THE DYNAMICS OF A GRASSLAND ECOSYSTEM: BOTANICAL EQUILIBRIUM IN THE PARK GRASS EXPERIMENT

SUMMARY (1) The published results of the Park Grass Experiment (PGE), begun in 1856, provide up to 30 yr of annual data which may be used to determine whether the botanical composition of these grasslands was at equilibrium. Data covering a period exceeding 80 yr are available to test for relationships between hay yield (biomass), species diversity, species number and time. (2) Species diversity and species number show negative relationships with plot biomass and with pH. These relationships were constant over time. The effects of biomass and pH on species number and species diversity were additive. (3) Analysis of the flora of nine plots, each divided into grasses, legumes and a miscellaneous component showed that these components were at equilibrium. (4) The effect of various endogenous factors on this botanical equilibrium was examined. No regular or irregular cycles of component biomass operating between years were detected and it is inferred that populations were regulated by processes operating within individual years. (5) The biomasses of all three components were positively correlated within an unfertilized plot but the floristic components of plots receiving a fertilizer treatment showed few within-plot correlations. By contrast between-plot correlations of components were common for all plots with the exception of those recel.iig nitrogen fertilizer. (6) The mechanisms of population regulation which maintained the Park Grass ecosystem at equilibrium are discussed and tests for these are proposed.

[1]  R. Fisher,et al.  The Influence of Rainfall on the Yield of Wheat at Rothamsted , 1925 .

[2]  M. Williamson An Elementary Theory of Interspecific Competition , 1957, Nature.

[3]  The effect of manuring, grazing and cutting on the yield, botanical and chemical composition of natural hill pastures. I. Yield and botanical section. , 1940 .

[4]  W. E. Brenchley THE INFLUENCE OF SEASON AND OF THE APPLICATION OF LIME ON THE BOTANICAL COMPOSITION OF GRASSLAND HERBAGE , 1935 .

[5]  R. May,et al.  Stability and Complexity in Model Ecosystems , 1976, IEEE Transactions on Systems, Man, and Cybernetics.

[6]  W. Milton,et al.  The Yield, Botanical and Chemical Composition of Natural Hill Herbage Under Manuring, Controlled Grazing and Hay Conditions , 1947 .

[7]  L. Aarssen,et al.  Neighbour relationships in grass–legume communities. I. Interspecific contacts in four grassland communities near London, Ontario , 1977 .

[8]  D. Lack The natural regulation of animal numbers , 1954 .

[9]  R. H. Whittaker,et al.  Dominance and Diversity in Land Plant Communities , 1965, Science.

[10]  G. Salt A Comment on the Use of the Term Emergent Properties , 1979, The American Naturalist.

[11]  S. Siegel,et al.  Nonparametric Statistics for the Behavioral Sciences , 2022, The SAGE Encyclopedia of Research Design.

[12]  J. Lawes,et al.  Agricultural, botanical, and chemical results of experiments on the mixed herbage of permanent meadow : conducted for more than twenty years in succession / , 1880 .

[13]  A. D. Bradshaw,et al.  The Park Grass Plots at Rothamsted (1856-1949). , 1965 .

[14]  J. Harper,et al.  The Comparative Biology of Closely Related Species: VI. ANALYSIS OF THE GROWTH OF TRIFOLIUM REPENS AND T. FRAGIFERUM IN PURE AND MIXED POPULATIONS , 1963 .

[15]  John Bennet Lawes,et al.  XXVIII. Agricultural, botanical, and chemical results of experiments on the mixed herbage of permanent meadow, conducted for more than twenty years in succession on the same land. — Part. II. The botanical results , 1882, Philosophical Transactions of the Royal Society of London.