Preferential grazing of Oxyrrhis marina on virus infected Emiliania huxleyi
Preferential grazing of Oxyrrhis marina on virus infected Emiliania huxleyi
We examined whether virus infection of Emiliania huxleyi with the lytic E. huxleyi-specific virus, EhV-86, influenced it's palatability to the heterotrophic dinoflagellate Oxyrrhis marina. E. huxleyi mortality was assessed by comparing changes in the algae's concentration between four different incubations: (1) Grazer O. marina plus an equal concentration of infected and healthy E. huxleyi prey (grazed-infected); (2) the same equal concentration of healthy and infected E. huxleyi prey without grazer O. marina (infected); (3) healthy E. huxleyi prey (no infected cells) with grazer O. marina (grazed); and (4) healthy E. huxleyi prey alone (no grazer or infected cells; control). Grazing rates of O. marina increased in the presence of virus-infected E. huxleyi prey. An adapted plaque assay protocol revealed that the amount of infected cells in grazed-infected cultures was approximately one-quarter (0.28) of that observed in infected (minus grazer) controls. Given that these assays were normalized to cell number, they demonstrate that O. marina was preferentially feeding on virus-infected E. huxleyi over their healthy counterparts. The effects of marine viruses may have been misinterpreted since the likelihood of them being grazed during infection has not been previously considered. Preferential grazing of infected cells in the ocean would sequester more carbon in particulate form, making it available to higher trophic levels. Consequently, these results should be taken into consideration when modeling the ocean carbon budget.
2035-2040
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Wilson, William H.
6bdcec19-b16b-4699-af76-4115b15f6c81
1 September 2008
Evans, Claire
93350709-cad3-4adf-8483-9bee595412f4
Wilson, William H.
6bdcec19-b16b-4699-af76-4115b15f6c81
Evans, Claire and Wilson, William H.
(2008)
Preferential grazing of Oxyrrhis marina on virus infected Emiliania huxleyi.
Limnology and Oceanography, 53 (5), .
(doi:10.4319/lo.2008.53.5.2035).
Abstract
We examined whether virus infection of Emiliania huxleyi with the lytic E. huxleyi-specific virus, EhV-86, influenced it's palatability to the heterotrophic dinoflagellate Oxyrrhis marina. E. huxleyi mortality was assessed by comparing changes in the algae's concentration between four different incubations: (1) Grazer O. marina plus an equal concentration of infected and healthy E. huxleyi prey (grazed-infected); (2) the same equal concentration of healthy and infected E. huxleyi prey without grazer O. marina (infected); (3) healthy E. huxleyi prey (no infected cells) with grazer O. marina (grazed); and (4) healthy E. huxleyi prey alone (no grazer or infected cells; control). Grazing rates of O. marina increased in the presence of virus-infected E. huxleyi prey. An adapted plaque assay protocol revealed that the amount of infected cells in grazed-infected cultures was approximately one-quarter (0.28) of that observed in infected (minus grazer) controls. Given that these assays were normalized to cell number, they demonstrate that O. marina was preferentially feeding on virus-infected E. huxleyi over their healthy counterparts. The effects of marine viruses may have been misinterpreted since the likelihood of them being grazed during infection has not been previously considered. Preferential grazing of infected cells in the ocean would sequester more carbon in particulate form, making it available to higher trophic levels. Consequently, these results should be taken into consideration when modeling the ocean carbon budget.
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Published date: 1 September 2008
Organisations:
Ocean Biochemistry & Ecosystems, National Oceanography Centre
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Local EPrints ID: 406862
URI: http://eprints.soton.ac.uk/id/eprint/406862
ISSN: 0024-3590
PURE UUID: 44040f95-1556-4709-bc54-adaeb8bcfa87
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Date deposited: 25 Mar 2017 02:02
Last modified: 15 Mar 2024 12:56
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Author:
Claire Evans
Author:
William H. Wilson
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