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Effects of Harvesting Policy and Nitrogen Application Rates on the Production of Tea in Central Africa. I. Yield and Crop Distribution

Published online by Cambridge University Press:  03 October 2008

J. B. Cloughley
Affiliation:
Tea Research Foundation of Central Africa, PO Box 51, Mulanje, Malawi
W. J. Grice
Affiliation:
Tea Research Foundation of Central Africa, PO Box 51, Mulanje, Malawi
R. T. Ellis
Affiliation:
Tea Research Foundation of Central Africa, PO Box 51, Mulanje, Malawi

Summary

Three levels of N were imposed on mature Indian hybrid tea and green leaves were harvested according to different plucking standards at either 7 or 14-day intervals throughout the main production period. Larger rates of N and less selective plucking standards improved the fresh weight of shoots harvested but dry matter yields were less and the proportions of waste fibre in the finished product were increased. Thus, saleable black tea production was less responsive to N and plucking standard and the order of combined treatment effects was altered. Plucking interval did not affect yield but it changed the distribution of the crop in time. A 7-day interval gave the most uniform crop. These data are discussed in relation to the economics of tea production in Central Africa.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1983

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References

REFERENCES

Basu, R. P. (1978). Plucking in relation to quality of tea. Proceedings of UPASI Conference, Bulletin 35:6266.Google Scholar
Cloughley, J. B. (1979). The effects of N-application on chemical composition, yield, quality and total value of two clonal teas. Tea Research Foundation of Central Africa, Annual Report 1978–79, 117126.Google Scholar
Cloughley, J. B. (1981). Effects of some field variables on the dry-matter content of tea shoots. Journal of Agricultural Science, Cambridge 97:227229.CrossRefGoogle Scholar
Cloughley, J. B. (1983). Effects of harvesting policy and nitrogen application rates on the production of tea in Central Africa. II. Quality and total value of the crop. Experimental Agriculture 19:4754.CrossRefGoogle Scholar
Cloughley, J. B., Ellis, R. T. & Harris, N. (1981). Black tea manufacture. 2. Comparison of the liquoring properties, particle size distribution, and total value of tea produced by different processing systems. Annals of Applied Biology 99:367374.CrossRefGoogle Scholar
Downie, D. L. & Laycock, D. H. (1955). Annual Report of the Tea Research Station, 1954–55, 1415. Blantyre: Nyasaland Tea Association.Google Scholar
Ellis, R. T. (1976). The Tea industry in Malawi and the Tea Research Foundation of Central Africa. Bulletin of the Research Institute for Tea and Cinchona (Indonesia) 2:7785.Google Scholar
Fordham, R. (1970). Factors affecting tea yields in Malawi. PhD thesis, University of Bristol.Google Scholar
Fordham, R. & Palmer-Jones, R. W. (1977). Simulation of intraseasonal yield fluctuations of tea in Malawi. Experimental Agriculture 13:3342.CrossRefGoogle Scholar
Forrest, G. I. (1968). Study in tea biochemistry and fermentation. Tea Research Foundation of Central Africa, Annual Report 1967–68, 6578.Google Scholar
Forrest, G. I. & Bendall, D. S. (1969). The distribution of polyphenols in the tea plant. Biochemical Journal 113:741755.CrossRefGoogle ScholarPubMed
Herd, E. M. & Squire, G. R. (1976). Observations on the winter dormancy of tea (Camellia sinensis L.) in Malawi. Journal of Horticultural Science 51:267279.CrossRefGoogle Scholar
Hilton, P. J., Palmer-Jones, R. W. & Ellis, R. T. (1973). Effects of season and nitrogen fertilizer upon the flavanol composition andtea-making quality of fresh shoots of tea (Camellia sinensis L.) in Central Africa. Journal of the Science of Food and Agriculture 24:819826.CrossRefGoogle Scholar
Keegel, E. L. (1958). Tea Manufacture in Ceylon. Monographs on tea production in Ceylon no 4.Google Scholar
Palmer-Jones, R. W. (1974). Production and marketing of tea in Malawi. Development study 15, Department of Agricultural Economics and Management: University of Reading.Google Scholar
Palmer-Jones, R. W. (1977). The effects of plucking policies on the yield of tea in Malawi. Experimental Agriculture 13:4349.CrossRefGoogle Scholar
Palmer-Jones, R. W. & Hilton, P. J. (1976). Use of chemical assessment of quality in the economics of tea production in Malawi. Journal of the Science of Food and Agriculture 27:714.CrossRefGoogle Scholar
Roberts, E. A. H. (1962). The economic importance of flavanoid substances in tea fermentation. In The Chemistry of Flavanoid Compounds, 468512 (Ed. Geissman, T.A.). Oxford: Pergamon Press.Google Scholar
Shaxson, T. F. (1968). Some long-term effects of shade trees on the yields of tea in Malawi. Proceedings of the 4th Specialist Meeting in Applied Meteorology. East Africa Agricultural and Forestry Research Organisation, Nairobi.Google Scholar
Tea Association of Central Africa (1964). Work Study Manual for the Production of Green Leaf in Malawi. Blantyre.Google Scholar
Tea Research Foundation of Central Africa (1969). Fertilizers for Tea in Central Africa.Google Scholar
Tea Research Foundation of Central Africa (1979). Fertilizers for Tea in Central and Southern Africa.Google Scholar
Werkhoven, J. (1974). Tea Processing. FAO Agricultural Services Bulletin 26: Rome.Google Scholar
Willson, K. C. (1974). Studies on the mineral nutrition of tea. 1. Experimental methods. Plant and Soil 41:112.CrossRefGoogle Scholar