$\require{mediawiki-texvc}$
  • 검색어에 아래의 연산자를 사용하시면 더 정확한 검색결과를 얻을 수 있습니다.
  • 검색연산자
검색연산자 기능 검색시 예
() 우선순위가 가장 높은 연산자 예1) (나노 (기계 | machine))
공백 두 개의 검색어(식)을 모두 포함하고 있는 문서 검색 예1) (나노 기계)
예2) 나노 장영실
| 두 개의 검색어(식) 중 하나 이상 포함하고 있는 문서 검색 예1) (줄기세포 | 면역)
예2) 줄기세포 | 장영실
! NOT 이후에 있는 검색어가 포함된 문서는 제외 예1) (황금 !백금)
예2) !image
* 검색어의 *란에 0개 이상의 임의의 문자가 포함된 문서 검색 예) semi*
"" 따옴표 내의 구문과 완전히 일치하는 문서만 검색 예) "Transform and Quantization"
쳇봇 이모티콘
안녕하세요!
ScienceON 챗봇입니다.
궁금한 것은 저에게 물어봐주세요.

논문 상세정보

Abstract

Abatement of greenhouse gas emitted from ruminants and promotion of biogas energy from animal effluent were comprehensively examined in each anaerobic fermentation reactor and animal experiments. Moreover, the energy conversion efficiency of biomass energy to power generation were evaluated with a gas engine generator or proton exchange membrane fuel cell (PEMFC). To mitigate safely rumen methanogenesis with nutritional manipulation the suppressing effects of some strains of lactic acid bacteria and yeast, bacteriocin, $\beta$1-4 galactooligosaccharide, plant extracts (Yucca schidigera and Quillaja saponarea), L-cysteine and/or nitrate on rumen methane emission were compared with antibiotics. For in vitro trials, cumulative methane production was evaluated using the continuous fermented gas qualification system inoculated with the strained rumen fluid from rumen fistulated Holstein cows. For in vivo, four sequential ventilated head cages equipped with a fully automated gas analyzing system were used to examine the manipulating effects of $\beta$1-4 galactooligosaccharide, lactic acid bacteria (Leuconostoc mesenteroides subsp. mesenteroides), yeast (Trichosporon serticeum), nisin and Yucca schidigera and/or nitrate on rumen methanogenesis. Furthermore, biogas energy recycled from animal effluent was evaluated with anaerobic bioreactors. Utilization of recycled energy as fuel for a co-generator and fuel cell was tested in the thermophilic biogas plant system. From the results of in vitro and in vivo trials, nitrate was shown to be a strong methane suppressor, although nitrate per se is hazardous. L-cysteine could remove this risk. $\beta$1-4 galactooligosaccharide, Candida kefyr, nisin, Yucca schidigera and Quillaja saponarea are thought to possibly control methanogenesis in the rumen. It is possible to simulate the available energy recycled through animal effluent from feed energy resources by making total energy balance sheets of the process from feed energy to recycled energy.

참고문헌 (60)

  1. Allison, M. J. and C. A. Reddy. 1984. In: Current Perspectives in Microbial Ecology. (Ed. M J. Kelly and C. A. Reddy). Washington, DC: American Society for Microbiology, pp. 248-256. 
  2. Chen, M. and M. J. Wolin. 1979. Effect of monensin and lasalocid-sodium on the growth of methanogenic and rumen saccharolytic bacteria. Appl. Environ. Microbiol. 38:72-77. 
  3. Fallon, R. J. and F. J. Harte. 1987. The effects of yeast culture inclusion in the concentrate diet on calf performance. J. Dairy Sci. 70(Suppl. 1):143(Abstr.). 
  4. Grieve, D. G. 1979. Feed intake and growth of cattle fed liquid brewer’s yeast. Can. J. Anim. Sci. 59:89. 
  5. Hristov, A. N., T. A. McAllister, F. H. Van Herk, K.-J. Cheng, C. J. Newbold and P. R. Cheeke. 1999. Effect of Yucca schidigera extract on rumen fermentation and nurtrient digestion in heifers. J. Anim. Sci. 77:2554-2563. 
  6. Houghton, J. 1994. Global warming. Lion Publishing plc. Oxford, pp. 29-45. 
  7. Hoyos, G., L. Garcia and F. Medina. 1987. Effects of feeding viable microbial feed additives on performance of lactating cows in a large dairy herd. J. Dairy Sci. 70(Suppl. 1):217 (Abstr.). 
  8. Jamieson, N. D. 1958. Adverse effect of nitrate metabolic products on sheep growth. Nature 181:1601-1602. 
  9. Korzeniowski, A., J. H. Geurink and A. Kemp. 1981. Nitrate poisoning in cattle. 6. Tungsten (wolfram) as a prophylactic against nitrate-nitrite intoxication in ruminants. Neth. J. Agric. Sci. 29:37- 47. 
  10. McDougall, E. I. 1948. Studies on ruminant saliva, 1. The composition and output of sheeps saliva. Biochem. J. 43:99-109. 
  11. Metzler, D. E. 1977. The chemical reactions of living cells. Biochemistry, Academic Press, New York, p. 808. 
  12. Miller, T. L. 1995. Ecology of methane production and hydrogen sinks in the rumen. In: Ruminant Physiology; Digestion, Metabolism, Growth and Reproduction, (Ed. W. V. Engelhardt). Enke, Stuttgard, Germany. pp. 317-331. 
  13. Ohtsuka, K., K. Tsuji, Y. Nakagawa, H. Ueda, O. Ozawa, T. Uchida and T. Ichikawa. 1990. Availability of 4`-galactosyllactose (ο-beta-D-galactopyranosyl- (1-4)-ο-beta-Dgalactospyranosyl-(1-4)-D-glucopyranose) in rat. J. Nutr. Sci. Vitaminol, 36:265-276. 
  14. Ruf, E. W., W. H. Hale and W. Burroughs. 1953. Observations upon an unidentified factor in feed stuffs stimulatory to cellulose digestion in the rumen and improved live weight gains in lambs. J. Anim. Sci. 12:731. 
  15. Takahashi, J. and B. A. Young. 1992. The modulation of nitrateenhanced hypothermia by sulphur compounds in cold-exposed sheep. Anim. Feed Sci. Technol. 39:347-355. 
  16. Takahashi, J., M. Ikeda, S. Matsuoka and H. Fujita. 1998. Prophylactic effect of L-cysteine to acute and subclinical nitrate toxicity in sheep. Anim. Feed Sci. Technol. 74:273-280. 
  17. Takahashi, J., N. Shinya, S. Patricia, M. Mii, M. Suzuki, M. Kawai and S. Matsuoka. 2000. The evaluation of greenhouse gas, methane emission from orchardgrass and lucerne silage by using in vitro Gas Production System. Proceedings of the 97th Japanese Conference on Animal Production, 27-29 March 2000, Kyoto, Japan. Jpn. Soc. Anim. Sci. p. 149. 
  18. Takahashi, J., M. Mii, Y. Gamo, K. Kimura, K. Umetsu, T. Kishimoto and I. Arai. 2002. Nutritional options for abatement of methane emission from farm animals. In: Global Perspective in Livestock Waste Management. (Ed. H. K. Ong, I. Zulkifli, T. P. Tee and J. B. Liang). Malaysian Society of Animal Production. Serdang, pp. 149-155. 
  19. Hopgood, M. F. and D. J. Walker. 1967. Succinic acid production by rumen bacteria. II. Radioisotope studies on succinateproduction by Ruminococcus flavefaciens. Aust. J. Biol. Sci. 20:183-192. 
  20. Belaich, J. P., M. Bruschi and J. L. Garcia. 1990. Microbiology and Biochemistry of Strict Anaerobes Involved in Interspecies Hydrogen Transfer. Plenum Press, New York, NY. 
  21. Streeter, C. L., G. W. Horn and J. E. McClung. 1981. Yeast culture in a free-choice mineral supplement for stocker cattle grazing wheat pasture. Oklahoma Agr. Exp. Sta. Research Reports MP-108:101-105. 
  22. Takahashi, J. and B. A. Young. 2002. Greenhouse Gases and Anmal Agriculture, Elsevier, Amsterdam. 
  23. Harrison, G. A., R. W. Hemken, K. A. Dawson, R. J. Harmon and K. B. Barker. 1988. Influence of addition of yeast culture supplement to diets of lactating dairy cows on ruminal function and microbial populations. J. Dairy Sci. 71:2967. 
  24. Leng, R. A. 1991. Improving ruminant production and reducing methane emissions from ruminants by strategic supplementation. EPA/400/1-91/004, US Environmental Protection Agency, Washington, DC, pp. 6-10. 
  25. Phillips, W. A. and D. L. VonTungeln. 1985. The effects of yeast culture on the posstress performance of feeder calves. Nutr. Rep. Int. 32:287. 
  26. Takahashi, J. and B. A. Young. 1991. Prophylactic effect of Lcysteine on nitrate- induced alterations in respiratory exchange and metabolic rate in sheep. Anim. Feed Sci. Tech. 35:105-113. 
  27. Van Navel, C. S. and D. I. Demyer. 1988. Manipulation of rumen fermentation. In: (Ed. P. N. Hobson). The Rumen Microbial Ecosystem. London: Elsevier Applied Science, pp. 387-443. 
  28. Wiedmeier, R. D., M. J. Arambel, and J. L. Walters. 1987. Effects of yeast culture and Arspigillus oryzae fermentation extract on ruminal characteristics and nutrient digestion. J. Dairy Sci. 70:2063. 
  29. Adachi, J., S. Obayashi, K. Kusumura, K., Umetsu and K. Nishizaki. 2002. Demonstration and evaluation of the PEMFC generator fueled by biogas from livestock manure, Fuel Cell Seminar, pp. 316-319. 
  30. Gomez-Alarcon, R., C. Dudas and J. T. Huber. 1987. Effects of Aspergillus oryzae and yeast on feed utilization by Holstein cows. J. Dairy Sci. 70(Suppl.1):218(Abstr.). 
  31. Stone, C. W. 1974, 1976. Yeast culture research briefs, Diamond V Mills, Inc, Cedar Rapids, IA. 
  32. Harinder, P. S. M., S. Sen, M. Blummel and K. Becker. 1998. Effects of fractions containing saponins from Yucca schidigera, Quillaja saonaria and Acacea auriculoformis on rumen fermentation. J. Agric. Food Chem. 46:4324-4328. 
  33. Takahashi, J., N. Johchi and H. Fujita. 1989. Inhibitory effects of sulphur compounds, copper and tungsten on nitrate reduction by mixed rumen micro-organisms. Br. J. Nutr. 61:741-748. 
  34. Hegarty, R. S. and R. Gerdes. 1999. Hydrogen production and transfer in the rumen. Recent Advances in Animal Nutrition in Australia. 12:37-44. 
  35. Gerald, W. H. and S. L. Keith. 1984. Preliminary studies on the effect of yeast culture supplementation on nitrate/nitrite induced methemoglobinemia in lambs and steers. Vet. Hum. Toxicol. 26:309-313. 
  36. Dimarco, A. A., T. A. Bobik and R. S. Wolf. 1990. Unusual coenzymes of methanogenesis. Annu. Rev. Biochem. 59:355-394. 
  37. Prins, R. A., W. Cline-Theil, A. Malestein and G. H. M. Counotte. 1980. Inhibition of nitrate reduction in some rumen bacteria by tungstate. Appl. Environ. Microbiol. 49:163-165. 
  38. Takahashi, J., A. S. Chaudhry, R. G. Beneke, Suhubdy and B. A. Young. 1997. Modification of methane emission in sheep by cysteine and a microbial preparation. Sci. Total Environ. 204:117-123. 
  39. Sullivan, H. M. and S. A. Martin. 1999. Effects of a Saccharomyces cerevisia culture on in vitro mixed ruminal microorganism fermentation. J. Dairy Sci. 82:2011-2016. 
  40. Chalupa, W. 1984. Manipulation of rumen fermentation. In: Recent Advances in Animal Nutrition. (Ed. W. Haresign and D. Cole). Butterworths, London, England, pp. 143-160. 
  41. Jones, G. A. 1972. Dissimilatory metabolism of nitrate by the rumen microbiota. Can. J. Microbiol. 18:1783-1987. 
  42. Takahashi, J. 2001. Nutritional manipulation of methanogenesis in ruminants. Asian-Aust. J. Anim. Sci. 14, special Issue:131-135. 
  43. Takahashi, J., Y. Gamo, B. Mwenya, B. Santoso, S. Chetra, K. Umetsu, H. Mizukoshi, K. Kimura and O. Hamamoto. 2003. Control and energetic recycling of methane emitted from ruminants. In: Progress in Energy and Protein Metabolism. (Ed. W. B. Souffrant and C. C. Metges). EAAP publication 109. Wagenigen Academic Publisher. pp. 413-416. 
  44. Teh, T. H., T. Sahlu, E. N. Escorbar and J. L. Cushaw. 1987. Effects of live yeast culture and sodium bicarbonate on lactating goats. J. Dairy Sci. 70(suppl. 1):2000(Abstr.). 
  45. Martin, S. A., D. J. Nisbet and R. G. Dean. 1989. Influence of a commercial yeast supplement on the in vitro ruminal fermentation. Nutr. Rep. Int. 40:395. 
  46. Stewart, C. S. and M. P. Bryant. 1988. In: The rumen bacteria in The Rumen Microbial Ecosystem. (Ed. P. N. Hobson). Elsevier Appl. Sci. New York, NY. pp. 21-75. 
  47. Kil, J. Y., N. K. Cho, B. S. Kim, S. R. Lee and W. J. Maeng. 1994. Effects of Yucca extract addition on the in vitro fermentation characteristics of feed and feces, and on the milk yields in lactating cows. J. Anim. Sci. 36:698-709. 
  48. IPCC (Intergovermental Panel on Climate Change). 1994. (Ed. J. H. Houghton, L. G. Meria Filho, J. Bruce, L. Hoesung, B. A. Callander, H. Haites, N. Harris and K. Maskell). Cambridge University Press. New York. pp. 25-27. 
  49. Sar, C., B. Santoso, Y. Gamo, Y. Kobayashi, S. Shiozaki, K. Kimura, H. Mizukoshi, I. Arai and J. Takahashi. 2004. Effects of combination of nitrate with $\beta$1-4galacto-Oligo-saccharides and yeast (Candida kefyr) on methane emission from sheep. Asian-Aust. J. Anim. Sci. 17:73-79. 
  50. Sako, T., K. Matsumoto and R. Tanaka. 1999. Recent progress on research and applications of non-digestible galactooligosaccharides. Inter. Dairy J. 9:69-80. 
  51. Leng, R. A. 1991. Improving ruminant production and reducing methane emissions from ruminants by strategic supplementation. EPA/400/1-91/004, US Environmental Protection Agency, Washington, DC, pp. 6-10. 
  52. Takahashi, J. 1989. Control of ruminal reduction by sulphur compounds. Asia-Aust. J. Anim. Sci. 2:530-532. 
  53. Watanuki, M., Y. Wada and K. Matsumoto, K. 1996. Digestibility and physiological heat of combustions of $\beta$1-4 and $\beta$1-6 galacto-oligosaccharides in vitro. Annual Reports of the Yakult Central Institute for Microbiological research, 16:1-12. 
  54. Wolin, M. J. 1975. Interactions between the bacterial species of the rumen. In: Digestion and Metabolism in the Ruminant. (Ed. I. M. McDonald and A. C. I. Warner). Univ. New England Publ. Unit, Sydney, Australia, pp. 135-148. 
  55. Moss, A. R. 1993. Methane: Global Warming and Production by Animals. Chalcombe, Canterbury, UK. p. 105. 
  56. Marais, J. P., J. Therion, I. Mackie, A. Kistner and C. D. Dennisoson. 1988. Effect of nitrate and its reduction products on the growth and activity of the rumen microbial population. Br. J. Nutr. 59:301-313. 
  57. Allison, M. J., C. A. Reddy and H. M. Cook. 1981. The effects nitrate and nitrite on VFA and $CH_4$ production by ruminal microbes. J. Anim. Sci. 53(Suppl. 1):391(Abstract). 
  58. Hussain, I. and P. R. Cheeke. 1995. Effect of dietary yucca schidigera extract on rumen and blood profiles of steers fed concentrate or roughage based diets. Anim. Feed Sci. Tech. 51:231-242. 
  59. Takahashi, J., T. Chiba, T. Encho, J. Ikariga and H. Fujita. 1983. The acute and chronic effect of nitrate on heat production and methanogenesis in ruminants. Proceedings of the 5th World Conference on Animal Production, 14-19 August 1983, Tokyo, Japan. Japanese Society of Zootechnical Science, Tokyo, Japan, 2:351-352. 
  60. Klieve, A. V. and R. S. Hegarty. 1999. Opportunities of biological control of ruminant methanogenesis. Aust. J. Agric. Res. 50:1315-19. 

이 논문을 인용한 문헌 (4)

  1. 2008. "" Asian-Australasian journal of animal sciences, 21(1): 144~154 
  2. 2010. "" Asian-Australasian journal of animal sciences, 23(5): 563~566 
  3. 2012. "" Asian-Australasian journal of animal sciences, 25(6): 806~811 
  4. 2013. "" Asian-Australasian journal of animal sciences, 26(4): 517~522 

원문보기

원문 PDF 다운로드

  • ScienceON :
  • KCI :

원문 URL 링크

원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다. (원문복사서비스 안내 바로 가기)

상세조회 0건 원문조회 0건

이 논문과 연관된 기능

DOI 인용 스타일