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Diversity of Antarctic terrestrial protozoa

Smith, H. G.. 1996 Diversity of Antarctic terrestrial protozoa. Biodiversity and Conservation, 5 (11). 1379-1394. https://doi.org/10.1007/BF00051984

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Abstract/Summary

Heterotrophic protozoa have a global distribution in terrestrial habitats. The functional groups significantly represented are zooflagellates, cillates, gymnamoebae and testate amoebae. Their range extends into the Antarctic zone, but the species richness of the communities is rarely of the same order of magnitude as those in temperate latitudes. Species diversity is usually very low owing to dominance of the communities by single, or a few, species which are best adapted to the Antarctic terrestrial environment. This is characterized by seasonal, diurnal or unpredictable fluctuations in moisture, temperature and bacterial food supply of high amplitude. The fauna shows pauperization with latitude and climatic severity. Nearly all records of species distribution are consistent with the model that community composition is determined by local conditions. An important exception is the distribution of the testate amoeba genus Nebela whose species distribution is influenced by biogeographical factors. Successional changes in community composition in fellfield habitats are characterized by the sequence: pioneer microflagellate colonizers, larger flagellates and small ciliates, and finally testate amoebae. The succession is most closely correlated with the accumulation of organic matter. A model of the strategies of dominant microflagellate species can be constructed by ordinating them on a two-dimensional habitat template of A-r-K selection continuum. The globally ubiquitous microflagellate Heteromita globosa emerges as the most strongly A-selected and K-selected. The occurrence of terrestrial protozoa near their latitudinal limits of distribution can serve as sensitive indicators of the biological effects of climatic change. Having short generation times and effective means of cyst dispersal, changes in the gross distribution can provide rapid warning of critical changes in thermal regimes.

Item Type: Publication - Article
Digital Object Identifier (DOI): https://doi.org/10.1007/BF00051984
Programmes: BAS Programmes > Pre 2000 programme
ISSN: 0960-3115
Additional Keywords: protozoa, species richness, populations, biogeography, succession, adaptations and strategies, bio-indicators
Date made live: 05 Dec 2016 09:04 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/515314

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