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Influence of different sources of methionine (DL methionine, hydroxy-analogues of methionine) and sulphur on the digestibility of organic matter of maize silage measured in vitro

Published online by Cambridge University Press:  05 November 2021

J.C. Robert ,
V. Ferragu ,
B. Bouza  and
P.E.V. Williams
J.C. Robert
Affiliation:
Rhone Poulenc Animal Nutrition, 92160 Antony, France
V. Ferragu
Affiliation:
Rhone Poulenc Animal Nutrition, 92160 Antony, France
B. Bouza
Affiliation:
Rhone Poulenc Animal Nutrition, 92160 Antony, France
P.E.V. Williams
Affiliation:
Rhone Poulenc Animal Nutrition, 92160 Antony, France
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Extract

Rode et al (1997) reported a significant improvement in milk production and milk fat content when the ration was supplemented at the start of lactation with hydroxy-analogue of methionine (HMB) (DL,2 hydroxy 4 (methyl thio) butanoic acid. This could be explained either by the fact that HMB in the liquid form, in a manner similar to the calcium salt of HMB is used by the rumen microorganisms, resulting in the stimulation of the rumen microflora or that the HMB supplies by-pass methionine analogue to the duodenum. The objective of the present trial was to measure the effects of HMB in the rumen using a rumen simulation technique and to test the effect of different sources of methionine on the digestibility of the organic matter of maize silage.

Experiments were carried out using the in vitro rumen technique (Menke et al, 1988) (HFT). Different sources of methionine were tested : two sources of the hydroxy-analogue of methionine (HMB) : [A] AlimetTM (88,2%) (Novus Int Inc) and [B] RhodimetTM AT88 (88,9%) (Rhone Poulenc Animal Nutrition), [C] calcium salt of HMB (85,3%) [D] Rhodimet NP99 (99%) (DL methionine powder (RPAN)) [E] mineral sulphur in the form of sodium sulphate (99,5%).

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Information
Proceedings of the British Society of Animal Science , Volume 1998 , 1998 , pp. 170
Copyright
Copyright © The British Society of Animal Science 1998

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References

Menke, K.H., Steingass, H (1988). Estimation of the energetic feed value obtained from chemical analysis and in vitro gas production using rumen fluid. Anim. Res. and Dev. 28 :(7) 55.Google Scholar
Rode, L.M., Koenig, K.M., Kung, L. Jr. Economics of post ruminal amino acids in high producing dairy cows. Bioproducts andNovus Int./Technical Dairy Symposium, Feb. 26/27/1997, Phoenix, Arizona. Google Scholar
Robert, J.C. Influence of source of methionine and protection technology on the post-ruminal delivery and supply to the blood of dairy cows of an oral supplement of methionine. Proceedings of the Annual Meeting BSAS, 23-25 March 1998, Scarborough 10.1017/S0308229600034176CrossRefGoogle Scholar