Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean

We investigated microzooplankton grazing and viral lysis of the pico- and nanophytoplankton community in the Southern Ocean during the “Sensitivity of Sub-Antarctic Zone Waters to Global Change” cruise to the Australian sector (January–February 2007) and the Antarctic–XXIV/3 (February–March 2008) ex...

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Published in:Limnology and Oceanography
Main Authors: Evans, Claire, Brussaard, Corina P. D.
Format: Article in Journal/Newspaper
Language:English
Published: 2012
Subjects:
Antarctic
Drake Passage
Greenwich
Southern Ocean
The Antarctic
Weddell
Antarc*
Online Access:https://eprints.soton.ac.uk/406868/
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spelling ftsouthampton:oai:eprints.soton.ac.uk:406868 2023-07-30T03:58:39+02:00 Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean Evans, Claire Brussaard, Corina P. D. 2012-11-01 https://eprints.soton.ac.uk/406868/ English eng Evans, Claire and Brussaard, Corina P. D. (2012) Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean. Limnology and Oceanography, 57 (6), 1826-1837. (doi:10.4319/lo.2012.57.6.1826 <http://dx.doi.org/10.4319/lo.2012.57.6.1826>). Article PeerReviewed 2012 ftsouthampton https://doi.org/10.4319/lo.2012.57.6.1826 2023-07-09T22:13:45Z We investigated microzooplankton grazing and viral lysis of the pico- and nanophytoplankton community in the Southern Ocean during the “Sensitivity of Sub-Antarctic Zone Waters to Global Change” cruise to the Australian sector (January–February 2007) and the Antarctic–XXIV/3 (February–March 2008) expedition to the Greenwich Meridian and the Drake Passage. A dilution assay was employed in concert with flow cytometry at stations that spanned the sub-Antarctic, Polar Frontal, and Antarctic Zones and in the Weddell Gyre. Both viral lysis and microzooplankton grazing played a significant role in controlling cyanobacterial populations, except in the sub-Antarctic west of Tasmania, where their growth was regulated by grazing alone. Three main groups of eukaryotic algae were detected, and these were calculated to have average cell diameters of 0.8, 2.1, and 3.7 µm. Grazing was significant in the control of their growth at all locations, whereas viral lysis of eukaryotic algae was comparatively minor, as it was detected in only 40% of the experiments. Throughout the surveyed sites no pattern between geographical location and growth rates and/or mortality rates could be established for any of the phytoplankton groups. Estimates of iron regeneration indicated that as a result of its widespread occurrence, microzooplankton grazing is a more consistent source of regenerated iron to the Southern Ocean but that viral lysis can be responsible for significant pulses of iron into the dissolved pool. Article in Journal/Newspaper Antarc* Antarctic Drake Passage Southern Ocean University of Southampton: e-Prints Soton Antarctic Drake Passage Greenwich Southern Ocean The Antarctic Weddell Limnology and Oceanography 57 6 1826 1837
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description We investigated microzooplankton grazing and viral lysis of the pico- and nanophytoplankton community in the Southern Ocean during the “Sensitivity of Sub-Antarctic Zone Waters to Global Change” cruise to the Australian sector (January–February 2007) and the Antarctic–XXIV/3 (February–March 2008) expedition to the Greenwich Meridian and the Drake Passage. A dilution assay was employed in concert with flow cytometry at stations that spanned the sub-Antarctic, Polar Frontal, and Antarctic Zones and in the Weddell Gyre. Both viral lysis and microzooplankton grazing played a significant role in controlling cyanobacterial populations, except in the sub-Antarctic west of Tasmania, where their growth was regulated by grazing alone. Three main groups of eukaryotic algae were detected, and these were calculated to have average cell diameters of 0.8, 2.1, and 3.7 µm. Grazing was significant in the control of their growth at all locations, whereas viral lysis of eukaryotic algae was comparatively minor, as it was detected in only 40% of the experiments. Throughout the surveyed sites no pattern between geographical location and growth rates and/or mortality rates could be established for any of the phytoplankton groups. Estimates of iron regeneration indicated that as a result of its widespread occurrence, microzooplankton grazing is a more consistent source of regenerated iron to the Southern Ocean but that viral lysis can be responsible for significant pulses of iron into the dissolved pool.
format Article in Journal/Newspaper
author Evans, Claire
Brussaard, Corina P. D.
spellingShingle Evans, Claire
Brussaard, Corina P. D.
Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
author_facet Evans, Claire
Brussaard, Corina P. D.
author_sort Evans, Claire
title Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
title_short Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
title_full Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
title_fullStr Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
title_full_unstemmed Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean
title_sort viral lysis and microzooplankton grazing of phytoplankton throughout the southern ocean
publishDate 2012
url https://eprints.soton.ac.uk/406868/
geographic Antarctic
Drake Passage
Greenwich
Southern Ocean
The Antarctic
Weddell
geographic_facet Antarctic
Drake Passage
Greenwich
Southern Ocean
The Antarctic
Weddell
genre Antarc*
Antarctic
Drake Passage
Southern Ocean
genre_facet Antarc*
Antarctic
Drake Passage
Southern Ocean
op_relation Evans, Claire and Brussaard, Corina P. D. (2012) Viral lysis and microzooplankton grazing of phytoplankton throughout the Southern Ocean. Limnology and Oceanography, 57 (6), 1826-1837. (doi:10.4319/lo.2012.57.6.1826 <http://dx.doi.org/10.4319/lo.2012.57.6.1826>).
op_doi https://doi.org/10.4319/lo.2012.57.6.1826
container_title Limnology and Oceanography
container_volume 57
container_issue 6
container_start_page 1826
op_container_end_page 1837
_version_ 1772821398725591040

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