How many Coccolithovirus genotypes does it take to terminate an Emiliania huxleyi bloom?
How many Coccolithovirus genotypes does it take to terminate an Emiliania huxleyi bloom?
Giant viruses are known to be significant mortality agents of phytoplankton, often being implicated in the terminations of large Emiliania huxleyi blooms. We have previously shown the high temporal variability of E. huxleyi-infecting coccolithoviruses (EhVs) within a Norwegian fjord mesocosm. In the current study we investigated EhV dynamics within a naturally-occurring E. huxleyi bloom in the Western English Channel. Using denaturing gradient gel electrophoresis and marker gene sequencing, we uncovered a spatially highly dynamic Coccolithovirus population that was associated with a genetically stable E. huxleyi population as revealed by the major capsid protein gene (mcp) and coccolith morphology motif (CMM), respectively. Coccolithoviruses within the bloom were found to be variable with depth and unique virus populations were detected at different stations sampled indicating a complex network of EhV-host infections. This ultimately will have significant implications to the internal structure and longevity of ecologically important E. huxleyi blooms.
138-145
Highfield, Andrea
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Evans, Claire
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Walne, Anthony
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Miller, Peter I.
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Schroeder, Declan C.
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1 October 2014
Highfield, Andrea
9cef9366-b9b8-4146-84cc-cdcff19776fd
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Walne, Anthony
2876ea5a-d36a-4c80-ae90-eba85c40c671
Miller, Peter I.
a5187d8c-201a-43e5-b0c1-4fe1fa5809c0
Schroeder, Declan C.
3a84ae31-1772-4707-8246-c69abdcd3005
Highfield, Andrea, Evans, Claire, Walne, Anthony, Miller, Peter I. and Schroeder, Declan C.
(2014)
How many Coccolithovirus genotypes does it take to terminate an Emiliania huxleyi bloom?
Virology, 466-467, .
(doi:10.1016/j.virol.2014.07.017).
Abstract
Giant viruses are known to be significant mortality agents of phytoplankton, often being implicated in the terminations of large Emiliania huxleyi blooms. We have previously shown the high temporal variability of E. huxleyi-infecting coccolithoviruses (EhVs) within a Norwegian fjord mesocosm. In the current study we investigated EhV dynamics within a naturally-occurring E. huxleyi bloom in the Western English Channel. Using denaturing gradient gel electrophoresis and marker gene sequencing, we uncovered a spatially highly dynamic Coccolithovirus population that was associated with a genetically stable E. huxleyi population as revealed by the major capsid protein gene (mcp) and coccolith morphology motif (CMM), respectively. Coccolithoviruses within the bloom were found to be variable with depth and unique virus populations were detected at different stations sampled indicating a complex network of EhV-host infections. This ultimately will have significant implications to the internal structure and longevity of ecologically important E. huxleyi blooms.
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Published date: 1 October 2014
Organisations:
Ocean Biochemistry & Ecosystems, National Oceanography Centre
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Local EPrints ID: 406872
URI: http://eprints.soton.ac.uk/id/eprint/406872
ISSN: 0042-6822
PURE UUID: 1da65a50-fd1e-431e-9b54-b955a4ffb6fe
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Date deposited: 25 Mar 2017 02:03
Last modified: 15 Mar 2024 12:55
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Author:
Andrea Highfield
Author:
Claire Evans
Author:
Anthony Walne
Author:
Peter I. Miller
Author:
Declan C. Schroeder
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