Effect of Mucuna pruriens leaves in dairy cow feed on gas production, digestibility and rumen fermentation by using in vitro gas production technique
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Abstract
The results showed that the Mucuna pruriens leaves at 10% in feed affect dry matter and organic matter digestibility which higher than with the control group (p<0.05). However, M. pruriens leaves in all level were not different among dietary treatments on the gas production from the immediately soluble fraction, the gas production from the insoluble fraction, and the gas production rate constant for the insoluble fractionand the potential extent of gas productio. Therefore, it can use M. pruriens leaves at 10% in dairy cow feed.
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References
Abdeltawab, A. M. and Khattab, M. S. A. (2018). Utilization of palm kernel cake as a ruminant feed for animal: A review. Asian journal biological sciences, 11:157-164.
AOAC. (1997). Official Method of Analysis. 16th Ed., Association of Official Agriculture Chemicals, Washington, DC. USA.
Ezeokonkwo, M A. and Okafor, S. N. (2015). Proximate Composition and Mineral Analysis of Mucuna utilis (Velvet Bean). IOSR Journal of Applied Chemistry, 8:42-45.
Lampariello, L. R., Cortelazzo, A., Guerranti, R., Sticozzi, C. and Valacchi, G. (2011). The Magic Velvet Bean of Mucuna pruriens,” Journal of Traditional and Complementary Medicine, 1:331-339.
Makkar, H. P. S., Blummel, M. and Becker, K. (1995). Formation of complexes between polyvinyl pyrrolidones or polyethylene glycols and tannins, and their implication in gas production and true digestibility in in vitro techniques. British Journal of Nutrition, 73:897-913.
Martínez-Pérez. M., Sarmiento-Franco, L. A. Santos-Ricalde, R. H. and Sandoval-Castro, C. A. (2018). Chemical composition and in vitro protein digestibility of processed Mucuna pruriens. Cuban Journal of Agricultural Science, 52:313-319.
Mbuthia, E. W. and Gachuiri, C. K. (2003). Effect of inclusion of Mucuna pruriens and Dolichos lablab forage in Napier grass silage quality and on voluntary intake and digestibility in sheep. Tropical and Subtropical Agroecosystems, 1:123-128.
Muinga, R. W. and Saha, H. M. (2003). The effect of Mucuna (Mucuna pruriens) forage on the performance of lactating cows. Tropical and Subtropical Agroecosystems, 1:87-91.
rskov, E. R. and McDonald, I. (1979). The Estimation of Protein Degradability in the Rumen from Incubation Measurements Weighted According to Rate of Passage. The Journal of Agricultural Science, 92:499-503.
SAS (1998). User’s Guide: Statistic, Version 6, 12th ed. SAS Inst. Inc., Cary, NC.
Steel, R. G. D. and Torrie, J. H. (1980). Principles and Procedures of Statistics. McGraw Hill Book Co., New York: USA.
Ujowundu, C. o., Kalu, F. N., Emejulu, A. A., Okafor O. E., Nkwonta, C. G. and Nwosunjoku E. C. (2010) Evaluation of the chemical composition of Mucuna utilis leaves used in herbal medicine in Southeastern Nigeria. African Journal of Pharmacy and Pharmacology, 4:811-816.
Van Soest, P. J. and Robertson, J. B. (1985). Analysis of Forages and Fibrous Foods. A Laboratory Manual for Animal Science. Departmant of Animal Science, Cornell University, Ithaca, NY: USA.
Van Soest, P. J., Robertson, J. B. and Lewis, B. A. (1991). Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. Journal of Dairy Science, 74:3583-3597.
Yeanpet, C., Thamrongyoswittayakull, C., Wachirapakorn, C. and Songsermsakul, P. (2021). The efficacy of yeast cell wall in the adverse effect of zearalenone on ruminal fibrolytic bacteria and in vitro fermentation. Songklanakarin Journal of Science and Technology, 43:623-629.
Zhang, X., Chen, X., Xu, Y., Yang, J., Du, L., li, K. and Zhou, Y. (2021). Milk consumption and multiple health outcomes: umbrella review of systematic and meta-analysis in humans. Nutrition & Metabolism, 18:1-18.