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Photosynthetic capacity in microalgae associated with Antarctic pack ice

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Summary

Previous studies of primary production in Antarctic seas have concluded that microalgae associated with sea ice make only a minor contribution to the carbon budget; however, production estimates for sea ice algae have been based almost exclusively on microalgae from nearshore fast ice. We measured biomass and rates of photosynthesis (at saturating irradiances) in microalgae collected from offshore pack ice during four cruises to the Weddell-Scotia Sea and the region west of the Antarctic Peninsula. Chlorophyll a concentrations in pack ice (0.089 to 260 μg 1-1) were as high as reported from fast ice. Photosynthetic rates typically ranged (median 75%) from 0.3 to 3.6 μ C μg chl a -1 h-1 (n=127; arithmetic mean = 1.7, S D =1.9). These photosynthetic capacities are approximately an order of magnitude greater than previously reported for fast ice microalgae, but are similar to rates reported for Antarctic phytoplankton. Because pack ice constitutes more than 90% of the ice cover in Antarctic seas and indigenous microalgae have a higher photosynthetic capacity than previously realized, we raise the question: has the importance of sea ice algae to primary product: on in the southern ocean been underestimated?

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Author notes

  1. Michael P. Lizotte

    Present address: Department of Biology, Montana State University, 59717, Bozeman, MT, USA

Authors and Affiliations

  1. Department of Biological Sciences, University of Southern California, 90089-0373, Los Angeles, CA, USA

    Cornelius W. Sullivan

  2. Hancock Institute for Marine Studies, Graduate Program in Ocean Science, USA

    Michael P. Lizotte

Authors
  1. Michael P. Lizotte
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  2. Cornelius W. Sullivan
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Lizotte, M.P., Sullivan, C.W. Photosynthetic capacity in microalgae associated with Antarctic pack ice. Polar Biol 12, 497–502 (1992). https://doi.org/10.1007/BF00238188

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  • DOI: https://doi.org/10.1007/BF00238188

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