An exploratory analysis of grassland dynamics: An example of a lawn succession (original) (raw)
Summary
The floristic composition of a lawn is studied by means of permanent plots over ten years. Observations show that changes in the life history behaviour of certain species (Trifolium repens, and Sagina procumbens) have important effects on the vegetation dynamics of the lawn. These changes are ascribed to senescence and possibly a pathogen. Numerical classification (divisive information analysis) is used to define suitable classes for transition matrix simulation of grassland succession. The influence of life history changes and catastrophic drought is incorporated by estimating appropriate transition matrices. The limitations of the approach due to spatial patterns are emphasized.
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References
- Austin, M.P. 1968. Pattern in a Zerna erecta dominated community. J. Ecol. 56: 739–757.
Google Scholar - Austin, M.P. 1977. Use of ordination and other multivariate descriptive methods to study succession. Vegetatio 35: 165–175.
Google Scholar - Bakker, J.P. 1978. Changes in a salt-marsh vegetation as a result of grazing and mowing. A five-year study of permanent plots. Vegetatio 38: 77–88.
Google Scholar - Clements, F.E. 1916 Plant succession. Carnegie Inst. Washington Publ. 242, 512. pp.
Google Scholar - Connell, J.H. & R.O.Slatyer. 1977. Mechanisms of succession in natural communities and their role in community stability and organisation. Amer. Nat. 111: 1119–1144.
Google Scholar - Debussche, M., M. Godron, J. Lepart & F. Romane. 1977. An account of the use of a transition matrix. Agro-Ecosystems β: 81–92.
- Drury, W.H. & I.C.T.Nisbet. 1973. Succession. J. Arnold Arboretum 54: 331–368.
Google Scholar - Godron, M. & J.Lepart 1973. Sur la representation de la dynamique de la végétation au moyen de matrices de succession. In R.Tuxen (ed.) Sukzessionsforschung. Ber. symp. Int. Ver. Vegetationskunde, Rinteln, 1973, p. 269–287, Cramer, Vaduz.
Google Scholar - Egler, F.E. 1954. Vegetation science concepts. I. Initial floristic composition— a factor in old-field vegetation development. Vegetatio 4: 412–417.
Google Scholar - Enright, N. & J.Ogden 1979. Applications of transition matrix models in forest dynamics: Araucaria in Papua New Guinea and Nothofagus in New Zealand. Aust. J. Ecol. 4: 3–23.
Google Scholar - Henderson, W. & C.W.Wilkins 1975. The interaction of bushfires and vegetation. Search 6: 130–3.
Google Scholar - Horn, H.S. 1976. Markovian properties of forest succession. In: M.Cody and J.Diamond (eds.), Ecology and evolution of communities, p. 196–211. Harvard University Press, Cambridge.
Google Scholar - Horn, H.S. 1976. Succession. In: R.M.May (ed.), Theoretical ecology: Principles and applications, p. 187–204. Blackwell Scientific Publishers, Oxford.
Google Scholar - Kershaw, K.A. 1959. An investigation of the structure of a grass-land community. II. The pattern of Dactylis glomerata Lolium perenne and Trifolium repens. III. Discussion and conclusions. J. Ecol. 47: 31–53.
Google Scholar - Kershaw, K.A. 1973. Quantitative and dynamic ecology. 2nd. ed. Edward Arnold, London, 308 pp.
Google Scholar - Lance, G.N. & W.T.William 1968. Note on a new information-statistic classificatory program. Comput. J. 11: 195.
Google Scholar - Londo, G. 1978. Möglichkeiten zur Anwendung von vegetations-kundlichen Untersuchungen auf Dauerflächen. Vegetatio 38: 185–190.
Google Scholar - Poissonet, P., F.Romane, M.Thiault & L.Trabaud 1978. Evolution d'une garrigue de Quercus coccifera L. soumise à divers traitements: quelques resultats des cinq premières anneés. Vegetatio 38: 135–142.
Google Scholar - Shugart, H.H.Jr., T.R.Crow & J.M.Hett 1973. Forest succession models a rationale and methodology for modelling forest succession over large regions. Forest Science 19: 203–212.
Google Scholar - Stephens, G.R. & P.E. Waggoner 1970. The forests anticipated from 40 years of natural transitions in mixed hardwoods. Bull. of the Connecticut Agricult. Exp. Stat., New Haven. 58 pp.
- Van Hulst, R. 1980 Vegetation dynamics or ecosystems dynamics: Dynamics sufficiency in succession theory. In: E. van der Maarel (ed.) Advances in vegetation science: Succession. Vegetatio 43: 95–102.
- Waggoner, P.E. & G.R.Stephens 1970. Transition probabilities for a forest. Nature 225: 1160–1161
Google Scholar - Watt, A.S. 1947a. Pattern and process in the plant community. J. Ecol. 35: 1–22.
Google Scholar - Watt, A.S. 1947b. Contributions to the ecology of bracken. IV. The structure of a community. New Phytologist 46: 97–121.
Google Scholar - Williams, E.D. 1978. Botanical composition of the park grass plots at Rothampsted 1856–1976. Rothampsted Expt. Stat., Harpenden, 61 pp.
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Authors and Affiliations
- Division of Land Use Research, Institute of Earth Resources, CSIRO, P.O. Box 1666, 2601, Canberra City, A.C.T., Australia
M. P. Austin
Additional information
I thank T.H. Booth, H.H. Shugart and A.N. Gillison for comment on the manuscript, K. Mayo for programming assistance and M. Adomeit for data preparation.
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Austin, M.P. An exploratory analysis of grassland dynamics: An example of a lawn succession.Vegetatio 43, 87–94 (1980). https://doi.org/10.1007/BF00121021
- Accepted: 06 November 1979
- Issue date: December 1980
- DOI: https://doi.org/10.1007/BF00121021