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14 - Ecosystem function at low biodiversity – the Baltic example
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- By Ragnar. Elmgren, Department of Systems Ecology, Stockholm University, S-106 91 Stockholm, Sweden, Cathy. Hill, Swedish Environmental Protection Agency, S-106 48 Stockholm, Sweden
- Edited by Rupert F. G. Ormond, University of York, John D. Gage, Scottish Association for Marine Science, Martin V. Angel
- Foreword by Crispin Tickell
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- Book:
- Marine Biodiversity
- Published online:
- 04 August 2010
- Print publication:
- 11 December 1997, pp 319-336
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- Chapter
- Export citation
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Summary
Abstract
For a marine area, the Baltic Sea has a uniquely low species diversity, due to its low salinity, recent geological origin and harsh climate. Its flora and fauna consist of a mixture of marine, freshwater and brackish-water species. The three major basins of the Baltic Sea, from south to north, have quite stable surface salinities of 6–8 psu in the Baltic proper, 5–6 psu in the Bothnian Sea and 2–4 psu in the Bothnian Bay.
A comparison of Steele's (1974) carbon flow model of the high diversity North Sea ecosystem, with Elmgren's (1984) carbon flow calculations for the Baltic Sea shows great similarity for the Baltic proper, and similar, but proportionally reduced, flows in the Bothnian Sea. Only the Bothnian Bay has a markedly different carbon flow pattern, due to a near-total absence of benthic filter-feeders. Only when a major functional group was lost, was there a drastic alteration of ecosystem function. The Baltic example suggests we should not claim without good proof that high biodiversity is needed to ‘maintain ecosystem function’.
The possibility remains that low diversity may destabilise ecosystem function, even without the loss of major functional groups. With fewer species in each functional group, there is a greater risk that the loss or drastic reduction of a single species may affect ecosystem processes. Published data on ecosystem variability over time and on ecosystem resilience under experimental stress are not yet sufficient for testing this hypothesis in the Baltic Sea.