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The climatic potential for field hay drying in north-west Europe

Published online by Cambridge University Press:  27 March 2009

N. Thompson
Affiliation:
Meteorological Office, Bracknell, Berkshire
I. A. Barrie
Affiliation:
Meteorological Office, Bracknell, Berkshire
L. D. J. Harvey
Affiliation:
Meteorological Office, Bracknell, Berkshire

Summary

A model of a drying swath has been developed and used with 20-year long meteorological data sets from 32 sites in north-west Europe to provide an objective assessment of the influence of weather on field hay drying. The model considered the swath in terms of its bulk properties but incorporated the effects on swath drying of soil evaporation and stubble transpiration: delays in swath drying caused by interception of rain or dew were calculated explicitly.

A cutting season from May to September was assumed, and results given in terms of the number of daily cuts reaching various moisture contents in less than 10 days, and especially those reaching 25% (dry-weight basis) within 5 days so that dry-matter losses were relatively small, and immediate long-term storage was possible. Rainfall amounts on the faster-drying swaths were usually less than 1 mm. A large inter-annual variability in hay-drying prospects was demonstrated, even at sites with fairly good climates for drying on average. The most favourable conditions for field drying were shown to occur substantially earlier in the cutting season at maritime sites than at those with a more continental climate. Conditioning of the swath allowed more cuts to dry to a prescribed moisture content, but with the penalty of larger average rainfall on the swath, and consequent loss of quality.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1985

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References

REFERENCES

Agena, M. U., Batjer, D. & Wessels, G. (1968). Wieviel ‘Einfuhrtage’ stehen ira nordwestdeutschen Raura für die Bergung von winterfutter zur Verfugung? Meteorologische Rundschau 21, 169175.Google Scholar
Borgman, E. & Brooker, D. B. (1961). The weather and haymaking. University of Missouri Agricultural Experimental Station Bulletin, no. 777, 8 pp.Google Scholar
Burns, S. M., Lewis, M. R. & Rendell, J. (1982). Grass conservation: 1980. Agricultural Enterprise Studies in England and Wales, Economic Report, no. 82. University of Reading, Department of Agricultural Economics and Management.Google Scholar
Couturier, D. E. & Ripley, E. A. (1973). Rainfall interception in mixed grass prairie. Canadian Journal of Plant Science 53, 659663.Google Scholar
Day, W., Lawlor, D. W. & Legg, B. J. (1981). The effects of drought on barley: soil and plant water relations. Journal of Agricultural Science, Cambridge 96, 6177.Google Scholar
Dyer, J. A. & Brown, D. M. (1977). A climatic simulator for field drying hay. Agricultural Meteorology 18, 3748.CrossRefGoogle Scholar
Dyer, J. A. & Selirio, I. S. (1977). A new method of analysis for hay drying weather. Canadian Agricultural Engineering 19, 7174.Google Scholar
Hill, J. D. (1976). Predicting the natural drying of hay. Agricultural Meteorology 17, 195204.Google Scholar
Ministry of Agriculture, Fisheries and Food (1983). Agricultural Statistics, United Kingdom 1982. London: H.M.S.O.Google Scholar
Monteith, J. L. (1965). Evaporation and environment. Symposium of the Society for Experimental Biology 19, 205234.Google ScholarPubMed
Rees, D. V. H. (1982). A discussion of sources of dry matter loss during the process of haymaking. Journal of Agricultural Engineering Research 27, 469479.Google Scholar
Roy, M. G. & Wilkins, R. J. (1969). The effect of weather conditions on moisture loss from cut grass in the field. Unpublished Memorandum, available from National Meteorological Library, Bracknell.Google Scholar
Rucker, G. & Knabe, O. (1977). Non-mechanical field losses in wilting grasses as influenced by different factors. Proceedings Thirteenth International Grassland Congress, Leipzig, pp. 13791381.Google Scholar
Rumney, R. P., Harris, C. E. & Dhanoa, M. S. (1984). The effect of re-wetting on some drying characteristics of Italian ryegrass leaves in simulated haymaking conditions. Agricultural and Forest Meteorology 32, 133144.CrossRefGoogle Scholar
Sala, E. & Virtanen, E. (1983). Influence of weather conditions during drying on the nutritive value of hay. Journal of the Scientific Agricultural Society of Finland 55, 133142.Google Scholar
Spatz, G., van Eimern, J. & Lawrynowicz, R. (1970). Der Trocknungsverlauf von Heu in Freiland. Bayerisches Landwirtschaftliches Jahrbuch 1970 47, 446464.Google Scholar
Thompson, N. (1981). Modelling the field drying of hay. Journal of Agricultural Science, Cambridge 97, 241260.Google Scholar
Thompson, N. (1982). A comparison of formulae for the calculation of water loss from vegetated surfaces. Agricultural Meteorology 26, 265272.CrossRefGoogle Scholar
Thompson, N. (1984). The effects of climate variation or change on existing production systems of crops such as hay, silage and cereals which rely heavily on field drying. Final Report, EEC Contract CLI-033–81-UK(H) (copy held in National Meteorological Library, Bracknell).Google Scholar
Thompson, N., Barrie, I. A. & Ayles, M. (1982). The Meteorological Office Rainfall and Evaporation Calculation System (MORECS). Hydro-logical Memorandum, no. 45. Meteorological Office, Bracknell.Google Scholar
van Elderen, E., de Feijter, J. & van Hoven, S. P. J. H. (1972). Moisture in a grass sward. Journal of Agricultural Engineering Research 17, 209218.CrossRefGoogle Scholar
Wilkinson, J. M. (1980). Production of hay and silage in Europe. Proceedings of conference ‘Forage conservation in the 80's, Brighton, U.K., 273011 1979 (ed. Thomas, C.). Occasional Symposium No. 11, British Grassland Society.Google Scholar
Wilkinson, J. M. (1981). Losses in the conservation and utilization of grass and forage crops. Annals of Applied Biology 98, 365375.Google Scholar