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Burning and cutting management and the formation of seed yield in Brachiaria decumbens

Published online by Cambridge University Press:  27 March 2009

W. W. Stür  and
L. R. Humphreys
W. W. Stür
Affiliation:
Department of Agriculture, University of Queensland, St Lucia, 4067, Australia
L. R. Humphreys
Affiliation:
Department of Agriculture, University of Queensland, St Lucia, 4067, Australia
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Extract

A central issue in the husbandry of seed crops of perennial tropical grasses is the disposal of residues from previous crops. Flowering of these grasses is usually poorly synchronized, and the sudden removal of all shoot material by burning, mechanical removal or stock concentration is necessary to create a population of tillers of similar age (Humphreys & Riveros, 1986). There has been little critical study of alternative systems of residue disposal and their effects on the ways in which seed yield is realized. Questions requiring attention are whether cutting differs from burning in its effects, and whether the fuel load, determined by the size of the previous crop, influences the potentially damaging effect of fire on crown buds.

Type
Short Notes
Information
The Journal of Agricultural Science , Volume 110 , Issue 3 , June 1988 , pp. 669 - 672
Copyright
Copyright © Cambridge University Press 1988

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References

Bahnisch, L. M. & Humphreys, L. R. (1977). Urea application and time of harvest effects on seed production of Setaria anceps cv. Narok. Australian Journal of Experimental Agriculture and Animal Husbandry 17, 621628.CrossRefGoogle Scholar
Clifford, P. E. (1977). Tiller bud suppression in reproductive plants of Lolium multiflorum Lam. cv. Wester-woldicum. Annals of Botany 41, 605615.CrossRefGoogle Scholar
Davies, A., Evans, E. M. & Exley, J. K. (1983). Regrowth of perennial rye grass as affected by simulated leaf sheaths. Journal of Agricultural Science, Cambridge 101, 131137.CrossRefGoogle Scholar
Hopkinson, J. M. & English, B. H. (1982). Seed production of signal grass. Queensland Agricultural Journal 108, 317322.Google Scholar
Humphreys, L. R. & Riveros, F. (1986). Tropical Pasture Seed Production, 3rd ed., Plant Production Protection Paper 8, Rome: F.A.O.Google Scholar
Pritchard, A. J. (1967). Apomixis in Brachiaria decumbens Stapf. Journal of the Australian Institute of Agricultural Science 33, 264265.Google Scholar
Stinson, K. J. & Wright, H. A. (1969). Temperatures of headfires in the southern mixed prairie of Texas. Journal of Range Management 22, 169174.CrossRefGoogle Scholar
Stür, W. W. (1985). Burning, defoliation, and the formation of seed yield in Brachiaria decumbens and Paspalum plicatulum. Ph.D. thesis, University of Queensland.Google Scholar
Stür, W. W. & Humphreys, L. R. (1987). Tiller development and flowering in swards of Brachiaria decumbens. Annals of Applied Biology 110, 639644.CrossRefGoogle Scholar
Stür, W. W. & Humphreys, L.R. (1988). Defoliation and burning effects on the tillering of Brachiaria decumbens. Journal of Applied Ecology 25 (in the Press).CrossRefGoogle Scholar
Wright, H. A. (1970). A method to determine heat-caused mortality in bunch-grass. Ecology 51, 582587.CrossRefGoogle Scholar