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The Selection of Conservation Areas in Antarctica: An Example Using the Arthropod Fauna of Antarctic Islands

Published online by Cambridge University Press:  24 August 2009

Michael B. Usher  and
Marion Edwards
Michael B. Usher
Affiliation:
Reader, Department of Biology, University of York, York Y01 5DD, England, UK
Marion Edwards
Affiliation:
Research Assistant, Department of Biology, University of York, York Y01 5DD, England, UK.
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Extract

Four conservation areas in the maritime Antarctic (three Specially Protected Areas and a Site of Special Scientific Interest) are compared with neighbouring islands which have not been awarded similar conservation status. Comparisons are carried out by using the terrestrial arthropod fauna, as opposed to the plant communities. Results indicate that arthropod diversity can vary significantly between localities for samples collected from the same vegetation types, but that within a limited geographical area the diversity of such faunas is similar.

Type
Main Papers
Information
Environmental Conservation , Volume 13 , Issue 2 , Summer 1986 , pp. 115 - 122
Copyright
Copyright © Foundation for Environmental Conservation 1986

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References

André, H.M. (1980). A generic revision of the family Tydeidae (Acari: Actinedida), IV, Generic descriptions, keys and conclusions. Bulletin et Annales de la Société Royale Entomologique de Belgique, 116, pp. 103–30, 139–68.Google Scholar
Austin, M.P. & Margules, C.R. (in press). Assessing representativeness. In Wildlife Conservation Evaluation (Ed. M.B. Usher). Chapman & Hall, London & New York: illustr.Google Scholar
Bonner, W.N. (1984). Conservation and the Antarctic. Pp. 821–50 in Antarctic Ecology (Ed. Laws, R.M.). Academic Press, London, England, UK: Vol. 2, xvi + 343–859 pp. + Index of xxvii pp., illustr.Google Scholar
Bonner, W.N. & Lewis Smith, R.I. (Eds) (1985). Conservation Areas in Antarctica. Scientific Committee on Antarctic Research, Cambridge, England, UK: viii + 299 pp., illustr.Google Scholar
Booth, R.G., Edwards, M. & Usher, M.B. (1985). Mites of the genus Eupodes (Acari, Prostigmata) from maritime Antarctica: a biometrical and taxonomic study. Journal of Zoology, 207, pp. 381406.CrossRefGoogle Scholar
Gimingham, C.H. & Lewis Smith, R.I. (1970). Bryophyte and lichen communities in the maritime Antarctic. Pp. 752–85 in Antarctic Ecology (Ed. Holdgate, M.W.). Academic Press, London & New York: Vol. 2, x + 605–998 pp., illustr.Google Scholar
Hunter, P.E. (1970). Acarina: Mesostigmata: free-living mites of South Georgia and Heard Island. Pacific Insects Monographs, 23, pp. 4370.Google Scholar
IUCN/UNEP/WWF (1980). World Conservation Strategy: Living Resource Conservation for Sustainable Development. (Illustrated pack of 20 sections + maps.) Published by the International Union for Conservation of Nature and Natural Resources (IUCN), with the United Nations Environment Programme (UNEP) and the World Wildlife Fund (WWF), Gland, Switzerland: vii + 59 pp., illustr.Google Scholar
Margules, C. & Usher, M.B. (1981). Criteria used in assessing wildlife conservation potential: a review. Biological Conservation, 21, pp. 79109.CrossRefGoogle Scholar
Morris, M.G. & Lakhani, K.H. (1979). Responses of grassland invertebrates to management by cutting, I, Species diversity of Hemiptera. Journal of Applied Ecology, 16, pp. 7798.CrossRefGoogle Scholar
National Science Foundation (1979). US Antarctic Program: Draft Environmental Impact Statement. National Science Foundation, Washington, DC, USA: pp. 1.1-M.7 [chapters paged separately], illustr.Google Scholar
Strandtmann, R.W. (1967). Terrestrial Prostigmata (trombidiform mites). Antarctic Research Series, 10, pp. 5180.Google Scholar
Strandtmann, R.W. (1970). Acarina: Eupodiform Prostigmata of South Georgia. Pacific Insects Monograph, 23, pp. 89106.Google Scholar
Strandmann, R.W. (1982). Notes on Nanorchestes, V: Two new species of Nanorchestes from the Antarctic Peninsula and South Atlantic Islands. Pacific Insects, 24, pp. 252–8.Google Scholar
Tilbrook, P.J. (1973). The Signy Island terrestrial reference sites, I: An introduction. British Antarctic Survey Bulletin, 33 & 34, pp. 6576.Google Scholar
Usher, M.B. & Booth, R.G. (1984). A portable extractor for separating microarthopods from soil. Pedobiologia, 26, pp. 1723.CrossRefGoogle Scholar
Usher, M.B. & Edwards, M. (1984 a). The terrestrial arthropods of the grass sward of Lynch Island, a specially protected area in Antarctica. Oecologia, 63, pp. 143–4.CrossRefGoogle ScholarPubMed
Usher, M.B. & Edwards, M. (1984 b). A dipteran from south of the Antarctic Circle: Belgica antarctka (Chironomidae), with a description of its larvae. Biological Journal of the Linnean Society, 23, pp. 1931.CrossRefGoogle Scholar
Wallwork, J.A. (1967). Cryptostigmata (oribatid mites). Antarctic Research Series, 10, pp. 105–22.Google Scholar
Weiner, W.M. (1980). Friesea woyciechowskii sp. n. (Collembola. Neanuridae) from King George Island (South Shetland Islands, Antarctica). Polskie Pismo Entomologiczne, 50, pp. 491–5.Google Scholar
Wirth, W.W. & Gressitt, J.L. (1967). Diptera: Chironomidae (midges). Antarctic Research Series, 10, pp. 197203.Google Scholar
Wise, K.A.J. (1967). Collembola (springtails). Antarctic Research Series, 10, pp. 123–48.Google Scholar
Zacharda, M. (1980). Soil mites in the family Rhagidiidae (Actinedida: Eupodoidea). Morphology, systematics, ecology. Acta Universitatis Carolinae, 1978, pp. 489785.Google Scholar