Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-25T15:20:21.689Z Has data issue: false hasContentIssue false

Hay for horses: the effects of three different wetting treatments on dust and nutrient content

Published online by Cambridge University Press:  02 September 2010

M. Blackman
Affiliation:
Brackenhurst College, Southwell, Nottinghamshire, NG25 0QF
M. J. S. Moore-Colyer
Affiliation:
Welsh Institute of Rural Studies, University of Wales, Aberystwyth SY23 5EE
Get access

Abstract

Five bales were randomly chosen from a stack of 6-month-old barn-stored hay. Four 2·5-kg sections were taken from each bale and subjected to one of four different water wetting treatments, 0-min soak, 10-min soak, 30-min soak and 80-min steaming. Post wetting, the sections were shaken for 9 min under a Negretti LS45F personal dust sampler which sucked-in any particles released into the surrounding air. The sampler contents were then analysed for respirable particle numbers (particles < 5um), and the hay subsampled and analysed for water-soluable carbohydrate, N, Na, K, Ca, P, Mg, Zn, Mn, Fe and Cu. The steaming and soaking treatments all proportionately reduced respirable particle numbers by more than 0·93 of those present in the dry hay. Soaking for 10 min and 30 min significantly reduced levels of P, K, Mg, Na and Cu, whereas the steamed samples showed no loss of nutrients from the levels present in the dry hay. Thus in terms of reducing respirable particle numbers and conserving nutrient levels, steaming for 80 min is the most effective treatment when preparing hay fodder for horses.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1998

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

Clarke, A. F. 1986. Air hygiene of stables and chronic obstructive pulmonary disease. Ph.D. thesis, University of Bristol.Google Scholar
Clarke, A. 1987. A review of environmental and host factors in relation to equine respiratory disease. Equine Veterinary Journal 19: 435441.CrossRefGoogle ScholarPubMed
Clarke, A. 1992. Environmental monitoring in relation to equine respiratory disease. In Current therapy in equine medicine, third edition, (ed. Robinson, N. E.), pp. 310315. W. B. Saunders, Philadelphia.Google Scholar
Eduard, W., Lacey, J., Karlsson, K., Palmgren, U., Strom, G. and Blomquist, G. 1988. Monitoring airborne micro-organisms in the occupational environment. Harmonization of sampling and analysis of mould spores — Nordisk Ministerrad no. 1.Google Scholar
Eduard, W., Lacey, J., Karlsson, K., Palmgren, U. and Blomquist, G. 1990. Evaluation of methods for enumerating microorganisms in filter samples from highly contaminated occupational environments. American Industrial Hygiene Association 51: 427436.CrossRefGoogle ScholarPubMed
Faithfull, N. T. 1971. Automated simultaneous determination of nitrogen, phosphorus, potassium and calcium on the same herbage digest solution. Laboratory Practice 20: 4144.Google Scholar
Faithfull, N. T. 1974. Analysis of magnesium in Kjeldahl digests of herbage by atomic-absorption spectrophotometry with the nitrous oxide-acetylene flame. Laboratory Practice 23: 177178.Google Scholar
Frape, D. 1986. Equine nutrition and feeding. Longman Scientific and Technical, Edinburgh.Google Scholar
Gregory, P. H. and Lacey, M. E. 1963. Mycological examination of dust from mouldy hay associated with farmer's lung disease, journal of General Microbiology 30: 7588.CrossRefGoogle ScholarPubMed
Gregory, P. H., Lacey, M. E., Fenstenstein, G. W. and Skinner, F. A. 1963. Liberation of spores from mouldy hay. Transactions of the British Mycological Society 46: 7380.CrossRefGoogle Scholar
Lacey, J. 1990. Aeriobiology and health: the role of airborne fungal spores in respiratory disease. In Frontiers in mycology (ed. Hawksworth, D. L.). CAB International.Google Scholar
Lacey, J. and Dutkiewicz, J. 1976. Methods for examining the microflora of mouldy hay. Journal of Applied Bacteriology 41: 1327.CrossRefGoogle Scholar
Lacey, J. and Vince, D. A. 1972. Endospore development and germination in a new Thermoactinomyces species. In Spore research (ed. Barker, A. N., Gould, G. W., Wolf, J.), pp. 181187. Academic Press, London.Google Scholar
Lawson, G. H. K., McPherson, E. A., Murphy, J. R., Nicholson, J. M., Wooding, P., Breeze, R. G. and Pirie, H. M. 1979. The presence of precipitating antibodies in the sera of horses with COPD. Equine Veterinary Journal 11: 172178.CrossRefGoogle Scholar
McGorum, B. C., Dixon, P. M. and Halliwell, R. E. W. 1993. Responses of horses affected with COPD to inhalation challenges with mould antigens. Equine Veterinary Journal 25: 261267.CrossRefGoogle ScholarPubMed
McPherson, E. A. and Thomas, J. R. 1983. C.O.P.D. in the horse. 1. Nature of the disease. Equine Veterinary Journal 15: 203207.CrossRefGoogle Scholar
Ministry of Agriculture, Fisheries and Food. 1992. Feed composition. UK tables of feed composition and nutritive value for ruminants, second edition. Chalcomb Publications.Google Scholar
Moore-Colyer, M. J. S. 1996. Effects of soaking hay fodder for horses on dust and mineral content. Animal Science 63: 337342.CrossRefGoogle Scholar
National Research Council. 1989. Nutrient requirements of horses, fifth edition. National Academy Press, Washington DC.Google Scholar
Sheppard, J. A. 1994. An investigation into managing respirable dust in equine environments. M.Sc. thesis, University of Wales, Aberystwyth.Google Scholar
Thomas, T. A. 1977. An automated procedure for the determination of soluble carbohydrates in herbage. Journal of the Science and Food and Agriculture 28: 639642.Google Scholar
Tizard, I. R. 1977. An introduction to veterinary immunology. W.B. Saunders, London.Google Scholar
Warr, E. and Petch, J. 1992. Effects of soaking hay on its nutritional quality. Equine Veterinary Education 5: 169171.CrossRefGoogle Scholar
Wilman, D., Acuna, G. H. and Michaud, P. J. 1994. Concentrations of N, P, K, Ca, Mg, and Na in perennial ryegrass and white clover leaves of different ages. Grass and Forage Science 49: 422428.CrossRefGoogle Scholar
Wise, D. R. 1987. Nutrition of horses. In Horse management, second edition (ed. Hickman, J.), pp. 175202. Academic Press, London.Google Scholar
Woods, P. S. A., Robinson, N. E., Swanson, M. C., Reed, C. E., Broadstone, R. V. and Derksen, F. J. 1993. Airborne dust and aeroallergen concentration in a horse stable under two different management systems. Equine Veterinary Journal 25: 208213.CrossRefGoogle Scholar