Seasonal Synechococcus and Thaumarchaeal population dynamics examined with high resolution with remote in situ instrumentation
Seasonal Synechococcus and Thaumarchaeal population dynamics examined with high resolution with remote in situ instrumentation
Monterey Bay, CA is an Eastern boundary upwelling system that is nitrogen limited much of the year. In order to resolve population dynamics of microorganisms important for nutrient cycling in this region, we deployed the Environmental Sample Processor with quantitative PCR assays targeting both ribosomal RNA genes and functional genes for subclades of cyanobacteria (Synechococcus) and ammonia-oxidizing Archaea (Thaumarchaeota) populations. Results showed a strong correlation between Thaumarchaea abundances and nitrate during the spring upwelling but not the fall sampling period. In relatively stratified fall waters, the Thaumarchaeota community reached higher numbers than in the spring, and an unexpected positive correlation with chlorophyll concentration was observed. Further, we detected drops in Synechococcus abundance that occurred on short (that is, daily) time scales. Upwelling intensity and blooms of eukaryotic phytoplankton strongly influenced Synechococcus distributions in the spring and fall, revealing what appear to be the environmental limitations of Synechococcus populations in this region. Each of these findings has implications for Monterey Bay biogeochemistry. High-resolution sampling provides a better-resolved framework within which to observe changes in the plankton community. We conclude that controls on these ecosystems change on smaller scales than are routinely assessed, and that more predictable trends will be uncovered if they are evaluated within seasonal (monthly), rather than on annual or interannual scales.
513-523
Robidart, Julie C.
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Preston, Christina M.
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Paerl, Ryan W.
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Turk, Kendra A.
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Mosier, Annika C.
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Francis, Christopher A.
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Scholin, Christopher A.
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Zehr, Jonathan P.
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March 2012
Robidart, Julie C.
1d72ac92-7dca-49a0-9f9e-26798387e66b
Preston, Christina M.
95b06ed1-3322-4a56-ac4c-4b0792a77569
Paerl, Ryan W.
b7a9019e-1af1-4d79-b286-80a42589e3d3
Turk, Kendra A.
d5b704ff-5468-4b38-a3b5-3fae7402cc67
Mosier, Annika C.
a9bb58bd-2bb6-46ca-8bf0-1a3d66173f4c
Francis, Christopher A.
ab3e7c3e-62f5-4fb4-a38f-3c38098b5b2f
Scholin, Christopher A.
79a62aed-9c42-40cd-9d06-485f66494066
Zehr, Jonathan P.
df07e726-0814-4247-8a74-942c07bd23e2
Robidart, Julie C., Preston, Christina M., Paerl, Ryan W., Turk, Kendra A., Mosier, Annika C., Francis, Christopher A., Scholin, Christopher A. and Zehr, Jonathan P.
(2012)
Seasonal Synechococcus and Thaumarchaeal population dynamics examined with high resolution with remote in situ instrumentation.
The ISME Journal, 6 (3), .
(doi:10.1038/ismej.2011.127).
Abstract
Monterey Bay, CA is an Eastern boundary upwelling system that is nitrogen limited much of the year. In order to resolve population dynamics of microorganisms important for nutrient cycling in this region, we deployed the Environmental Sample Processor with quantitative PCR assays targeting both ribosomal RNA genes and functional genes for subclades of cyanobacteria (Synechococcus) and ammonia-oxidizing Archaea (Thaumarchaeota) populations. Results showed a strong correlation between Thaumarchaea abundances and nitrate during the spring upwelling but not the fall sampling period. In relatively stratified fall waters, the Thaumarchaeota community reached higher numbers than in the spring, and an unexpected positive correlation with chlorophyll concentration was observed. Further, we detected drops in Synechococcus abundance that occurred on short (that is, daily) time scales. Upwelling intensity and blooms of eukaryotic phytoplankton strongly influenced Synechococcus distributions in the spring and fall, revealing what appear to be the environmental limitations of Synechococcus populations in this region. Each of these findings has implications for Monterey Bay biogeochemistry. High-resolution sampling provides a better-resolved framework within which to observe changes in the plankton community. We conclude that controls on these ecosystems change on smaller scales than are routinely assessed, and that more predictable trends will be uncovered if they are evaluated within seasonal (monthly), rather than on annual or interannual scales.
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Published date: March 2012
Organisations:
Ocean Technology and Engineering
Identifiers
Local EPrints ID: 374058
URI: http://eprints.soton.ac.uk/id/eprint/374058
ISSN: 1751-7362
PURE UUID: ac9e6a00-4c65-43f7-81be-2fd501bff77f
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Date deposited: 02 Feb 2015 17:07
Last modified: 14 Mar 2024 19:00
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Contributors
Author:
Julie C. Robidart
Author:
Christina M. Preston
Author:
Ryan W. Paerl
Author:
Kendra A. Turk
Author:
Annika C. Mosier
Author:
Christopher A. Francis
Author:
Christopher A. Scholin
Author:
Jonathan P. Zehr
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