These results suggest that interactive iron-warming effects could lead to larger increases in SO phytoplankton growth than those currently predicted by marine ecosystem models.

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Interactive effects of iron and temperature on the growth of Fragilariopsis cylindrus

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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