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15 - Land–seascape diversity of the USA East Coast coastal zone with particular reference to estuaries
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- By G.C. Ray, Department of Environmental Sciences, University of Virginia, Charlottesville, VA 22903, USA, B.P. Hoyden, Department of Environmental Sciences, University of Virginia, Charlottesville, VA 22903, USA, M.G. McCormick-Ray, Department of Environmental Sciences, University of Virginia, Charlottesville, VA 22903, USA, T.M. Smith, Department of Environmental Sciences, University of Virginia, Charlottesville, VA 22903, USA
- 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 337-371
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- Chapter
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Summary
Abstract
We propose a landscape-pattern approach for interpreting the ecological function of coastal-zone biodiversity. Our model incorporates pattern from the ecosystem to the species levels and predicts that the decline or removal of a species or a set of species will not only directly influence the total biological diversity of the system, but, by removing ecological feedbacks, will also influence environmental conditions. That is, predicting biodiversity and faunal dynamics both requires that the response of the organism to the environment, and the modifications the organism may make to the environment, be made explicit at appropriate scales. The implication is that by removing the possible feedbacks between these two environmental conditions, it is possible that functions of the entire coastal-zone ecosystem will be altered in fundamental ways.
The coastal zone may be subdivided into a hierarchical structure that is reflected by faunal pattern. The largest spatial scale we will consider is that of the coastal zone as transitional between land and sea on a continental scale. Smaller scales, respectively, are coastal provinces, estuarine systems and the mosaic of habitats within those systems. We identify three benthic invertebrate assemblages and four estuarine-dependent fish assemblages by means of principal components analysis (PCA); these assemblages generally reflect the boundary conditions of the Virginian and Carolinian biogeographical provinces. We then describe estuarine function in terms of five principal components; these are assumed to play fundamental roles in determining the occurrence and position of various habitats, including oyster reefs.