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Carbon flux in ice–ocean–plankton systems of the Bellingshausen Sea during a period of ice retreat

Murphy, E.J.; Boyd, P.W; Leakey, R.J.G; Atkinson, A.; Edwards, E.S; Robinson, C; Priddle, J; Bury, S.J; Robins, D.B; Burkill, P.H; Savidge, G; Owens, N.J.P; Turner, D. 1998 Carbon flux in ice–ocean–plankton systems of the Bellingshausen Sea during a period of ice retreat. Journal of Marine Systems, 17 (1-4). 207-227. https://doi.org/10.1016/S0924-7963(98)00039-6

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Abstract/Summary

Most analyses of marine microbial systems in the seasonally ice covered areas of the Southern Ocean have been based on data from the major embayment areas of the Ross and Weddell Seas. In this study data were collected at stations covering a range of regimes from full ice cover through to open water in the Bellingshausen Sea. A major feature of the production system was a rapid retreat of the ice-edge, which uncoupled the marginal ice zone from a phytoplankton bloom which remained associated with a frontal system. This bloom was maintained, and probably initiated, in an unusual environment generated by the interaction between the marginal ice zone and the front. Size-based analyses of the microbial system were derived for ice-covered, recently ice-covered and open water sites. Estimates of standing stocks and key rate processes were combined to produce a single food web network for each station. The under-ice system was one of low production and low recycling but apparently high retention. As the ice retreated the microbial systems to the north began to develop, but these were constrained by grazing pressure. The bloom in the area appeared to be sustained even though estimated losses were far higher than production, although the high sedimentation losses expected were not observed. The carbon flow networks are discussed in relation to the environmental changes and the interaction of the marginal ice zone and the frontal system appears crucial to the phytoplankton. Microzooplankton grazing is implicated as a major controlling factor. The local microbial dynamics are strongly influenced by material which was produced at an earlier time and somewhere else in the Southern Ocean.

Item Type: Publication - Article
Digital Object Identifier (DOI): https://doi.org/10.1016/S0924-7963(98)00039-6
Programmes: BAS Programmes > Pre 2000 programme
ISSN: 09247963
Additional Keywords: Bellingshausen Sea, carbon flux, sea-ice, fronts, plankton, microbial
Date made live: 10 Dec 2013 13:19 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/504209

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