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Diatom traits regulate Southern Ocean silica leakage

Citation

Boyd, PW, Diatom traits regulate Southern Ocean silica leakage, National Academy of Sciences of The United States of America. Proceedings, 110, (51) pp. 20358-20359. ISSN 0027-8424 (2013) [Contribution to Refereed Journal]

Copyright Statement

Copyright 2013 national Academy of Sciences

DOI: doi:10.1073/pnas.1320327110

Abstract

Ocean circulation is a remarkable interconnecting conduit, such that biological processes occurring in the remote Southern Ocean can influence the regulation of productivity in Northern Hemisphere waters. Marine phytoplankton, despite their small size, play a disproportionately important role in setting the stoichiometric relationship between elements such as nitrogen, phosphorus, carbon and silicon in the global ocean (1, 2). In turn this ecological stoichiometry helps to set the ultimate limiting nutrient(s) for primary productivity (2, 3). To date, investigation of stoichiometric effects has mainly been centered on low latitude waters (3, 4). However, the Southern Ocean plays a fundamental role in setting the productivity of distant waters, such as the Equatorial Pacific (5), by controlling the leakage of waters with high Silicic acid:Nitrate ratios—the so-called silicic acid leakage hypothesis (SALH) (6, 7). In PNAS, Assmy et al. (8) provide unprecedented detail of how the ecological traits of different polar diatom species contribute to the regulation of ocean nutrient stoichiometry. Thus, diatom floristics help to control the leakage of silicic acid, relative to that of nitrate, into the global ocean, which sets the magnitude of Northern Hemisphere diatom productivity, export, and hence carbon sequestration.

Item Details

Item Type:Contribution to Refereed Journal
Research Division:Earth Sciences
Research Group:Oceanography
Research Field:Biological Oceanography
Objective Division:Expanding Knowledge
Objective Group:Expanding Knowledge
Objective Field:Expanding Knowledge in the Environmental Sciences
Author:Boyd, PW (Professor Philip Boyd)
ID Code:89501
Year Published:2013
Web of Science® Times Cited:10
Deposited By:IMAS Research and Education Centre
Deposited On:2014-03-05
Last Modified:2014-08-06
Downloads:0

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