Abatement of Methane Production from Ruminants: Trends in the Manipulation of Rumen Fermentation
Yasuo Kobayashi
Asian-Australas J Anim Sci. 2010;23(3):410-416.   Published online 2010 Feb 22     DOI: https://doi.org/10.5713/ajas.2010.r.01
Citations to this article as recorded by Crossref logo
Methane production and estimation from livestock husbandry: A mechanistic understanding and emerging mitigation options
Shilpi Kumari, R.K. Fagodiya, Moonmoon Hiloidhari, R.P. Dahiya, Amit Kumar
Science of The Total Environment.2020; 709: 136135.     CrossRef
Bovicins: The Bacteriocins of Streptococci and Their Potential in Methane Mitigation
Anita Kumari Garsa, Prasanta Kumar Choudhury, Anil Kumar Puniya, Tejpal Dhewa, Ravinder Kumar Malik, Sudhir Kumar Tomar
Probiotics and Antimicrobial Proteins.2019; 11(4): 1403.     CrossRef
Evaluation of the overall impact of antibiotics growth promoters on broiler health and productivity during the medication and withdrawal period
H Hamid, L H Zhao, G Y Ma, W X Li, H Q Shi, J Y Zhang, C Ji, Q G Ma
Poultry Science.2019; 98(9): 3685.     CrossRef
Effects of a blend of garlic oil, nitrate and fumarate onin vitroruminal fermentation and microbial population
D. T. Mbiriri, S. Cho, C. I. Mamvura, N. J. Choi
Journal of Animal Physiology and Animal Nutrition.2017; 101(4): 713.     CrossRef
Ginkgo fruit extract as an additive to modify rumen microbiota and fermentation and to mitigate methane production
S. Oh, R. Shintani, S. Koike, Y. Kobayashi
Journal of Dairy Science.2017; 100(3): 1923.     CrossRef
Evaluation of three medicinal plants for methane production potential, fiber digestion and rumen fermentation in vitro
Samir Medjekal, Raúl Bodas, Hacène Bousseboua, Secundino López
Energy Procedia.2017; 119: 632.     CrossRef
Use of Asian selected agricultural byproducts to modulate rumen microbes and fermentation
Yasuo Kobayashi, Seongjin Oh, Htun Myint, Satoshi Koike
Journal of Animal Science and Biotechnology.2016;[Epub]     CrossRef
Effect of monensin withdrawal on rumen fermentation, methanogenesis and microbial populations in cattle
Arfan Abrar, Takamitsu Tsukahara, Makoto Kondo, Tomomi Ban-Tokuda, Wang Chao, Hiroki Matsui
Animal Science Journal.2015; : n/a.     CrossRef
Synergistic effect of methane emission through ruminant production
O Ososanya T, O Faniyi T
African Journal of Agricultural Research.2015; 10(25): 2501.     CrossRef
Rumen fermentation and acetogen population changes in response to an exogenous acetogen TWA4 strain and Saccharomyces cerevisiae fermentation product
Chun-lei Yang, Le-luo Guan, Jian-xin Liu, Jia-kun Wang
Journal of Zhejiang University-SCIENCE B.2015; 16(8): 709.     CrossRef
Influence of different sources of zinc and protein supplementation on digestion and rumen fermentation parameters in sheep consuming low-quality hay
H.M. Arelovich, M.I. Amela, M.F. Martínez, R.D. Bravo, M.B. Torrea
Small Ruminant Research.2014; 121(2-3): 175.     CrossRef
Effects of Cordyceps militaris on the growth of rumen microorganisms and in vitro rumen fermentation with respect to methane emissions
W.Y. Kim, M.D. Hanigan, S.J. Lee, S.M. Lee, D.H. Kim, J.H. Hyun, J.M. Yeo, S.S. Lee
Journal of Dairy Science.2014; 97(11): 7065.     CrossRef
A meta-analysis of the effect of dietary fat on enteric methane production, digestibility and rumen fermentation in sheep, and a comparison of these responses between cattle and sheep
Amlan Kumar Patra
Livestock Science.2014; 162: 97.     CrossRef
Effect of cashew nut shell liquid on metabolic hydrogen flow on bovine rumen fermentation
Makoto Mitsumori, Osamu Enishi, Takumi Shinkai, Koji Higuchi, Yosuke Kobayashi, Akio Takenaka, Kyo Nagashima, Masami Mochizuki, Yasuo Kobayashi
Animal Science Journal.2014; 85(3): 227.     CrossRef
The effects of feeding 3-nitrooxypropanol on methane emissions and productivity of Holstein cows in mid lactation
J. Haisan, Y. Sun, L.L. Guan, K.A. Beauchemin, A. Iwaasa, S. Duval, D.R. Barreda, M. Oba
Journal of Dairy Science.2014; 97(5): 3110.     CrossRef
Effect of Tropical Algae as Additives on Rumen <i>in Vitro</i> Gas Production and Fermentation Characteristics
Baptiste Dubois, Nigel W. Tomkins, Robert D. Kinley, Mei Bai, Scott Seymour, Nicholas A. Paul, Rocky de Nys
American Journal of Plant Sciences.2013; 04(12): 34.     CrossRef
Effect of Sodium Nitrate and Nitrate Reducing Bacteria on In vitro Methane Production and Fermentation with Buffalo Rumen Liquor
Pillanatham Civalingam Sakthivel, Devki Nandan Kamra, Neeta Agarwal, Lal Chandra Chaudhary
Asian-Australasian Journal of Animal Sciences.2012; 25(6): 812.     CrossRef
Effect of dietary monensin inclusion on performance, nutrient utilisation, rumen volatile fatty acid concentration and blood status of West African dwarf bucks fed with basal diets of forages
Ronke Yemisi Aderinboye, Chryss Friday Ijeoma Onwuka, Oluwasanmi Moses Arigbede, Oluseyi Olutosin Oduguwa, Ayobami Bukola Joseph Aina
Tropical Animal Health and Production.2012; 44(5): 1079.     CrossRef
Exploration of natural materials as a condidate feed additive to mitigate methane emission from enteric fermentation of domestic animals
Yasuo Kobayashi
Journal of Pesticide Science.2011; 36(1): 124.     CrossRef
A new perspective on the use of plant secondary metabolites to inhibit methanogenesis in the rumen
Amlan K. Patra, Jyotisna Saxena
Phytochemistry.2010; 71(11-12): 1198.     CrossRef