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Ecogenomic sensor reveals controls on N2-fixing microorganisms in the North Pacific Ocean

Ecogenomic sensor reveals controls on N2-fixing microorganisms in the North Pacific Ocean
Ecogenomic sensor reveals controls on N2-fixing microorganisms in the North Pacific Ocean
Nitrogen-fixing microorganisms (diazotrophs) are keystone species that reduce atmospheric dinitrogen (N2) gas to fixed nitrogen (N), thereby accounting for much of N-based new production annually in the oligotrophic North Pacific. However, current approaches to study N2 fixation provide relatively limited spatiotemporal sampling resolution; hence, little is known about the ecological controls on these microorganisms or the scales over which they change. In the present study, we used a drifting robotic gene sensor to obtain high-resolution data on the distributions and abundances of N2-fixing populations over small spatiotemporal scales. The resulting measurements demonstrate that concentrations of N2 fixers can be highly variable, changing in abundance by nearly three orders of magnitude in less than 2 days and 30?km. Concurrent shipboard measurements and long-term time-series sampling uncovered a striking and previously unrecognized correlation between phosphate, which is undergoing long-term change in the region, and N2-fixing cyanobacterial abundances. These results underscore the value of high-resolution sampling and its applications for modeling the effects of global change.
autonomous sensing, biosensors, diazotrophs, microbial oceanography, nitrogen fixation, time-series
1751-7362
1175-1185
Robidart, Julie C.
1d72ac92-7dca-49a0-9f9e-26798387e66b
Church, Matthew J.
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Ryan, John P.
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Ascani, François
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Wilson, Samuel T.
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Bombar, Deniz
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Marin, Roman
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Richards, Kelvin J.
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Karl, David M.
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Scholin, Christopher A.
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Zehr, Jonathan P.
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Robidart, Julie C.
1d72ac92-7dca-49a0-9f9e-26798387e66b
Church, Matthew J.
64970e66-4421-499e-800b-491abfee4010
Ryan, John P.
8ee70a63-99a4-4040-ab4f-3caf0624d3e4
Ascani, François
def365ac-f39a-4492-b6eb-8e5a96b82274
Wilson, Samuel T.
b5b35cff-7d54-4df2-bfef-9cb9dd1114b8
Bombar, Deniz
38485332-c4a9-4e8a-962d-6730b562dd9b
Marin, Roman
b239303e-f515-42a0-a587-da7b51d5c801
Richards, Kelvin J.
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Karl, David M.
c462949a-fd21-40c5-968a-61d5ec967858
Scholin, Christopher A.
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Zehr, Jonathan P.
df07e726-0814-4247-8a74-942c07bd23e2

Robidart, Julie C., Church, Matthew J., Ryan, John P., Ascani, François, Wilson, Samuel T., Bombar, Deniz, Marin, Roman, Richards, Kelvin J., Karl, David M., Scholin, Christopher A. and Zehr, Jonathan P. (2014) Ecogenomic sensor reveals controls on N2-fixing microorganisms in the North Pacific Ocean. The ISME Journal, 8 (6), 1175-1185. (doi:10.1038/ismej.2013.244).

Record type: Article

Abstract

Nitrogen-fixing microorganisms (diazotrophs) are keystone species that reduce atmospheric dinitrogen (N2) gas to fixed nitrogen (N), thereby accounting for much of N-based new production annually in the oligotrophic North Pacific. However, current approaches to study N2 fixation provide relatively limited spatiotemporal sampling resolution; hence, little is known about the ecological controls on these microorganisms or the scales over which they change. In the present study, we used a drifting robotic gene sensor to obtain high-resolution data on the distributions and abundances of N2-fixing populations over small spatiotemporal scales. The resulting measurements demonstrate that concentrations of N2 fixers can be highly variable, changing in abundance by nearly three orders of magnitude in less than 2 days and 30?km. Concurrent shipboard measurements and long-term time-series sampling uncovered a striking and previously unrecognized correlation between phosphate, which is undergoing long-term change in the region, and N2-fixing cyanobacterial abundances. These results underscore the value of high-resolution sampling and its applications for modeling the effects of global change.

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More information

Published date: January 2014
Keywords: autonomous sensing, biosensors, diazotrophs, microbial oceanography, nitrogen fixation, time-series
Organisations: Ocean Technology and Engineering

Identifiers

Local EPrints ID: 374043
URI: http://eprints.soton.ac.uk/id/eprint/374043
DOI: doi:10.1038/ismej.2013.244
ISSN: 1751-7362
PURE UUID: a69ba805-4b2c-49aa-8f03-42025ee4192d

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Date deposited: 02 Feb 2015 15:03
Last modified: 14 Mar 2024 19:01

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Contributors

Author: Julie C. Robidart
Author: Matthew J. Church
Author: John P. Ryan
Author: François Ascani
Author: Samuel T. Wilson
Author: Deniz Bombar
Author: Roman Marin
Author: Kelvin J. Richards
Author: David M. Karl
Author: Christopher A. Scholin
Author: Jonathan P. Zehr

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