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Drivers of interannual variability in virioplankton abundance at the coastal western Antarctic peninsula and the potential effects of climate change
Authors:Claire Evans  Joost Brandsma  David W. Pond  Hugh J. Venables  Michael P. Meredith  Harry J. Witte  Sharon Stammerjohn  William H. Wilson  Andrew Clarke  Corina P. D. Brussaard
Affiliation:1. Department of Biological Oceanography, Royal Netherlands Institute for Sea Research, Texel, The Netherlands;2. British Antarctic Survey, Natural Environmental Research Council, High Cross, Cambridge, UK;3. Institute of Arctic and Alpine Research, University of Colorado, Boulder, CO, USA;4. The Laboratory, Sir Alister Hardy Foundation for Ocean Science, Plymouth, UK;5. Aquatic Microbiology, Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, Amsterdam, The Netherlands
Abstract:An 8‐year time‐series in the Western Antarctic Peninsula (WAP) with an approximately weekly sampling frequency was used to elucidate changes in virioplankton abundance and their drivers in this climatically sensitive region. Virioplankton abundances at the coastal WAP show a pronounced seasonal cycle with interannual variability in the timing and magnitude of the summer maxima. Bacterioplankton abundance is the most influential driving factor of the virioplankton, and exhibit closely coupled dynamics. Sea ice cover and duration predetermine levels of phytoplankton stock and thus, influence virioplankton by dictating the substrates available to the bacterioplankton. However, variations in the composition of the phytoplankton community and particularly the prominence of Diatoms inferred from silicate drawdown, drive interannual differences in the magnitude of the virioplankton bloom; likely again mediated through changes in the bacterioplankton. Their findings suggest that future warming within the WAP will cause changes in sea ice that will influence viruses and their microbial hosts through changes in the timing, magnitude and composition of the phytoplankton bloom. Thus, the flow of matter and energy through the viral shunt may be decreased with consequences for the Antarctic food web and element cycling.
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