Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-03T05:08:39.824Z Has data issue: false hasContentIssue false
  • English
  • Français

Investigations into the role of specific micro-organisms in the aerobic deterioration of maize silage

Published online by Cambridge University Press:  27 March 2009

M. K. Woolford  and
Ann C. Wilkie
M. K. Woolford
Affiliation:
The Grassland Research Institute, Hurley, Maidenhead, Berkshire, SL6 5LR
Ann C. Wilkie
Affiliation:
The Grassland Research Institute, Hurley, Maidenhead, Berkshire, SL6 5LR
Get access Rights & Permissions [Opens in a new window]

Summary

Two experiments were undertaken with maize silage, which had been sterilized by subjecting it to a 6 Mrad dose of γ radiation, inoculated with micro-organisms implicated in the aerobic deterioration of silage and subsequently exposed to air. The inocula employed comprised mixed strains of yeasts, bacilli and lactic acid bacteria and combinations of these. The changes which accompanied aerobic deterioration were observed. The major losses of fermentation acids, ethanol, ammonia and dry matter, and increases in total nitrogen and temperature were associated with inocula in which yeasts were represented. Similar changes of a lower magnitude were also observed in silage treated with inocula containing bacteria only, although these were not always accompanied by the growth of these organisms or loss of dry matter. However, when employed in mixed inocula with yeasts, the bacteria proliferated and tended in some instances to increase losses further, suggesting an association between the groups of micro-organisms in the aerobic deterioration process. Losses were also sustained in sterile silage which received no inoculum and the possible reasons for this are discussed.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 102 , Issue 1 , February 1984 , pp. 97 - 104
Copyright
Copyright © Cambridge University Press 1984

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

Association of Official Agricultural Chemists (1965). Official Methods of Analysis of the Association of Official Agricultural Chemists, 10th edn.Washington: Association of Official Agricultural Chemists.Google Scholar
Barry, T. N., Dimenna, M. E., Webb, P. R. & Parle, J. N. (1980). Some observations on aerobic deterioration in untreated silages and in silages made with formaldehyde-containing additives. Journal of the Science of Food and Agriculture 31, 133146.CrossRefGoogle Scholar
Beck, T. (1975). Beeinflussung der Nachgarung durch Siliermittel. Das Wirtschaftseigene Futter 21, 5564.Google Scholar
Beck, T. & Gross, F. (1964). Ursachen der unter- schiedlichen Haltbarkeit von Garfutter. Das Wirtschaftseigene Futter 10, 298312.Google Scholar
Crawshaw, R., Thorne, D. M. & Llewelyn, R. H. (1980). The effects of formic and propionic acids on the aerobic deterioration of grass silage in laboratory units. Journal of the Science of Food and Agriculture 31, 685694.Google Scholar
Daniel, P., Honig, H., Weise, F. & Zimmer, E. (1970). Wirkung von propionsaure bei der Grünfuttersilierung. Das Wirtschaftseigene Futter 16, 239252.Google Scholar
Gross, F. & Beck, T. (1970). Untersuchungen über die Hemmung von aeroben Abbauprozessen durch Propionsaure bei der Auslagerung in Gärfutter. Das Wirtschaftseigene Futter 16, 114.Google Scholar
Hara, S., Itoh, M. & Ohyama, Y. (1979). Aerobic deterioration of silages and changes in temperature, gas metabolism, heat production and microflora. Japanese Journal of Zootechnical Science 50, 549556.Google Scholar
Hara, S. & Ohyama, Y. (1979). Yeasts and moulds concerned in aerobic deterioration of maize silages after opening the silo, with reference to application of caproic acid and hydrochloric acid. Japanese Journal of Zootechnical Science 50, 375385.Google Scholar
Honig, H. & Woolford, M. K. (1980). Changes in silage on exposure to air. Occasional Symposium of the British Grassland Society, no. 11, pp. 7687.Google Scholar
Moon, N. J., Ely, L. O. & Sudweeks, E. M. (1980). Aerobic deterioration of wheat, lucerne and maize silages prepared with Lactobacillus acidophilus and a Candida spp. Journal of Applied Bacteriology 49, 7587.Google Scholar
Ohyama, Y. & Hara, S. (1975). Growth of yeasts isolated from silages on various media and the relationship to aerobic deterioration of silage. Japanese Journal of Zootechnical Science 46, 713721.Google Scholar
Ohyama, Y., Hara, S. & Masaki, S. (1980). Analysis of the factors affecting aerobic deterioration of grass silages. Occasional Symposium of the British Grassland Society, no. 11, pp. 257261.Google Scholar
Ohyama, Y., Masaki, S. & Hara, S. (1975). Factors influencing aerobic deterioration of silages and changes in chemical composition after opening silo. Journal of the Science of Food and Agriculture 26, 11371147.Google Scholar
Thimann, K. V. (1963). The Life of Bacteria, 2nd edn.New York: Macmillan.Google Scholar
Weise, F. (1963). Beitrage zur Grundlagenforschung in der Garfutterbereitung. 2. Das bakteriologische Bild einer Grassilage. Landbauforschung Völkenrode 13, 111116.Google Scholar
Whittenbury, R. (1968). Microbiology of grass silage. Process Biochemistry, 02, pp. 26.Google Scholar
Wilson, R. F. (1980). Estimation of ‘true protein’ in herbages and conserved feeds. Occasional Symposium of the British Grassland Society, No. 11, pp. 323326.Google Scholar
Wilson, R. F. & Wilkins, R. J. (1978). Parafoimaldehyde as a silage additive. Journal of Agricultural Science, Cambridge 91, 2329.Google Scholar
Woolford, M. K. (1983). Gamma radiation in the preparation of maize silage for studies on the aerobic deterioration process. Journal of Agricultural Science, Cambridge 101, 711716.Google Scholar
Woolford, M. K., Bolsen, K. K. & Peart, L. A. (1982). Studies on the aerobic deterioration of wholecrop cereal silages. Journal of Agricultural Science, Cambridge 98, 529535.Google Scholar
Woolford, M. K. & Cook, J. E. (1978). A note on the effects on the aerobic deterioration of maize silage of the manipulation of the microflora by means of antibiotics. Animal Feed Science and Technology 3, 8994.Google Scholar
Woolford, M. K., Honig, H. & Fenlon, J. S. (1977). Untersuchungen uber aeroben Umsetzungen in Silage mit Hilfe einer Labortechnik. 1. Beschreibung und statistischo Bewertung der Methode. Das Wirtschaftseigene Futter 23, 1022.Google Scholar
Woolford, M. K., Honig, H. & Fenlon, J. S. (1978). Untersuchungen uber aeroben Umsetzungen in Silage mit Hilfe einer Labortechnik. 2. Mikrobiologische, physikalische und chemische Veiänderungen wärhend des aeroben abbaus von Maissilage. Das Wirtschaftseigene Futter 24, 125139.Google Scholar
Woolford, M. K., Honig, H. & Fenlon, J. S. (1979). Untersuchungen uber aeroben Umsetzungen in Silage mit Hilfe einer Labortechnik. 3. Microbiologische, physikalische und chemische Veränderungen während des aeroben Abbaus in Frischer und angewelkter grassilage. Das Wirscheftseigene Futter 25, 158177.Google Scholar