Hostname: page-component-5c6d5d7d68-wtssw Total loading time: 0 Render date: 2024-08-25T11:22:06.187Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of Liming and Cultivation on the Establishment and Persistence of Rainfed Mediterranean Pastures

Published online by Cambridge University Press:  03 October 2008

N. Moreira ,
H. Trindade ,
J. Coutinho  and
J. F. Almeida
N. Moreira
Affiliation:
Crop Science and Soil Science Departments, Universidade de Tráds-os-Montes e Alto Douro, Apartado 202, 5001 Vila Real Codex, Portugal
H. Trindade
Affiliation:
Crop Science and Soil Science Departments, Universidade de Tráds-os-Montes e Alto Douro, Apartado 202, 5001 Vila Real Codex, Portugal
J. Coutinho
Affiliation:
Crop Science and Soil Science Departments, Universidade de Tráds-os-Montes e Alto Douro, Apartado 202, 5001 Vila Real Codex, Portugal
J. F. Almeida
Affiliation:
Crop Science and Soil Science Departments, Universidade de Tráds-os-Montes e Alto Douro, Apartado 202, 5001 Vila Real Codex, Portugal
Get access Rights & Permissions [Opens in a new window]

Summary

The influence of liming and method of cultivation on the dry matter yield, botanical composition and seedling density of a rainfed pasture grown in a Mediterranean environment from a commercial seed mixture based on subterranean clover was investigated. Liming resulted in a 2.5-fold increase in pasture dry matter yield. Yields were greater when the soil was scarified before sowing than when it was ploughed, and when the lime was spread after cultivation rather than before. Liming and scarifying increased the proportion of sown species (subterranean clover, white clover and tall fescue) and reduced the proportion of native species and bare ground. Subterranean clover seedling density was higher after scarifying than after ploughing.

Uso de cal en pastos mediterráneos regados por precipitaciones

Type
Research Article
Information
Experimental Agriculture , Volume 30 , Issue 4 , October 1994 , pp. 453 - 459
Copyright
Copyright © Cambridge University Press 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Adams, W. E., Pearson, R. W., Jackson, W. A. & McCreery, R. A. (1967). Influence of limestone and nitrogen on soil pH and coastal bermudagrass yield. Agronomy Journal 59:450453.CrossRefGoogle Scholar
Adeoye, K. B. & Singh, L. (1985). The effect of bulk application of lime under two tillage depths on soil pH and crop yield. Plant and Soil 85:295297.CrossRefGoogle Scholar
Black, A. S. & Cameron, K. C. (1984). Effect of leaching on soil properties and lucerne growth following lime and gypsum amendements to a soil with an acid subsoil. New Zealand Journal of Agricultural Research 27:195200.CrossRefGoogle Scholar
Coventry, D. R., Hirth, J. R. & Fung, K. H. (1987). Nutrition restraints on subterranean clover grown on acid soils used for crop-pasture rotation. Australian Journal of Agricultural Research 38: 163176.CrossRefGoogle Scholar
Daget, Ph. & Poissonet, J. (1971). Une méthode d'analyse phytologique des prairies. Critères d'application. Annales Agronomiques 22(1):541.Google Scholar
Evans, J., Hochman, Z., O'Connor, G. E. & Osborne, G. J. (1988). Soil acidity and rhizobium: their effects on nodulation of subterranean clover on the slopes of Southern New South Wales. Australian Journal of Agricultural Research 38:605618.CrossRefGoogle Scholar
Helyar, K. R. & Anderson, A. J. (1970). Response of five pasture species to phosphorus, lime, and nitrogen on an infertile acid soil with a high phosphate sorption capacity. Australian Journal of Agricultural Research 21:677692.CrossRefGoogle Scholar
Koch, D. W. & Estes, G. O. (1986). Liming rate and method in relation to forage establishment—crop and soil chemical responses. Agronomy journal 78:567571.Google Scholar
Lambert, M. G., Clark, D. A., Grant, D. A., Costall, D. A. & Gray, Y. S. (1986). Influence of fertiliser and grazing management on North Island moist hill country. 2. Pasture botanical composition. New Zealand Journal of Agricultural Research 29:110.CrossRefGoogle Scholar
McLachlan, K. D. (1980). Nutrient problems in sown pasture on acid soil. I Survey of the problems and suggested corrective treatments. Australian Journal of Experimental Agriculture and Animal Husbandry 20:319326.Google Scholar
Moreira, N. & Coutinho, J. (1987). Ensaio demonstrativo de calagem e adubação corn superfosfato em trevos e gramíneas para pastagens de sequeiro. Resultados preliminares. In 8th Spring Meeting of the Portuguese Grassland Society, Évora, Portugal, 6–10 April, pp. 45.Google Scholar
Morley, F. H. W. (1961). Subterranean clover. Advances in Agronomy 13:58123.Google Scholar
Rechcigl, J. E., Wolf, D. D., Reneau, R. B. Jr & Kroontje, W. (1985). Influence of surface liming on the yield and nutrient concentration of alfalfa established using no-tillage techniques. Agronomy Journal 77:956959.CrossRefGoogle Scholar
Woodhouse, W. W. (1970) Effect of placement of phosphorus and lime on the growth of a ladino cloverorchardgrass sward. Agronomy Journal 62:458461.CrossRefGoogle Scholar