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http://dx.doi.org/10.5713/ajas.2012.12053

Effects of Protein Level and Mangosteen Peel Pellets (Mago-pel) in Concentrate Diets on Rumen Fermentation and Milk Production in Lactating Dairy Crossbreds  

Norrapoke, T. (Tropical Feed Resources Research and Development Center (TROFREC), Department of Animal Science, Faculty of Agriculture, Khon Kaen University)
Wanapat, M. (Tropical Feed Resources Research and Development Center (TROFREC), Department of Animal Science, Faculty of Agriculture, Khon Kaen University)
Wanapat, S. (Department of Plant Science and Natural Resources, Faculty of Agriculture, Khon Kaen University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.25, no.7, 2012 , pp. 971-979 More about this Journal
Abstract
Four, lactating dairy crossbreds ($50%{\times}50%$ Holstein Friesian${\times}$Native Zebu cattle) were randomly assigned according to a $2{\times}2$ factorial arrangement (two protein levels and two levels of mangosteen peel pellets (Mago-pel)) in a $4{\times}4$ Latin square design to receive four dietary treatments. All cows received concentrate at a proportion of 1 kg concentrate per 2 kg of milk yield, and urea-treated 5% rice straw (UTRS) was given ad libitum. It was found that total dry matter intakes, nutrient digestibility, ruminal pH and $NH_3$-N concentrations were not affected (p>0.05) by treatments. Concentrations of ruminal pH and $NH_3$-N were not affected by dietary treatments although the concentration of BUN varied significantly (p<0.05) between protein levels (p<0.05). The populations of rumen bacteria and fungal zoospores did not differ among treatments (p>0.05); however, the population of protozoa was decreased (p<0.05) when cows received Mago-pel supplementation. The composition of the population of bacteria, identified by real-time PCR technique, including total bacteria, methanogens, Fibrobacter succinogenes and Ruminococcus albus was similar (p>0.05) among dietary treatments (p>0.05); however, copy numbers of Ruminococcus flavefaciens was increased when protein level increased (p<0.05). Microbial protein synthesis, in terms of both quantity and efficiency, was enriched by Mago-pel supplementation. Milk yield was greatest in cows fed UTRS based diets with concentrate containing protein at 16% CP with Mago-pel, but were lowest without Mago-pel (p<0.05). In addition, protein level and supplementation of Mago-pel did not affect (p>0.05) milk composition except solids-not-fat which was higher in cows fed the diet with 19% CP. Therefore, feeding a concentrate containing 16% CP together with 300 g/hd/d Mago-pel supplementation results in changes in rumen fermentation and microbial population and improvements in milk production in lactating dairy crossbreds fed on UTRS.
Keywords
Protein Level; Mangosteen Peel Pellets; Rumen Fermentation; Milk Production; Dairy Crossbreds;
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1 Wang. Y., T. A. McAllister, L. J. Yanke, Z. J. Xu, P. R. Cheeke and K. J. Cheng. 2000. In vitro effects of steroidal saponins from Yucca schidigera extract on rumen microbial protein synthesis and ruminal fermentation. J. Sci. Food Agric. 80:2114-2122.   DOI
2 Weisbjerg, M. R., T. Hvelplund, S. Hellberg, S. Olsson and S. Same. 1996. Effective rumen degradability and intestinal digestibility of individual amino acids in different concentrates determined in situ. Anim. Feed Sci. Technol. 62:179-188.   DOI   ScienceOn
3 Yu, Z., F. C. Michel, Jr., G. Hansen, T. Wittum and M. Morrison. 2005. Development and application of real-time PCR assays for quantification of genes encoding tetracycline resistance. Appl. Environ. Microbiol. 71:6926-6933.   DOI   ScienceOn
4 Yu, Z. and M. Morrison. 2004. Improved extraction of PCR-quality community DNA from digesta and fecal samples. BioTechniques 36:808-812.
5 Sliwinski, B. J., M. Kreuzer, H-R. Wettatein and A. Machmuller. 2002. Rumen fermentation and nitrogen balance of lambs fed diets containing plant extracts rich in tannins and saponins, and associated emissions of nitrogen and methane. Arch. Anim. Nutr. 56:379-392.
6 Van Keulen, J. and B. A. Young. 1977. Evaluation of acid-insoluble ash as a marker in ruminant digestibility. J. Anim. Sci. 44:282-287.
7 Van Soest, P. J., J. B. Robertson and B. A. Lewis. 1991. Methods for dietary fiber neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. J. Dairy Sci. 74:3583-3597.   DOI   ScienceOn
8 Wanapat, M. 1999. Feeding of ruminants in the tropicals base on local feed resources. Khon Kaen Publishing Company Ltd., Khon Kaen, Thailand. p. 236.
9 Wanapat, M. 2009. Potential uses of local feed resources for ruminants. Trop. Anim. Health Prod. 41:1035-1049.   DOI
10 Wanapat, M. and O. Poungchompu. 2001. Method for estimation of tannin by vanillin-HCl method (A modified method of Burns, 1971). Department of Animal Science, Khon Kaen University, Khon Kaen 4002, Thailand.
11 Wanapat, M., O. Pimpa, W. Sripuek, T. Puramongkol, A. Petlum, U. Boontao, C. Wachirapakorn and K. Sommart. 2000a. Cassava hay: An important on-farm feed for ruminants. In: Tannins in livestock and human nutrition: Proceedings of an international workshop (Ed. J. D. Brooker). Adelaide, May 31- June 2, 1999. ACIR. No. 92:71-74.
12 Wanapat, M., T. Puramongkol and W. Siphuak. 2000b. Feeding of cassava hay for in lactating dairy cows. Asian-Aust. J. Anim. Sci. 13:478-482.   DOI
13 Wanapat, M., A. Petlum and O. Pimpa. 2000c. Supplementation of cassava hay to replace concentrate use in lactating Holstein Friesian crossbreds. Asian-Aust. J. Anim. Sci. 13:600-604.   DOI
14 Nguyen Van Thu and T. R. Preston. 1999. Rumen environment and feed degradability in swamp buffaloes fed different supplements. Livest. Res. Rural Dev. 11(3):http://www.Cipav.Org.co/ieed/Irrd11/3/thu113.htm.
15 Orskov, E. R. 1999. Supplement strategies for ruminants and management of feeding to maximize utilization of roughages. J. Anim. Vet. Adv. 38:179-185.
16 Poungchompu, O., M. Wanapat, C. Wachirapakorn, S. Wanapat and A. Cherdthong. 2009. Manipulation of ruminal fermentation and methane production by dietary saponins from mangosteen peel and soapberry fruit. J. Anim. Nutr. 63:389-400.   DOI   ScienceOn
17 Pakmaluek, P., C. Wachirapakorn, M. Wanapat and P. Pakdee. 2005. Effect of level of crude protein in Total Mixed Ration (TMR) with corn cobs and rice straw as roughage sources on rumen fermentation, milk yield and composition in lactating dairy cows. KKU Res. J. (GS)5:2.
18 Perez-Maldonado, R. A. and B. W. Norton. 1996. The effects of condensed tannins from Desmodium intorturn and Calliandra calothyrsus on protein and carbohydrate digestion in sheep and goats. Br. J. Nutr. 76:515-533.   DOI   ScienceOn
19 Pilajan, R. and M. Wanapat. 2011. Effect of coconut oil and mangosteen peel supplementation on ruminal fermentation, microbial protein synthesis in swamp buffaloes. Livest. Sci. doi: 10.1016/j.livsci.2011.05.013.
20 Puchala, R., B. R. Min, A. L. Goetsch and T. Sahlu. 2005. The effect of a condensed tannin-containing forage on methane emission by goats. J. Anim. Sci. 83:182-186.
21 Samuel, M., S. Sagathewan, J. Thomas and G. Mathen. 1997. An HPLC method for estimation of volatile fatty acids of ruminal fluid. Indian J. Anim. Sci. 67:805-807.
22 SAS. 1996. User's guide: Statistic, Version 5. Edition., 1996. SAS. Inst Cary, NC, USA.
23 Satter, L. D. and L. L. Styler. 1974. Effect of ammonia concentration on ruminal microbial protein production in vitro. Br. J. Nutr. 32:199-208.   DOI   ScienceOn
24 France, J. and R. C. Siddons. 1993. Volatile fatty acid production. In: Quantitative Aspects Ruminant Digestion and Metabolism (Ed. J. M. Forbes and J. France). C. A. B. International, Willingford, UK. 107-122.
25 Kafi, M. and A. Mirzaei. 2010. Effect of first postpartum progesterone rise, metabolites, milk yield, and body condition score on the subsequent ovarian activity and fertility in lactating Holstein dairy cows. Trop. Anim. Health Prod. 42: 761-767.   DOI
26 Galyean, M. 1989. Laboratory procedure in animal nutrition research. Department of Animal and Life Science. New Mexico State University, USA.
27 Galo, E., S. M. Emanuele, C. J. Sniffen, J. H. White and J. R. Knapp. 2003. Effects of a polymer-coated urea product on nitrogen metabolism in lactating Holstein dairy cattle. J. Dairy Sci. 86:2154-2162.   DOI   ScienceOn
28 Hungate, R. E. 1966. The rumen and its microbes. Academic Press. New York and London.
29 Koike, S. and Y. Kobayashi. 2001. Development and use of competitive PCR assays for the rumen cellulolytic bacteria: Fibrobacter succinogenes, Ruminococcus albus and Ruminococcus flavefaciens. FEMS Microbiol. Lett. 204:361-366.   DOI
30 Kongmun, P., M. Wanapat, P. Pakdee and C. Navanukraw. 2010. Effect of coconut oil and garlic powder on in vitro fermentation using gas production technique. Livest. Sci. 127: 38-44.   DOI   ScienceOn
31 McNeill, D. M., N. Osborne, M. Komolong and D. Nankervis. 1998. Condensed tannins in the Leucaena genus and their nutritional significance for ruminants. In: Leucaena-Adaptation, Quality and Farming Systems (Ed. H. M. Shelton, R. C. Gutteridge, B. F. Mullin and R. A. Bray). ACIAR Proceedings. 86:205-214.
32 Newbold, C. J., S. M. Hassan, J. Wang, M. E. Ortega and R. J. Wallace. 1997. Influence of foliage from African multipurpose trees on activity of rumen protozoa and bacteria. Br. J. Nutr. 78:237-249.   DOI   ScienceOn
33 Chen, X. B. and M. J. Gomes. 1995. Estimation of microbial protein supply to sheep and cattle based on urinary excretion of purine derivative-an overview of the technique details. Occasional Publication 1992. International Feed Resources Unit, Rowett Research Institute, Aberdeen, UK.
34 AOAC. 1990. Official methods of analysis. Association of Official Analysis Chemists, DC, USA.
35 Carulla, J. E., M. Kreuzer, A. Machmller and H. D. Hess. 2005. Supplementation of Acacia mearnsii tannins decreases methanogenesis and urinary nitrogen in forage-fed sheep. Aust. J. Agric. Res. 56:961-970.   DOI   ScienceOn
36 Crocker, C. L. 1967. Rapid determination of urea nitrogen in serum or plasma without deproteinzation. Am. J. Med Technol. 33:361-365.
37 Fievez, V., F. Piattoni, L. Mbanzamihigo and D. Demeyer. 1999. Reductive acetogenesis in the hindgut and attempts to its induction in the rumen- a review. J. Appl. Anim. Res. 16:1-22.   DOI
38 Firkins, J. L., Z. Yu and M. Morrison. 2007. Ruminal nitrogen metabolism: perspectives for integration of microbiology and nutrition for dairy. J. Dairy Sci. 90(E. Suppl.):E1-E16.   DOI   ScienceOn