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Plant species richness at the 0.1 hectare scale in Australian vegetation compared to other continents

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Abstract

New data are reported, and literature data compiled, for species richness in 0.1 ha plots in Australian vegetation. We conclude that on present evidence the same vegetation types are rich, and the same types poor, at a 0.1 ha scale, in Australia as elsewhere. Tropical rainforest averages 140 species per 0.1 ha in permanently humid types. Temperate sclerophyll shrub-dominated types on low-nutrient soils are generally in the range 50–100 species, with open woodlands somewhat richer than scrublands. Warm semi-desert shrublands can have 50–80 species, counting ephemerals both of summer and of winter. Temperate closed forests generally have fewer than 50 species per 0.1 ha. For none of these types is there clear evidence that they are richer or poorer in species at a 0.1 ha scale than types in similar environments with similar growth-form mixes on other continents. We give data for grassy woodlands and sclerophyll scrublands in the monsoonal tropics; the fragments of data on such types available from other continents suggest there may be a wide range of species richness in sub-types of this very broad grouping. Generally, available data do not support the idea that floristic evolutionary history is a strong influence on the species richness of vegetation at the 0.1 ha scale, relative to the influence of the present-day climatic and soil environment.

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References

  • Beadle, N. C. W., 1954. Soil phosphates and the delimitation of plant communities in eastern Australia. Ecology 35: 370–375.

    Google Scholar 

  • Beadle, N. C. W., 1966. Soil phosphate and its role in molding segments of the Australian flora and vegetation, with special reference to xeromorphy and sclerophylly. Ecology 47: 992–1007.

    Google Scholar 

  • Box, E. O., 1981. Predicting physiognomic vegetation types with climate variables. Vegetatio 45: 127–139.

    Google Scholar 

  • Braithwaite, R. W. & Gullan, P. K., 1978. Habitat selection by small mammals in a Victorian heathland. Aust. J. Ecol. 3: 109–127.

    Google Scholar 

  • Brünig, E. F., 1973. Species richness and stand diversity in relation to site and succession of forests in Sarawak and Brunei (Borneo). Amazoniana 4: 293–320.

    Google Scholar 

  • Chesson, P. L. & Warner, R. R., 1981. Environmental variability promotes coexistence in lottery competitive system. Amer. Nat. 117: 923–943.

    Google Scholar 

  • Clements, A., 1980. The vegetation of bushland in the northern Sydney area. M.Sc. thesis, Macquarie Univ.

  • Cockburn, A., 1978. The distribution of Pseudomys shortridgei (Muridae: Rodentia) and its relevance to that of other heathland Pseudomys. Aust. Wildl. Res. 5: 213–219.

    Google Scholar 

  • Connell, J. H., 1978. Diversity in tropical rain forests and coral reefs. Science 199: 1302–1310.

    Google Scholar 

  • Cowling, R. M. & Campbell, B. M., 1980. Convergence in vegetation structure in the Mediterranean communities of California, Chile, and South Africa. Vegetatio 43: 191–197.

    Google Scholar 

  • Eiten, G., 1978. Delimitation of the cerrado concept. Vegetatio 36: 169–178.

    Google Scholar 

  • Fox, J. F., 1981. Intermediate levels of soil disturbance maximize alpine plant diversity. Nature 293: 564–565.

    Google Scholar 

  • Fox, M. D., 1981. Coexistence between eucalypts in a coastal open forest. Ph.D. thesis, Macquarie Univ.

  • George, A. S., Hopkins, A. J. M. & Marchant, N. G., 1979. The heathlands of Western Australia. In: R. L., Specht (ed.), Heathlands and Related Shrublands: Descriptive Studies, pp. 211–230. Elsevier, Amsterdam.

    Google Scholar 

  • Glenn-Lewin, D. C., 1975. Plant species diversity in ravines of the southern Finger Lakes region, New York Can. J. Bot. 53: 1465–1472.

    Google Scholar 

  • Glenn-Lewin, D. C., 1977. Species diversity in North American temperate forests. Vegetatio 33: 153–162.

    Google Scholar 

  • Grime, J. P., 1973a. Competitive exclusion in herbaceous vegetation. Nature 242: 344–347.

    Google Scholar 

  • Grime, J. P., 1973b. Control of species density in herbaceous vegetation. J. Envir. Manage. 1: 151–167.

    Google Scholar 

  • Groves, R. H. & Specht, R. L., 1965. Growth of heath vegetation I Annual growth curves of two heath ecosystems in Australia. Aust. J. Bot. 13: 261–280.

    Google Scholar 

  • Hopper, S. D., 1979. Biogeographical aspects of speciation in the southwest Australian flora. Ann. Rev. Ecol. Syst. 10: 399–422.

    Google Scholar 

  • Huston, M., 1979. A general hypothesis of species diversity. Amer. Nat. 113: 81–101.

    Google Scholar 

  • Jones, E. W., 1955. Ecological studies in the rain forest of southern Nigeria IV. The plateau forest of the Okumu forest reserve. J. Ecol. 43: 564–594.

    Google Scholar 

  • Knight, D. H., 1975. A phytosociological analysis of species-rich tropical forest on Barro Colorado Island, Panama. Ecol. Monogr. 45: 259–284.

    Google Scholar 

  • Lamont, B. B., Downes, S. & Fox, J. E. D., 1977. Importancevalue curves and diversity indices applied to a species-rich heathland in Western Australia. Nature 265: 438–441.

    Google Scholar 

  • Low, B. S., 1978. Environmental uncertainty and the parental strategies of marsupials and placentals. Amer. Nat. 112: 197–213.

    Google Scholar 

  • May, R. M., 1975. Patterns of species abundance and diversity. In: M. L., Cody & J. M., Diamond (eds.) Ecology and Evolution of Communities, pp. 81–120. Harvard Univ. Press, Cambridge, Mass.

    Google Scholar 

  • Milewski, J., 1979. A climatic basis for the study of convergence of vegetation structure in mediterranean Australia and southern Africa. J. Biogeog. 6: 293–299.

    Google Scholar 

  • Naveh, Z. & Whittaker, R. H., 1979. Structural and floristic diversity of shrublands and woodlands in northern Israel and other Mediterranean areas. Vegetatio 41: 171–190.

    Google Scholar 

  • Paijmans, K. (ed.), 1976. New Guinea Vegetation. CSIRO and Australian National University Press, Canberra, 213 pp.

    Google Scholar 

  • Parsons, R. F. & Cameron, D. G., 1974. Maximum plant species diversity in terrestrial communities. Biotropica 6: 202–203.

    Google Scholar 

  • Peet, R. K., 1978a. Forest vegetation of the Colorado Front Range: patterns of species diversity. Vegetatio 37: 65–78.

    Google Scholar 

  • Peet, R. K., 1978b. Ecosystem convergence. Amer. Nat. 112: 441–444.

    Google Scholar 

  • Peet, R. K., 1981. Forest vegetation of the Colorado Front Range: composition and dynamics. Vegetatio 45: 3–75.

    Google Scholar 

  • Peet, R. K. & Christensen, N. L., 1980. Hardwood forest vegetation of the North Carolina Piedmont. Veröff. Geobot. Inst. ETH, Stiftung Rüber, Zurich 69: 14–39.

    Google Scholar 

  • Peet, R. K., Glenn-Lewin, D. C. & Wolf, J. W., 1983. Prediction of man's impact on plant species diversity: a challenge for vegetation science. In: W., Holzner, M. J. A., Werger & I., Ikusima (eds.), Man's Impact on Vegetation, pp. 41–54, Junk, The Hague.

    Google Scholar 

  • Pickett, S. T. A. & Thompson, J. N., 1978. Patch dynamics and the design of nature reserves. Biol. Cons. 13: 27–38.

    Google Scholar 

  • Pielou, E. C., 1975. Ecological Diversity. Wiley-Interscience, N.Y.

    Google Scholar 

  • Pires, J. M., Dobzhansky, T. & Black, G. A., 1953. An estimate of the numbers of species of trees in an Amazonian forest community. Bot. Gaz. 114: 467–477.

    Google Scholar 

  • Ramsay, D. McC. & Leeuw, P. N.de, 1965. An analysis of Nigerian savanna. IV Ordination of vegetation developed on different parent materials. J. Ecol. 53: 661–667.

    Google Scholar 

  • Raven, J. P., 1977. The California flora. In: M. G., Barbour & J., Major (eds.), Terrestrial Vegetation of California, pp. 109–137. Wiley-Interscience, N.Y.

    Google Scholar 

  • Rice, B. L. & Westoby, M., 1978. Vegetative responses of some Great Basin shrub communities protected against jackrabbits or domestic stock. J. Ranges Manage 31: 28–34.

    Google Scholar 

  • Rice, B. & Westoby, M. (in press). Species richness in vascular vegetation of the West Head, N.S.W. Aust. J. Ecol.

  • Richards, P. W., 1963. Ecological notes on West African vegetation. II Lowland forest of the southern Bakundu forest reserve. J. Ecol. 51: 123–149.

    Google Scholar 

  • Shmida, A., 1981. Mediterranean vegetation in California and Israel: similarities and differences. Israel J. Bot. 30: 105–123.

    Google Scholar 

  • Shmida, A. & Whittaker, R. H., 1979. Convergent evolution of deserts in the old and new worlds. In: O., Wilmanns & R., Tüxen (eds.) Werden und Vergehen von Pflanzengesellschaften, pp. 437–450. J. Cramer, Vaduz.

    Google Scholar 

  • Smith, R. F., 1970. The vegetation structure of a Puerto Rican rain forest before and after short-term gamma irradiation. In: H. T., Odum (ed.), A Tropical Rain Forest, pp. D103–140. U.S. Atomic Energy Commission, Oak Ridge, Tennessee.

    Google Scholar 

  • Specht, R. L., 1969. A comparison of the sclerophyllous vegetation characteristic of mediterranean type climates in France, California and southern Australia. 1. Structure, morphology and succession. Aust. J. Bot. 17: 277–292.

    Google Scholar 

  • Walter, H. & Lieth, H., 1960. Klimadiagram-Weltatlas. Fischer-Verlag, Jena.

    Google Scholar 

  • Webb, L. J., Tracey, J. G., Williams, W. T. & Lance, G. N., 1967. Studies in the numerical analysis of complex rain-forest communities, I. A comparison of methods applicable to site/species data. J. Ecol. 55: 171–191.

    Google Scholar 

  • Westman, W. E., 1975. Pattern and diversity in swamp and dune vegetation, North Stradbroke Island. Aust. J. Bot. 23: 339–354.

    Google Scholar 

  • Westman, W. E., 1981. Diversity relations and succession in Californian coastal sage scrub. Ecology 62: 170–184.

    Google Scholar 

  • Westoby, M., 1980. Elements of a theory of vegetation dynamics in arid rangelands. Israel J. Bot. 28: 169–194.

    Google Scholar 

  • White, P. S., 1979. Pattern, process and natural disturbance in vegetation. Bot. Rev. 45: 229–299.

    Google Scholar 

  • Whittaker, R. H., 1956. Vegetation of the Great Smoky Mountains. Ecol. Monogr. 26: 1–80.

    Google Scholar 

  • Whittaker, R. H., 1960. Vegetation of the Siskiyou Mountains, Oregon and California. Ecol. Monogr. 30: 279–338.

    Google Scholar 

  • Whittaker, R. H., 1965. Dominance and diversity in land plant communities. Science 147: 250–260.

    Google Scholar 

  • Whittaker, R. H., 1972. Evolution and measurement of species diversity. Taxon 21: 213–251.

    Google Scholar 

  • Whittaker, R. H., 1977. Evolution of species diversity in land communities. Evol. Biol. 10: 1–67.

    Google Scholar 

  • Whittaker, R. H. & Niering, W. A., 1965. Vegetation of the Santa Catalina Mountains, Arizona. II. A gradient analysis of the south slope. Ecology 46: 429–452.

    Google Scholar 

  • Whittaker, R. H. & Niering, W. A., 1975. Vegetation of the Santa Catalina Mountains, Arizona. V. Biomass, production and diversity along the elevation gradient. Ecology 56: 771–790.

    Google Scholar 

  • Whittaker, R. H., Niering, W. A. & Crisp, M. D., 1979. Structure, pattern, and diversity of a mallee community in New South Wales. Vegetatio 39: 65–76.

    Google Scholar 

  • Whittaker, R. H. & Woodwell, G. M., 1969. Structure, production and diversity of the oak-pine forest at Brookhaven, New York. J. Ecol. 57: 155–174.

    Google Scholar 

  • Wyatt-Smith, J., 1966. Ecological studies on Malayan forests. I. Composition of and dynamic studies in lowland evergreen rainforest in two 5-acre plots in Bukit Lagong and Sungei Menyala Forest Reserve and in two half-acre plots in Sungei Menyala Forest Reserve, 1947–1959. Forest Research Institute, Malaya, Research Pamphlet No. 52.

    Google Scholar 

  • Yodzis, P., 1978. Competition for Space and the Structure of Ecological Communities. Springer-Verlag, Berlin.

    Google Scholar 

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The National Parks and Wildlife Service of N.S.W. gave permission to work in National Parks. Getty Pty. Ltd., Central Coast Mining N.L., Mount Isa Mines Ltd. and Denison Australia Pty. Ltd. supported work on their mining leases. The staff of Fowlers Gap Research Station were always hospitable. The Herbarium Australiense and the herbaria of N.S.W., Sydney University, the Northern Territory and Queensland helped with identifications. We thank D. J. Parsons, C. Zammit, R. K. Peet, W. E. Westman and R. H. Whittaker for comments and unpublished data. We wish particularly to record our debt to the late Professor Whittaker, who encouraged this work.

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Rice, B., Westoby, M. Plant species richness at the 0.1 hectare scale in Australian vegetation compared to other continents. Vegetatio 52, 129–140 (1983). https://doi.org/10.1007/BF00044988

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