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The effect of lime and phosphate on soils and sown species in the Falkland Islands

Published online by Cambridge University Press:  27 March 2009

J. H. McAdam
Affiliation:
Grassland Trials Unit, Port Stanley, Falkland Islands, South Atlantic

Summary

Experiments to determine the effects of a range of applied lime and phosphate treatments on the establishment of species and the subsequent herbage production in the first and second seasons following sowing on four sites in the Falkland Islands are described and the results discussed.

Festuca rubra, Dactylis glomerata, Phleum pratense and Poa pratensis established, successfully yielding up to 4·5 t D.M./ha per year with inputs of 55 kg N, 50 kg P and 20 kg K/ha. Applied P increased the yield of herbage and produced a small, though significant, increase in P status of the soil.

The lowest level of applied lime (0·63 t/ha) increased the soil pH to 5·0 and although this did not affect the yield or botanical composition of the grass component of the sward it did affect the presence and nodulation of white clover.

The problems of establishing white clover are presented in view of the severe limitations on the use of lime and fertilizer in the Islands. The implications of grazing this improved pasture are discussed in relation to increased pasture production and improved soil fertility.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1981

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References

REFERENCES

Allen, S. E., Grimshaw, H. M., Parkinson, J. A. & Quarmley, C. (1974). Chemical Analysis of Ecological Materials. Oxford: Blaokwell Scientific Publications.Google Scholar
Anon. (1973). The analysiss of agriculture materials. Ministry of Agriculture, Fisheries and Food Technical Bulletin No. 27. London: H.M.S.O.Google Scholar
Collins, D. P. (1961). The establishment of grass-clover swards on bogland by surface seeding. Irish Journal of Agricultural Research 1, 2130.Google Scholar
Davies, J., Edwards, D. E. & Rowlands, A. (1968). Some aspects of hill land improvement in Wales. In Hill Land Productivity, Occasional Symposium No. 4 British Grassland Society. 1967, pp. 4446.Google Scholar
Davies, T. H., Dickson, I. A., McCrea, C. T., Mead, H. & Williams, W. W. (1971). The Sheep and Cattle Industries of the Falkland Islands. Overseas Development Administration, London.Google Scholar
Davies, W. (1939). The Grasslands of the Falkland Islands. Port Stanley: Government Printer.Google Scholar
Eadie, J. (1970). Sheep production and pastoral resources. In Animal Populations in Relation to their Food Resources. British Ecological Society Symposium No. 10 (ed. A. Watsons). Oxford: Blackwell Scientific Publications.Google Scholar
Floate, M. J. S. (1970). Decomposition of organic materials from hill soils and pastures. III. The effect of temperature on the mineralisation of C, N and P from plant materials and sheep faeces. Soil Biology and Biochemistry 2, 187196.CrossRefGoogle Scholar
Floate, M. J. S. (1971). Plant nutrient cycling in hill land. Hill Farming Research Organisation 5th Report 1967–70, pp. 1534.Google Scholar
Floate, M. J. S. & Pimplasker, M. S. (1976). Some anomalous results for ‘Available-P’ in hill soils and experimental attempts towards their resolution. Journal of the Science of Food and Agriculture 27, 591.Google Scholar
Gibbs, J. G. (1946). Report on the Work of the Department of Agriculture 1937–1946, unpublished. Governor's Library, Port Stanley, Falkland Islands.Google Scholar
King, R. B., Lang, D. M. & Rains, A. B. (1969). Land systems analysis of the Falkland Islands with notes on the soils and grasslands. Miscellaneous Report of the Land Resources Division, Directorate of Overseas Survey, No. 72, 24 pp.Google Scholar
McConaghy, S. & McAllister, J. S. V. (1973). Studies on the use and improvement of marginal land in Northern Ireland. In Potassium Institute Ltd. Colloqium Proceedings No. 3, pp. 1317.Google Scholar
Miller, S. (1966). Grassland work at Roy Cove. In Conference on Grassland Improvement, 18th July. Port Stanley: Government Printer.Google Scholar
Moore, D. M. (1968). The Vascular Flora of the Falkland Islands. British Antarctic Survey Scientific Reports No. 60. London: Natural Environment Researoh Council.Google Scholar
Munro, J. M. M. & Davies, D. A. (1974). Potential pasture production in the Uplands of Wales. 5. The nitrogen contribution of white clover. Journal of the British Grassland Society 29, 213233.CrossRefGoogle Scholar
Newbould, P. (1973). Plants to improve hill pastures. Hill Farming Research Organisation, 6th Report, 1971–1973. pp. 7485.Google Scholar
Ogg, W. G. & Robertson, I. M. (1934). The reclamation of moorland. Empire Journal of Experimental Agriculture 2, 163173.Google Scholar
Reith, J. W. S. & Robertson, R. A. (1971). Lime and fertilizer requirements for the establishment of and growth of grass on deep peat. Journal of Agricultural Science, Cambridge 76, 8995.CrossRefGoogle Scholar
Robertson, R. A. & Nicholson, I. A. (1961). The response of some hill pasture types to lime and phosphate. Journal of the British Grassland Society 16, 117125.Google Scholar
Young, C. D. (1968). Report on Pasture Improvement Experiments carried out in the Falkland Islands during 1965–1968. Government Report, Government Printers, Port Stanley.Google Scholar