Methionine Hydroxy Analog Supplementation to Increase Feed Utilization for Indigenous Sheep
Bambang Waluyo Hadi Eko Prasetiyono(1*), Mulyono Mulyono(2), Widiyanto Widiyanto(3)
(1) Faculty of Animal and Agricultural Sciences, Diponegoro University Undip Campus, Tembalang, Semarang
(2) Faculty of Animal and Agricultural Sciences, Diponegoro University Undip Campus, Tembalang, Semarang
(3) Faculty of Animal and Agricultural Sciences, Diponegoro University Undip Campus, Tembalang, Semarang
(*) Corresponding Author
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Agle, M., Hristov, S., Zaman, A.N., Shcneider, C. (2010). Effect of dietary concentrate on rumen fermentation, digestibility, and nitrogen losses in dairy cows. Journal of Dairy Science. 93(9): 4211-4222. DOI: 10.3168/jds.2009-2977 Artegoitia,V.M., Foote,
A.P., Lewis, R.M., Freetly, H.C. (2017). Rumen Fluid metabolomics analysis associated with feed efficiency, on crossbred steers. Scientific Reports. 7(2864): 1-14. DOI:10.1038/s41598-017-02856-0
Aschenbach, J.R., Kristensen, N.B., Donkin, S.S., Hammon, H. (2010). Gluconeogenesis in dairy cows: The secret of making sweet milk from sour dough. International Union of Biochemistry and Molecular Biology Life. 62(12):869-77. DOI: 10.1002/iub.400
Clements, A.R. F. A. Ireland, T. Freitas, H. Tucker, and D. W. Shike. (2017). Effects of supplementing methionine hydroxy analog on beef cow performance, milk production, reproduction, and preweaning calf performance Journal of Animal Science,.95(12): 5597–5605, https://doi. org/10.2527/jas2017.1828
CoHort. (2019). Costat Statistics Shoftware. Brindleyplace, Brimingham. Doto SP, and Liu JX. (2011). Effect of directfed microbial and their combinations with yeast culture on in vitro rumen fermentation characteristics. J. Anim Feed Sci. 20(2):259271. DOI: https://doi.org/10.22358/ jafs/66183/2011.
El-Tahawy, A. S., A. Ismaeil, and H.A. Ahmed. (2015). Effects of Dietary MethionineSupplementation on the General Performance and Economic Value of Rahmani Lambs. J. Anim. Sci. Adv. 5(10): 1457-1466
Galyean, M.L. (1980). Laboratory Procedures in Animal Nutrition Research. Department of Animal and Food Sciences, Texas Tech University, Lubbock.
Gonzales, A.R.C., Barraza, M.B., Viveros, J.D., Martinez, A.C. (2013). Rumen microorganisms and rumen fermentation. Archivos de Medicina MartoinezVeterinaria. 46(3):349-361 · DOI: 10.4067/S0301732X2014000300003
Greening, C., Geier R., Wang, C., Woods, L.C. (2019). Diverse hydrogen production and consumption pathways influence methane production in ruminants. ISME Journal. 13(6): 1-13. DOI: 10.1038/s41396-0190464-2
Guerrero, V.R., Lizarazo, A.C.P. and Mendoza, G.D. (2018). Effect of herbal choline and rumen-protected methionine on lamb performance and blood metabolites. South
African Journal of Animal Science. 48(3): 427- 434. DOI:10.4314/sajas.v48i3.3
Harris, L.E. (1970). Nutrition Research Technique for Domestic and Wild Animals. Vol 1. Anim. Sci. Dept. Utah State Univ. Logan. Utah.
Hill, J,. Mcsweeney, C.S., Wright, A.D.G. and Hurley GJB. (2015). Measuring methane production from ruminants. Trends in Biotechnology. 34(1). https://doi. org/10.1016/j.tibtech.2015.10.004 Jayanegara, A., Ridla, M.,
Astuti, D.A., Wiryawan, K.G., Laconi, E.B. and Nahrowi. (2017). Determination of Energy and Protein Requirements of Sheep in Indonesia using a Meta-analytical Approach. Media Peternakan. 40(2):118-127. DOI: https:// doi.org/10.5398/medpet.2017.40.2.118.
Latham, C.M., Wagner, A.L. and Urschel, K.L. (2019). Effects of dietary amino acid supplementation on measures of wholebody and muscle protein metabolism in aged horses. J. Anim. Physiol. Anim. Nutr. 103: 283–294. DOI: 10.1111/jpn.12992
Lee, J.K.W., Nio, A.O.X., Fun, D.C.Y, Teo, Y.S, Chia, E.V. and Lim L. (2012). Effects of heat acclimatization on work tolerance and thermoregulation in trained tropical natives. Journal of Thermal Biology. 37 (5): 366373. doi:10.1016/j.jtherbio.2012.01.008
Lee, M. (2018). Changes in the ruminal fermentation and bacterial community. AJAS. 32(1): 92-102.DOI: https://doi. org/10.5713/ajas.19.0323
Liu, H., Xu, T., Xu, S., Ma, L., Han, X., Wang, X., Zhang, X., Hu, L., Zhao, N., Chen, Y., Pi, L. and Zhao, X. (2019). Effect of dietary concentrate to forage ratio on growth performance, rumen fermentation and bacterial diversity of Tibetan sheep under barn feeding on the Qinghai-Tibetan plateau. Peer J.7:e7462; 1-22. DOI 10.7717/ peerj.7462
Mamuad, L.L., Lee, S.S. and Lee, SS. (2019). Recent insight and future techniques to enhance rumen fermentation in dairy goats. AJAS 2019; 32(8): 1321-1330. Special Issue. 32(8): 1321-1330.DOI: https://doi. org/10.5713/ajas.19.0323
Matthews, C., Crispie, F., Lewis, E., Reid, ,M., O’Toole , P.W. and Cotter PD. (2019). The rumen microbiome: a crucial consideration when optimizing milk and meat production and nitrogen utilization efficiency. Gut Microbes. 10(2): 115-132. doi: 10.1080/19490976.2018.1505176
Morgavi, D.P., Forano, E., Martin, C. and Newbold, C.J. (2010). Microbial ecosystem and methanogenesis in ruminants. Animal. 4(7): 1024-1036. DOI: 10.1017/ S1751731110000546
National Research Council. (2007). Nutrient Requirements of Small Ruminants: Sheep, Goats, Cervids, and New World Camelids. Washington, DC: The National Academies Press. Doi.org/10.17226/11654
Noftsger, S., St-Pierre, N.R. and Sylvester, J.T. (2005). Determination of rumen degradability and ruminal effects of three sources of methionine in lactating cows. J. Dairy Sci. 88:223-237.
Steel, R.G.D., Torrie, J.H. and Dickey, D.A. (1996). Principles and Procedures of Statistic: A Biometrical Approach. McGraw-Hill College. Tilley, J.M.A. and R.A. Terry. (2006). A TwoStage Technique for the in vitro Digestion of Forage Crops. Grass and Forrage Science. 18(2): 104-111. DOI: 10.1111/j.13652494.1963.tb00335.x
Ungerfeld, E.M. (2015). Shifts in metabolic hydrogen sinks in the methanogenesisinhibited ruminal fermentation: a metaanalysis. Frontiers in Microbiology. 6(37): 1-17. https://doi.org/10.3389/ fmicb.2015.00037
White, D., Peters, M.S. and Home, P.Y. (2013). Global impacts from improved tropical forages: A meta-analysis revealing overlooked benefits and cost, evolving values and new priorities. Biology. 1: 12-24. DOI:10.17138/tgft
Widiyanto, Soejono, M., Bachruddin, Z., Hartadi, H. and Surahmanto. (2012). Inclusion of kapok seed oil in the diet for growing of thin-tailed sheep to reduce cholesterol and to improve omega-six fatty acid contents of lamb. J. Indonesian Trop. Anim. Agric. 37(3): 202-212
DOI: https://doi.org/10.22146/jsv.57369
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