How well do global ocean biogeochemistry models simulate dissolved iron distributions?
How well do global ocean biogeochemistry models simulate dissolved iron distributions?
Numerical models of ocean biogeochemistry are relied upon to make projections about the impact of climate change on marine resources and test hypotheses regarding the drivers of past changes in climate and ecosystems. In large areas of the ocean, iron availability regulates the functioning of marine ecosystems and hence the ocean carbon cycle. Accordingly, our ability to quantify the drivers and impacts of fluctuations in ocean ecosystems and carbon cycling in space and time relies on first achieving an appropriate representation of the modern marine iron cycle in models. When the iron distributions from 13 global ocean biogeochemistry models are compared against the latest oceanic sections from the GEOTRACES program, we find that all models struggle to reproduce many aspects of the observed spatial patterns. Models that reflect the emerging evidence for multiple iron sources or subtleties of its internal cycling perform much better in capturing observed features than their simpler contemporaries, particularly in the ocean interior. We show that the substantial uncertainty in the input fluxes of iron results in a very wide range of residence times across models, which has implications for the response of ecosystems and global carbon cycling to perturbations. Given this large uncertainty, iron fertilization experiments based on any single current generation model should be interpreted with caution. Improvements to how such models represent iron scavenging and also biological cycling are needed to raise confidence in their projections of global biogeochemical change in the ocean.
iron, ocean, biogeochemistry, climate, model
149-174
Tagliabue, Alessandro
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Aumont, Olivier
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DeAth, Ros
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Dunne, John P.
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Dutkiewicz, Stephanie
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Galbraith, Eric
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Misumi, Kazuhiro
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Moore, J. Keith
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Ridgwell, Andy
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Sherman, Elliot
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Stock, Charles
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Vichi, Marcello
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Völker, Christoph
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Yool, Andrew
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Tagliabue, Alessandro
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Aumont, Olivier
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DeAth, Ros
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Dunne, John P.
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Dutkiewicz, Stephanie
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Galbraith, Eric
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Misumi, Kazuhiro
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Moore, J. Keith
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Ridgwell, Andy
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Sherman, Elliot
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Stock, Charles
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Vichi, Marcello
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Völker, Christoph
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Yool, Andrew
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Tagliabue, Alessandro, Aumont, Olivier, DeAth, Ros, Dunne, John P., Dutkiewicz, Stephanie, Galbraith, Eric, Misumi, Kazuhiro, Moore, J. Keith, Ridgwell, Andy, Sherman, Elliot, Stock, Charles, Vichi, Marcello, Völker, Christoph and Yool, Andrew
(2016)
How well do global ocean biogeochemistry models simulate dissolved iron distributions?
Global Biogeochemical Cycles, 30 (2), .
(doi:10.1002/2015GB005289).
Abstract
Numerical models of ocean biogeochemistry are relied upon to make projections about the impact of climate change on marine resources and test hypotheses regarding the drivers of past changes in climate and ecosystems. In large areas of the ocean, iron availability regulates the functioning of marine ecosystems and hence the ocean carbon cycle. Accordingly, our ability to quantify the drivers and impacts of fluctuations in ocean ecosystems and carbon cycling in space and time relies on first achieving an appropriate representation of the modern marine iron cycle in models. When the iron distributions from 13 global ocean biogeochemistry models are compared against the latest oceanic sections from the GEOTRACES program, we find that all models struggle to reproduce many aspects of the observed spatial patterns. Models that reflect the emerging evidence for multiple iron sources or subtleties of its internal cycling perform much better in capturing observed features than their simpler contemporaries, particularly in the ocean interior. We show that the substantial uncertainty in the input fluxes of iron results in a very wide range of residence times across models, which has implications for the response of ecosystems and global carbon cycling to perturbations. Given this large uncertainty, iron fertilization experiments based on any single current generation model should be interpreted with caution. Improvements to how such models represent iron scavenging and also biological cycling are needed to raise confidence in their projections of global biogeochemical change in the ocean.
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Accepted/In Press date: 24 December 2015
e-pub ahead of print date: 4 February 2016
Keywords:
iron, ocean, biogeochemistry, climate, model
Organisations:
Marine Systems Modelling
Identifiers
Local EPrints ID: 386958
URI: http://eprints.soton.ac.uk/id/eprint/386958
ISSN: 0886-6236
PURE UUID: 689f426d-8c3f-46d1-9b80-6c330fcea55e
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Date deposited: 05 Feb 2016 09:30
Last modified: 14 Mar 2024 22:40
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Contributors
Author:
Alessandro Tagliabue
Author:
Olivier Aumont
Author:
Ros DeAth
Author:
John P. Dunne
Author:
Stephanie Dutkiewicz
Author:
Eric Galbraith
Author:
Kazuhiro Misumi
Author:
J. Keith Moore
Author:
Andy Ridgwell
Author:
Elliot Sherman
Author:
Charles Stock
Author:
Marcello Vichi
Author:
Christoph Völker
Author:
Andrew Yool
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