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The effects of frequency of defoliation on the yield response of a perennial ryegrass sward to a wide range of nitrogen application rates

Published online by Cambridge University Press:  27 March 2009

D. Reid
Affiliation:
The Hannah Research Institute, Ayr

Summary

In a 3-year experiment on a sward of S. 23 perennial ryegrass 21 rates of nitrogen fertilizer ranging from 0 to 897 kg/ha were applied annually on plots cut three, five or ten times per year. The cutting dates within each frequency were decided on the basis of herbage growth stage. Four-parameter exponential curves fitted to the herbage yield data show that the pattern of response to nitrogen application in the five cuts per year treatment was markedly similar to that reported for a previous experiment (Reid, 1970). Alterations in the cutting frequency affected the pattern of dry-matter yield response to nitrogen, but not that of crude-protein yield response. The combined effects of cutting frequency and nitrogen rate are illustrated by response surfaces fitted to the dry-matter yield results using an extension of the equation for the curves fitted to the individual frequency results. These surfaces show that as the number of cuts per year was increased the total yield and the response to nitrogen decreased, but the response was maintained to an increasingly high nitrogen rate. The practical implications of the results are discussed in relation to intensive grazing managements for dairy cows.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1978

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References

Coleman, R. L. (1972). Factors affecting the response to nitrogen of temperate and tropical grasses. Journal of the Australian Institute of Agricultural Science 38, 225–6.Google Scholar
Draper, N. R. & Smith, H. (1966). Applied Regression Analysis. New York: John Wiley & Sons.Google Scholar
Frame, J. (1973). The yield response of a tall fescue/ white clover sward to nitrogen rate and harvesting frequency. Journal of the British Grassland Society 28, 139–48.Google Scholar
Holliday, R. & Wilman, D. (1965). The effect of fertilizer nitrogen and frequency of defoliation on yield of grassland herbage. Journal of the British Grassland Society 30, 3240.CrossRefGoogle Scholar
Hunt, I. V. (1966). The effect of utilization of herbage on the response to fertilizer nitrogen. Proceedings of the 9th International Grassland Congress, Sao Paulo, 1965, pp. 1113–19.Google Scholar
Morrison, I. M. (1972). A semi-micro method for the determination of lignin and its use in predicting the digestibility of forage crops. Journal of the Science of Food and Agriculture 23, 455–63.CrossRefGoogle ScholarPubMed
Reid, D. (1970). The effects of a wide range of nitrogen application rates on the yields from a perennial ryegrass sward with and without white clover. Journal of Agricultural Science, Cambridge 74, 227–40.Google Scholar
Reid, D. (1972). The effects of the long-term application of a wide range of nitrogen rates on the yields from perennial ryegrass swards with and without white clover. Journal of Agricultural Science, Cambridge 79, 291301.Google Scholar
Wilman, D., Droushiotis, D., Koocheki, A., Lwoga, A. B. & Shim, J. S. (1976). The effect of interval between harvests and nitrogen application on the digestibility and digestible yield and nitrogen content and yield of four ryegrass varieties in the first harvest year. Journal of Agricultural Science, Cambridge 86, 393–9.Google Scholar