Use of Nitrate-nitrogen as a Sole Dietary Nitrogen Source to Inhibit Ruminal Methanogenesis and to Improve Microbial Nitrogen Synthesis In vitro
W. S. Guo, D. M. Schaefer, X. X. Guo, L. P. Ren, Q. X. Meng
Asian-Australas J Anim Sci. 2009;22(4):542-549.   Published online 2009 Mar 4     DOI:
Citations to this article as recorded by Crossref logo
Ruminal methane production: Associated microorganisms and the potential of applying hydrogen-utilizing bacteria for mitigation
Wei Lan, Chunlei Yang
Science of The Total Environment.2019; 654: 1270.     CrossRef
Energy partition and nitrogen utilization by male goats fed encapsulated calcium nitrate as a replacement for soybean meal
R.F. Silveira, M.H.M.R. Fernandes, A.K. Almeida, R.C. Araujo, B. Biagioli, A.R.C. Lima, I.A.M.A Teixeira, K.T. Resende
Animal Feed Science and Technology.2019; 248: 67.     CrossRef
Effects of nitrate supplementation and forage level on gas production, nitrogen balance and dry-matter degradation in sheep
M. Sharifi, A. Taghizadeh, A. A. Khadem, A. Hosseinkhani, H. Mohammadzadeh
Animal Production Science.2019; 59(3): 515.     CrossRef
Nitrate decreases ruminal methane production with slight changes to ruminal methanogen composition of nitrate-adapted steers
Liping Zhao, Qingxiang Meng, Yan Li, Hao Wu, Yunlong Huo, Xinzhuang Zhang, Zhenming Zhou
BMC Microbiology.2018;[Epub]     CrossRef
Nitrate decreases methane production also by increasing methane oxidation through stimulating NC10 population in ruminal culture
Lihui Liu, Xiurong Xu, Yangchun Cao, Chuanjiang Cai, Hongxiao Cui, Junhu Yao
AMB Express.2017;[Epub]     CrossRef
Redirection of Metabolic Hydrogen by Inhibiting Methanogenesis in the Rumen Simulation Technique (RUSITEC)
Jessie Guyader, Emilio M. Ungerfeld, Karen A. Beauchemin
Frontiers in Microbiology.2017;[Epub]     CrossRef
Effects of alfalfa flavonoids on the production performance, immune system, and ruminal fermentation of dairy cows
Jinshun Zhan, Mingmei Liu, Xiaoshuang Su, Kang Zhan, Chungang Zhang, Guoqi Zhao
Asian-Australasian Journal of Animal Sciences.2017; 30(10): 1416.     CrossRef
Dose-response effect of nitrate on hydrogen distribution between rumen fermentation end products: an in vitro approach
J. Guyader, M. Tavendale, C. Martin, S. Muetzel
Animal Production Science.2016; 56(3): 224.     CrossRef
Use of dietary nitrate to increase productivity and reduce methane production of defaunated and faunated lambs consuming protein-deficient chaff
S. H. Nguyen, M. C. Barnett, R. S. Hegarty
Animal Production Science.2016; 56(3): 290.     CrossRef
Nitrate and Inhibition of Ruminal Methanogenesis: Microbial Ecology, Obstacles, and Opportunities for Lowering Methane Emissions from Ruminant Livestock
Chengjian Yang, John A. Rooke, Irene Cabeza, Robert J. Wallace
Frontiers in Microbiology.2016;[Epub]     CrossRef
Managing the rumen to limit the incidence and severity of nitrite poisoning in nitrate-supplemented ruminants
J. V. Nolan, I. R. Godwin, V. de Raphélis-Soissan, R. S. Hegarty
Animal Production Science.2016; 56(8): 1317.     CrossRef
Shifts in metabolic hydrogen sinks in the methanogenesis-inhibited ruminal fermentation: a meta-analysis
Emilio M. Ungerfeld
Frontiers in Microbiology.2015;[Epub]     CrossRef
Effects of Nitrate Addition on Rumen Fermentation, Bacterial Biodiversity and Abundance
Liping Zhao, Qingxiang Meng, Liping Ren, Wei Liu, Xinzhuang Zhang, Yunlong Huo, Zhenming Zhou
Asian-Australasian Journal of Animal Sciences.2015; 28(10): 1433.     CrossRef
Effects of Rumen Protozoa of Brahman Heifers and Nitrate on Fermentation and In vitro Methane Production
S. H. Nguyen, L. Li, R. S. Hegarty
Asian-Australasian Journal of Animal Sciences.2015; 29(6): 807.     CrossRef
Effect of Encapsulating Nitrate in Sesame Gum on In vitro Rumen Fermentation Parameters
Chiedza Isabel Mamvura, Sangbuem Cho, David Tinotenda Mbiriri, Hong-gu Lee, Nag-Jin Choi
Asian-Australasian Journal of Animal Sciences.2014; 27(11): 1577.     CrossRef
The effect of incremental levels of dietary nitrate on methane emissions in Holstein steers and performance in Nelore bulls1
J. R. Newbold, S. M. van Zijderveld, R. B. A. Hulshof, W. B. Fokkink, R. A. Leng, P. Terencio, W. J. Powers, P. S. J. van Adrichem, N. D. Paton, H. B. Perdok
Journal of Animal Science.2014; 92(11): 5032.     CrossRef
Effects of nitrate adaptation by rumen inocula donors and substrate fiber proportion on in vitro nitrate disappearance, methanogenesis, and rumen fermentation acid
M. Lin, D. M. Schaefer, G. Q. Zhao, Q. X. Meng
animal.2013; 7(07): 1099.     CrossRef
A mathematical model to describe in vitro kinetics of H2 gas accumulation
M. Wang, P.H. Janssen, X.Z. Sun, S. Muetzel, M. Tavendale, Z.L. Tan, D. Pacheco
Animal Feed Science and Technology.2013; 184(1-4): 1.     CrossRef
Effects of nitrate on methane production, fermentation, and microbial populations in in vitro ruminal cultures
Zhenming Zhou, Zhongtang Yu, Qingxiang Meng
Bioresource Technology.2012; 103(1): 173.     CrossRef
Ruminant enteric methane mitigation: a review
D. J. Cottle, J. V. Nolan, S. G. Wiedemann
Animal Production Science.2011; 51(6): 491.     CrossRef
Comparisons of In vitro Nitrate Reduction, Methanogenesis, and Fermentation Acid Profile among Rumen Bacterial, Protozoal and Fungal Fractions
M. Lin, D. M. Schaefer, W. S. Guo, L. P. Ren, Q. X. Meng
Asian-Australasian Journal of Animal Sciences.2011; 24(4): 471.     CrossRef
Effects of dietary nitrate on fermentation, methane production and digesta kinetics in sheep
J. V. Nolan, R. S. Hegarty, J. Hegarty, I. R. Godwin, R. Woodgate
Animal Production Science.2010; 50(8): 801.     CrossRef