Processes and patterns of oceanic nutrient limitation

C. M. Moore; M. M. Mills; K. R. Arrigo; I. Berman-Frank; L. Bopp; P. W. Boyd; E. D. Galbraith; R. J. Geider; C. Guieu; S. L. Jaccard; T. D. Jickells; J. La Roche; T. M. Lenton; N. M. Mahowald; E. Marañón; I. Marinov; J. K. Moore; T. Nakatsuka; A. Oschlies; M. A. Saito; T. F. Thingstad; A. Tsuda; O. Ulloa

doi:10.1038/ngeo1765

Processes and patterns of oceanic nutrient limitation

C. M. Moore
, M. M. Mills
, K. R. Arrigo
, I. Berman-Frank
, L. Bopp
, P. W. Boyd
, E. D. Galbraith
, R. J. Geider
, C. Guieu
, S. L. Jaccard
, T. D. Jickells
, J. La Roche
, T. M. Lenton
, N. M. Mahowald
, E. Marañón
, I. Marinov
, J. K. Moore
, T. Nakatsuka
, A. Oschlies
, M. A. Saito

T. F. Thingstad, A. Tsuda, O. Ulloa

The Mina and Everard Goodman Faculty of Life Sciences - at Bar-Ilan University

University of Southampton
Stanford University
Laboratoire Des Sciences Du Climat et de l'Environnement CEA-CNRS-UVSQ
University of Otago
University of Tasmania
McGill University
University of Essex
Université Pierre et Marie Curie-Paris 6
Swiss Federal Institute of Technology Zurich
University of East Anglia
Helmholtz Centre for Ocean Research Kiel
Dalhousie University
University of Exeter
Cornell University
University of Vigo
University of Pennsylvania School of Arts and Sciences
University of California at Irvine
Nagoya University
Woods Hole Oceanographic Institution
University of Bergen
The University of Tokyo
Universidad de Concepción

Research output: Contribution to journal › Review article › peer-review

1869 Scopus citations

Abstract

Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry.

Original language	English
Pages (from-to)	701-710
Number of pages	10
Journal	Nature Geoscience
Volume	6
Issue number	9
DOIs	https://doi.org/10.1038/ngeo1765
State	Published - Sep 2013

Funding

Funders	Funder number
National Science Foundation	1023724
Japan Society for the Promotion of Science	20241003

UN SDGs

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

SDG 14 Life Below Water

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10.1038/ngeo1765

Cite this

Moore, C. M., Mills, M. M., Arrigo, K. R., Berman-Frank, I., Bopp, L., Boyd, P. W., Galbraith, E. D., Geider, R. J., Guieu, C., Jaccard, S. L., Jickells, T. D., La Roche, J., Lenton, T. M., Mahowald, N. M., Marañón, E., Marinov, I., Moore, J. K., Nakatsuka, T., Oschlies, A., ... Ulloa, O. (2013). Processes and patterns of oceanic nutrient limitation. Nature Geoscience, 6(9), 701-710. https://doi.org/10.1038/ngeo1765

@article{6869aa4b161a430d890bf73e20b431ce,

title = "Processes and patterns of oceanic nutrient limitation",

abstract = "Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry.",

author = "Moore, \{C. M.\} and Mills, \{M. M.\} and Arrigo, \{K. R.\} and I. Berman-Frank and L. Bopp and Boyd, \{P. W.\} and Galbraith, \{E. D.\} and Geider, \{R. J.\} and C. Guieu and Jaccard, \{S. L.\} and Jickells, \{T. D.\} and \{La Roche\}, J. and Lenton, \{T. M.\} and Mahowald, \{N. M.\} and E. Mara{\~n}{\'o}n and I. Marinov and Moore, \{J. K.\} and T. Nakatsuka and A. Oschlies and Saito, \{M. A.\} and Thingstad, \{T. F.\} and A. Tsuda and O. Ulloa",

year = "2013",

month = sep,

doi = "10.1038/ngeo1765",

language = "אנגלית",

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Moore, CM, Mills, MM, Arrigo, KR, Berman-Frank, I, Bopp, L, Boyd, PW, Galbraith, ED, Geider, RJ, Guieu, C, Jaccard, SL, Jickells, TD, La Roche, J, Lenton, TM, Mahowald, NM, Marañón, E, Marinov, I, Moore, JK, Nakatsuka, T, Oschlies, A, Saito, MA, Thingstad, TF, Tsuda, A & Ulloa, O 2013, 'Processes and patterns of oceanic nutrient limitation', Nature Geoscience, vol. 6, no. 9, pp. 701-710. https://doi.org/10.1038/ngeo1765

TY - JOUR

T1 - Processes and patterns of oceanic nutrient limitation

AU - Moore, C. M.

AU - Mills, M. M.

AU - Arrigo, K. R.

AU - Berman-Frank, I.

AU - Bopp, L.

AU - Boyd, P. W.

AU - Galbraith, E. D.

AU - Geider, R. J.

AU - Guieu, C.

AU - Jaccard, S. L.

AU - Jickells, T. D.

AU - La Roche, J.

AU - Lenton, T. M.

AU - Mahowald, N. M.

AU - Marañón, E.

AU - Marinov, I.

AU - Moore, J. K.

AU - Nakatsuka, T.

AU - Oschlies, A.

AU - Saito, M. A.

AU - Thingstad, T. F.

AU - Tsuda, A.

AU - Ulloa, O.

PY - 2013/9

Y1 - 2013/9

N2 - Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry.

AB - Microbial activity is a fundamental component of oceanic nutrient cycles. Photosynthetic microbes, collectively termed phytoplankton, are responsible for the vast majority of primary production in marine waters. The availability of nutrients in the upper ocean frequently limits the activity and abundance of these organisms. Experimental data have revealed two broad regimes of phytoplankton nutrient limitation in the modern upper ocean. Nitrogen availability tends to limit productivity throughout much of the surface low-latitude ocean, where the supply of nutrients from the subsurface is relatively slow. In contrast, iron often limits productivity where subsurface nutrient supply is enhanced, including within the main oceanic upwelling regions of the Southern Ocean and the eastern equatorial Pacific. Phosphorus, vitamins and micronutrients other than iron may also (co-)limit marine phytoplankton. The spatial patterns and importance of co-limitation, however, remain unclear. Variability in the stoichiometries of nutrient supply and biological demand are key determinants of oceanic nutrient limitation. Deciphering the mechanisms that underpin this variability, and the consequences for marine microbes, will be a challenge. But such knowledge will be crucial for accurately predicting the consequences of ongoing anthropogenic perturbations to oceanic nutrient biogeochemistry.

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U2 - 10.1038/ngeo1765

DO - 10.1038/ngeo1765

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.systematicreview???

AN - SCOPUS:84883444382

SN - 1752-0894

VL - 6

SP - 701

EP - 710

JO - Nature Geoscience

JF - Nature Geoscience

IS - 9

ER -

Processes and patterns of oceanic nutrient limitation

Abstract

Funding

UN SDGs

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