Articles citing this paper
Ruminal acetogens and their potential to lower ruminant methane emissions
K. N. Joblin
50(8) pp.1307 - 1314
110 articles found in Crossref database.
Dietary nitrate supplementation reduces methane emission in beef cattle fed sugarcane-based diets1
Hulshof R. B. A.,
Berndt A.,
Gerrits W. J. J.,
Dijkstra J.,
van Zijderveld S. M.,
Newbold J.R., Perdok H. B.
Journal of Animal Science. 2012 90(7). p.2317
Methane mitigation in ruminants: from microbe to the farm scale
Martin C.,
Morgavi D.P., Doreau M.
Animal. 2010 4(3). p.351
Influence of the Composition of the Cellulolytic Flora on the Development of Hydrogenotrophic Microorganisms, Hydrogen Utilization, and Methane Production in the Rumens of Gnotobiotically Reared Lambs
Chaucheyras-Durand Frédérique,
Masséglia Sébastien,
Fonty Gérard, Forano Evelyne
Applied and Environmental Microbiology. 2010 76(24). p.7931
Shifts in metabolic hydrogen sinks in the methanogenesis-inhibited ruminal fermentation: a meta-analysis
Ungerfeld Emilio M.
Frontiers in Microbiology. 2015 6
Creating a low enteric methane emission ruminant: what is the evidence of success to the present and prospects for developing economies?
Goopy J. P.
Animal Production Science. 2019 59(10). p.1769
The complete genome sequence of Eubacterium limosum SA11, a metabolically versatile rumen acetogen
Kelly William J.,
Henderson Gemma,
Pacheco Diana M.,
Li Dong,
Reilly Kerri,
Naylor Graham E.,
Janssen Peter H.,
Attwood Graeme T.,
Altermann Eric, Leahy Sinead C.
Standards in Genomic Sciences. 2016 11(1).
Methane Emissions Regulated by Microbial Community Response to the Addition of Monensin and Fumarate in Different Substrates
Xue Dan,
Chen Huai, Luo Xiaolin
Applied Sciences. 2021 11(14). p.6282
Ovine Ruminal Microbes Are Capable of Biotransforming Hexahydro-1,3,5-Trinitro-1,3,5-Triazine (RDX)
Eaton H. L.,
De Lorme M.,
Chaney R. L., Craig A. M.
Microbial Ecology. 2011 62(2). p.274
The impact of breeding to reduce residual feed intake on enteric methane emissions from the Australian beef industry
Alford A. R.,
Hegarty R. S.,
Parnell P. F.,
Cacho O. J.,
Herd R. M., Griffith G. R.
Australian Journal of Experimental Agriculture. 2006 46(7). p.813
Does the complexity of the rumen microbial ecology preclude methane mitigation?
Wright André-Denis G., Klieve Athol V.
Animal Feed Science and Technology. 2011 166-167 p.248
Effect of the Addition of Sodium Nitrate in a Total Mixed Ration with Fermented Tofu Waste on Methane Production from the Rumen Fluid
Bachruddin Z.,
Latiefah S., Yusiati L.M.
Pakistan Journal of Nutrition. 2019 18(5). p.408
Construction and operation of open-circuit methane chambers for small ruminants
Klein L., Wright A.-D. G.
Australian Journal of Experimental Agriculture. 2006 46(10). p.1257
Propionic acid bacteria enhance ruminal feed degradation and reduce methane production in vitro
Chen Jikun,
Harstad Odd Magne,
McAllister Tim,
Dörsch Peter, Holo Helge
Acta Agriculturae Scandinavica, Section A — Animal Science. 2020 69(3). p.169
Hydrogen utilising bacteria from the forestomach of eastern grey (Macropus giganteus) and red (Macropus rufus) kangaroos
Ouwerkerk D.,
Maguire A. J.,
McMillen L., Klieve A. V.
Animal Production Science. 2009 49(11). p.1043
Methane Inhibition Alters the Microbial Community, Hydrogen Flow, and Fermentation Response in the Rumen of Cattle
Martinez-Fernandez Gonzalo,
Denman Stuart E.,
Yang Chunlei,
Cheung Jane,
Mitsumori Makoto, McSweeney Christopher S.
Frontiers in Microbiology. 2016 7
Using strains of Propionibacteria to mitigate methane emissionsin vitro
Alazzeh A. Y.,
Sultana H.,
Beauchemin K. A.,
Wang Y.,
Holo H.,
Harstad O. M., McAllister T. A.
Acta Agriculturae Scandinavica, Section A - Animal Science. 2012 62(4). p.263
Phloroglucinol Degradation in the Rumen Promotes the Capture of Excess Hydrogen Generated from Methanogenesis Inhibition
Martinez-Fernandez Gonzalo,
Denman Stuart E.,
Cheung Jane, McSweeney Christopher S.
Frontiers in Microbiology. 2017 8
Measurement and prediction of enteric methane emission
Sejian Veerasamy,
Lal Rattan,
Lakritz Jeffrey, Ezeji Thaddeus
International Journal of Biometeorology. 2011 55(1). p.1
Rumen Microbiology: From Evolution to Revolution (2015)
Metabolic Hydrogen Flows in Rumen Fermentation: Principles and Possibilities of Interventions
Ungerfeld Emilio M.
Frontiers in Microbiology. 2020 11
Feed additives as a strategic approach to reduce enteric methane production in cattle: modes of action, effectiveness and safety
Honan M.,
Feng X.,
Tricarico J.M., Kebreab E.
Animal Production Science. 2021 62(14). p.1303
Phylogenic diversity analysis of rumen acetogens in adult sheep fed on conventional roughage diet
MALIK P K,
THULASI A,
SOREN N M,
JOSE L,
PRASAD K S, PRASAD C S
The Indian Journal of Animal Sciences. 2015 85(10).
Decrease of ruminal methane production in Rusitec fermenters through the addition of plant material from rhubarb (Rheum spp.) and alder buckthorn (Frangula alnus)
García-González R.,
González J.S., López S.
Journal of Dairy Science. 2010 93(8). p.3755
Chloroform decreases rumen methanogenesis and methanogen populations without altering rumen function in cattle
Knight T.,
Ronimus R.S.,
Dey D.,
Tootill C.,
Naylor G.,
Evans P.,
Molano G.,
Smith A.,
Tavendale M.,
Pinares-Patiño C.S., Clark H.
Animal Feed Science and Technology. 2011 166-167 p.101
Climate Change Impact on Livestock: Adaptation and Mitigation (2015)
Hydrogenotrophic culture enrichment reveals rumenLachnospiraceaeandRuminococcaceaeacetogens and hydrogen-responsiveBacteroidetesfrom pasture-fed cattle
Gagen Emma J.,
Padmanabha Jagadish,
Denman Stuart E.,
McSweeney Christopher S., Imperial Juan
FEMS Microbiology Letters. 2015 362(14). p.fnv104
Candidate metabolites for methane mitigation in the forage legume biserrula
Ghamkhar Kioumars,
Rochfort Simone,
Banik Bidhyut Kumar, Revell Clinton
Agronomy for Sustainable Development. 2018 38(3).
Assessing the impact of climate action mitigation strategies from livestock production: A review – Solution for greenhouse gases mitigation
Terefe Geberemariyam, Walelegne Mulugeta
CABI Reviews. 2024
Effect of bromochloromethane and fumarate on phylogenetic diversity of the formyltetrahydrofolate synthetase gene in bovine rumen
Mitsumori Makoto,
Matsui Hiroki,
Tajima Kiyoshi,
Shinkai Takumi,
Takenaka Akio,
Denman Stuart E., McSweeney Christopher S.
Animal Science Journal. 2014 85(1). p.25
Sugar phosphorylation activity in ruminal acetogens
Jiang W.,
Pinder R. S.,
Patterson J. A., Ricke S. C.
Journal of Environmental Science and Health, Part A. 2012 47(6). p.843
Studies on Methane Emissions from Pastoral Farming in New Zealand
LI Meng-meng,
ZHANG Gui-guo,
SUN Xue-zhao,
DONG Shu-ting, Hoskin Simone O
Journal of Integrative Agriculture. 2014 13(2). p.365
Ratios of rumen inoculum from Tibetan and Small-tailed Han sheep influenced in vitro fermentation and digestibility
Wang Weiwei,
M. Ungerfeld Emilio,
Degen A. Allan,
Jing Xiaoping,
Guo Wei,
Zhou Jianwei,
Huang Xiaodan,
Mudassar Shah,
Shi Fuyu,
Bi Sisi,
Ding Luming,
Shang Zhanhuan, Long Ruijun
Animal Feed Science and Technology. 2020 267 p.114562
Presence of Novel, Potentially Homoacetogenic Bacteria in the Rumen as Determined by Analysis of Formyltetrahydrofolate Synthetase Sequences from Ruminants
Henderson Gemma,
Naylor Graham E.,
Leahy Sinead C., Janssen Peter H.
Applied and Environmental Microbiology. 2010 76(7). p.2058
Effect of Sodium Lauryl Sulfate-Fumaric Acid Coupled Addition on theIn VitroRumen Fermentation with Special Regard to Methanogenesis
Abdl-Rahman M. A.,
Sawiress F. A. R., Abd El-Aty A. M.
Veterinary Medicine International. 2010 2010 p.1
Influence of periparturient and postpartum diets on rumen methanogen communities in three breeds of primiparous dairy cows
Cersosimo Laura M.,
Bainbridge Melissa L.,
Kraft Jana, Wright André-Denis G.
BMC Microbiology. 2016 16(1).
Effect of Methane Inhibitors on Ruminal Microbiota During Early Life and Its Relationship With Ruminal Metabolism and Growth in Calves
Cristobal-Carballo Omar,
McCoard Susan A.,
Cookson Adrian L.,
Ganesh Siva,
Lowe Katherine,
Laven Richard A., Muetzel Stefan
Frontiers in Microbiology. 2021 12
— Invited Review — Hydrogen production and hydrogen utilization in the rumen: key to mitigating enteric methane production
Mackie Roderick I.,
Kim Hyewon,
Kim Na Kyung, Cann Isaac
Animal Bioscience. 2024 37(2). p.323
Review: Biological consequences of the inhibition of rumen methanogenesis
Ungerfeld E.M., Pitta D.
animal. 2024 p.101170
Sources of rumen enhancers including nitrate, chitosan extract and shrimp shell meal could modulate nutrient degradability and in vitro gas fermentation
Thao Nguyen The,
Phesatcha Kampanat,
Matra Maharach,
Phesatcha Burarat, Wanapat Metha
Journal of Applied Animal Research. 2022 50(1). p.394
Methanogen genomics to discover targets for methane mitigation technologies and options for alternative H2 utilisation in the rumen
Attwood Graeme, McSweeney Christopher
Australian Journal of Experimental Agriculture. 2008 48(2). p.28
SPECIAL TOPICS — Mitigation of methane and nitrous oxide emissions from animal operations: I. A review of enteric methane mitigation options1
Hristov A. N.,
Oh J.,
Firkins J. L.,
Dijkstra J.,
Kebreab E.,
Waghorn G.,
Makkar H. P. S.,
Adesogan A. T.,
Yang W.,
Lee C.,
Gerber P. J.,
Henderson B., Tricarico J. M.
Journal of Animal Science. 2013 91(11). p.5045
Comparative Microbiome Analysis Reveals the Ecological Relationships Between Rumen Methanogens, Acetogens, and Their Hosts
Li Zhipeng,
Wang Xiaoxu,
Alberdi Antton,
Deng Jiabo,
Zhong Zhenyu,
Si Huazhe,
Zheng Chengli,
Zhou Hanlin,
Wang Jianming,
Yang Yifeng,
Wright André-Denis G.,
Mao Shengyong,
Zhang Zhigang,
Guan Leluo, Li Guangyu
Frontiers in Microbiology. 2020 11
Reducing Enteric Methanogenesis through Alternate Hydrogen Sinks in the Rumen
Choudhury Prasanta Kumar,
Jena Rajashree,
Tomar Sudhir Kumar, Puniya Anil Kumar
Methane. 2022 1(4). p.320
Investigation of a new acetogen isolated from an enrichment of the tammar wallaby forestomach
Gagen Emma J,
Wang Jiakun,
Padmanabha Jagadish,
Liu Jing,
de Carvalho Isabela Pena Carvalho,
Liu Jianxin,
Webb Richard I,
Al Jassim Rafat,
Morrison Mark,
Denman Stuart E, McSweeney Christopher S
BMC Microbiology. 2014 14(1).
In Vitro Incubations Do Not Reflect In Vivo Differences Based on Ranking of Low and High Methane Emitters in Dairy Cows
Cabezas-Garcia Edward H.,
Danielsson Rebecca,
Ramin Mohammad, Huhtanen Pekka
Animals. 2021 11(11). p.3112
Genome sequencing of rumen bacteria and archaea and its application to methane mitigation strategies
Leahy S.C.,
Kelly W.J.,
Ronimus R.S.,
Wedlock N.,
Altermann E., Attwood G.T.
Animal. 2013 7 p.235
Methane production from in vitro rumen incubations with Lotus pedunculatus and Medicago sativa, and effects of extractable condensed tannin fractions on methanogenesis
Tavendale Michael H.,
Meagher Lucy P.,
Pacheco David,
Walker Nicola,
Attwood Graeme T., Sivakumaran Subathira
Animal Feed Science and Technology. 2005 123-124 p.403
Effects of defaunation and dietary coconut oil distillate on fermentation, digesta kinetics and methane production of Brahman heifers
Nguyen S. H., Hegarty R. S.
Journal of Animal Physiology and Animal Nutrition. 2017 101(5). p.984
Diverse hydrogen production and consumption pathways influence methane production in ruminants
Greening Chris,
Geier Renae,
Wang Cecilia,
Woods Laura C,
Morales Sergio E,
McDonald Michael J,
Rushton-Green Rowena,
Morgan Xochitl C,
Koike Satoshi,
Leahy Sinead C,
Kelly William J,
Cann Isaac,
Attwood Graeme T,
Cook Gregory M, Mackie Roderick I
The ISME Journal. 2019 13(10). p.2617
Methanogen Colonisation Does Not Significantly Alter Acetogen Diversity in Lambs Isolated 17 h After Birth and Raised Aseptically
Gagen Emma J.,
Mosoni Pascale,
Denman Stuart E.,
Al Jassim Rafat,
McSweeney Christopher S., Forano Evelyne
Microbial Ecology. 2012 64(3). p.628
An ANN experiment on the Indian economy: can the change in pollution generate an increase or decrease in GDP acceleration?
Mele Marco,
Nieddu Luciano,
Abbafati Cristiana, Quarto Angelo
Environmental Science and Pollution Research. 2021 28(27). p.35777
Measurement and mitigation of methane emissions from beef cattle in tropical grazing systems: a perspective from Australia and Brazil
Berndt A., Tomkins N.W.
Animal. 2013 7 p.363
Effects of different molecular weights of chitosan on methane production and bacterial community structure in vitro
TONG Jin-jin,
ZHANG Hua,
WANG Jia,
LIU Yun,
MAO Sheng-yong,
XIONG Ben-hai, JIANG Lin-shu
Journal of Integrative Agriculture. 2020 19(6). p.1644
Recent developments in nucleic acid based techniques for use in rumen manipulation
McSweeney Christopher,
Kang Seungha,
Gagen Emma,
Davis Carl,
Morrison Mark, Denman Stuart
Revista Brasileira de Zootecnia. 2009 38(spe). p.341
The effect of dietary concentrate and soya oil inclusion on microbial diversity in the rumen of cattle
Lillis L.,
Boots B.,
Kenny D.A.,
Petrie K.,
Boland T.M.,
Clipson N., Doyle E.M.
Journal of Applied Microbiology. 2011 111(6). p.1426
Effects of ratios of yak to cattle inocula on methane production and fiber digestion in rumen in vitro cultures1
Wang Weiwei,
Guo Wei,
Jiao Jianxin,
Ungerfeld Emilio M,
Jing Xiaoping,
Huang Xiaodan,
Degen Allan A,
Li Yu,
Bi Sisi, Long Ruijun
Journal of Integrative Agriculture. 2024
Comparison of rumen fluid inoculum vs. faecal inoculum on predicted methane production using a fully automated in vitro gas production system
Ramin M.,
Lerose D.,
Tagliapietra F., Huhtanen P.
Livestock Science. 2015 181 p.65
Factors Affecting Mitigation of Methane Emission from Ruminants I: Feeding Strategies
Mirzaei-Ag Afshar, Maheri-Sis Naser
Asian Journal of Animal and Veterinary Advances. 2011 6(9). p.888
Rumen physiology: microorganisms, fermentation and manipulation
ÖZTÜRK Hakan, GUR Gursel
Ankara Üniversitesi Veteriner Fakültesi Dergisi. 2021 68(4). p.423
Chemical composition, in-vitro fermentation and methane production potential of unconventional feed resources in goats
TRIPATHI M K,
MEENA RAMKESH,
RAHAL ANU,
TRIPATHI PRABHAT,
KUMAR RAVINDRA,
CHAUDHARY U B, GUPTA D L
The Indian Journal of Animal Sciences. 2016 86(6).
Options for the abatement of methane and nitrous oxide from ruminant production: A review
Eckard R.J.,
Grainger C., de Klein C.A.M.
Livestock Science. 2010 130(1-3). p.47
Molecular hydrogen generated by elemental magnesium supplementation alters rumen fermentation and microbiota in goats
Wang Min,
Wang Rong,
Zhang XiuMin,
Ungerfeld Emilio M.,
Long Donglei,
Mao HongXiang,
Jiao JinZhen,
Beauchemin Karen A., Tan Zhiliang
British Journal of Nutrition. 2017 118(6). p.401
Factors affecting rumen methanogens and methane mitigation strategies
Kumar Sanjay,
Puniya Anil Kumar,
Puniya Monica,
Dagar Sumit Singh,
Sirohi Sunil Kumar,
Singh Kishan, Griffith Gareth Wyn
World Journal of Microbiology and Biotechnology. 2009 25(9). p.1557
Methane Emissions and the Use of Desmanthus in Beef Cattle Production in Northern Australia
Suybeng Bénédicte,
Charmley Edward,
Gardiner Christopher P.,
Malau-Aduli Bunmi S., Malau-Aduli Aduli E. O.
Animals. 2019 9(8). p.542
Rumen fermentation and acetogen population changes in response to an exogenous acetogen TWA4 strain and Saccharomyces cerevisiae fermentation product
Yang Chun-lei,
Guan Le-luo,
Liu Jian-xin, Wang Jia-kun
Journal of Zhejiang University-SCIENCE B. 2015 16(8). p.709
Nutritional and flock management options to reduce methane output and methane per unit product from sheep enterprises
Hegarty R. S.,
Alcock D.,
Robinson D. L.,
Goopy J. P., Vercoe P. E.
Animal Production Science. 2010 50(12). p.1026
Manipulation of rumen fermentation and methane production with plant secondary metabolites
Bodas R.,
Prieto N.,
García-González R.,
Andrés S.,
Giráldez F.J., López S.
Animal Feed Science and Technology. 2012 176(1-4). p.78
Effects of supplementation of sodium acetate on rumen fermentation and microbiota in postpartum dairy cows
Cheng Zhiqiang,
Meng Zitong,
Tan Dejin,
Datsomor Osmond,
Zhan Kang,
Lin Miao, Zhao Guoqi
Frontiers in Microbiology. 2022 13
The complete genome sequence of the rumen methanogen Methanobrevibacter millerae SM9
Kelly William J.,
Pacheco Diana M.,
Li Dong,
Attwood Graeme T.,
Altermann Eric, Leahy Sinead C.
Standards in Genomic Sciences. 2016 11(1).
Establishment and Development of Ruminal Hydrogenotrophs in Methanogen-Free Lambs
Fonty Gérard,
Joblin Keith,
Chavarot Michel,
Roux Remy,
Naylor Graham, Michallon Fabien
Applied and Environmental Microbiology. 2007 73(20). p.6391
Linkages between rumen microbiome, host, and environment in yaks, and their implications for understanding animal production and management
Wang Weiwei,
Dong Yuntao,
Guo Wei,
Zhang Xiao,
Degen A. Allan,
Bi Sisi,
Ding Luming,
Chen Xiang, Long Ruijun
Frontiers in Microbiology. 2024 15
Environmental Stress and Amelioration in Livestock Production (2012)
Bovine host genome acts on rumen microbiome function linked to methane emissions
Martínez-Álvaro Marina,
Auffret Marc D.,
Duthie Carol-Anne,
Dewhurst Richard J.,
Cleveland Matthew A.,
Watson Mick, Roehe Rainer
Communications Biology. 2022 5(1).
Rumen Microbiology: From Evolution to Revolution (2015)
Methane emissions, ruminal characteristics and nitrogen utilisation changes after refaunation of protozoa-free sheep
Nguyen Son Hung,
Bremner Graeme,
Cameron Margaret, Hegarty Roger Stephen
Small Ruminant Research. 2016 144 p.48
Advanced estimation and mitigation strategies: a cumulative approach to enteric methane abatement from ruminants
Islam Mahfuzul, Lee Sang-Suk
Journal of Animal Science and Technology. 2019 61(3). p.122
Ruminant enteric methane mitigation: a review
Cottle D. J.,
Nolan J. V., Wiedemann S. G.
Animal Production Science. 2011 51(6). p.491
Acetogen Communities in the Gut of Herbivores and Their Potential Role in Syngas Fermentation
Yang Chunlei
Fermentation. 2018 4(2). p.40
Dietary manipulation: a sustainable way to mitigate methane emissions from ruminants
Haque Md Najmul
Journal of Animal Science and Technology. 2018 60(1).
Interactions between microbial consortia in biofilms: a paradigm shift in rumen microbial ecology and enteric methane mitigation
Leng R. A.
Animal Production Science. 2014 54(5). p.519
Strategies to reduce methane emissions from farmed ruminants grazing on pasture
Buddle Bryce M.,
Denis Michel,
Attwood Graeme T.,
Altermann Eric,
Janssen Peter H.,
Ronimus Ron S.,
Pinares-Patiño Cesar S.,
Muetzel Stefan, Neil Wedlock D.
The Veterinary Journal. 2011 188(1). p.11
Use of dietary nitrate to increase productivity and reduce methane production of defaunated and faunated lambs consuming protein-deficient chaff
Nguyen S. H.,
Barnett M. C., Hegarty R. S.
Animal Production Science. 2016 56(3). p.290
Comparative Analysis of the Microbiota Between Sheep Rumen and Rabbit Cecum Provides New Insight Into Their Differential Methane Production
Mi Lan,
Yang Bin,
Hu Xialu,
Luo Yang,
Liu Jianxin,
Yu Zhongtang, Wang Jiakun
Frontiers in Microbiology. 2018 9
Responses of anaerobic rumen fungal diversity (phylum Neocallimastigomycota) to changes in bovine diet
Boots B.,
Lillis L.,
Clipson N.,
Petrie K.,
Kenny D.A.,
Boland T.M., Doyle E.
Journal of Applied Microbiology. 2013 114(3). p.626
Dietary selection of metabolically distinct microorganisms drives hydrogen metabolism in ruminants
Li Qiu Shuang,
Wang Rong,
Ma Zhi Yuan,
Zhang Xiu Min,
Jiao Jin Zhen,
Zhang Zhi Gang,
Ungerfeld Emilio M,
Le Yi Kang,
Zhang Bai Zhong,
Long Liang,
Long Yun,
Tao Ye,
Huang Tao,
Greening Chris,
Tan Zhi Liang, Wang Min
The ISME Journal. 2022 16(11). p.2535
Climate Change Impact on Livestock: Adaptation and Mitigation (2015)
A meta-analysis of probiotic interventions to mitigate ruminal methane emissions in cattle: implications for sustainable livestock farming
Ncho C.M.,
Kim S-H.,
Rang S.A., Lee S.S.
animal. 2024 18(6). p.101180
Effects of reductive acetogenic bacteria and lauric acid on in vivo ruminal fermentation, microbial populations, and methane mitigation in Hanwoo steers in South Korea
Kim Seon-Ho,
Mamuad Lovelia L,
Choi Yeon-Jae,
Sung Haguyn G,
Cho Kwang-Keun, Lee Sang Suk
Journal of Animal Science. 2018 96(10). p.4360
Evaluation of Nanaerobic Digestion as a Mechanism to Explain Surplus Methane Production in Animal Rumina and Engineered Digesters
Wu Zhuoying,
Nguyen Duc,
Shrestha Shilva,
Raskin Lutgarde,
Khanal Samir Kumar, Lee Po-Heng
Environmental Science & Technology. 2023 57(33). p.12302
Functional Gene Analysis Suggests Different Acetogen Populations in the Bovine Rumen and Tammar Wallaby Forestomach
Gagen Emma J.,
Denman Stuart E.,
Padmanabha Jagadish,
Zadbuke Someshwar,
Al Jassim Rafat,
Morrison Mark, McSweeney Christopher S.
Applied and Environmental Microbiology. 2010 76(23). p.7785
Animal Manure (2022)
Hydrogen and formate production and utilisation in the rumen and the human colon
Kelly William J.,
Mackie Roderick I.,
Attwood Graeme T.,
Janssen Peter H.,
McAllister Tim A., Leahy Sinead C.
Animal Microbiome. 2022 4(1).
Nitrate and sulfate: Effective alternative hydrogen sinks for mitigation of ruminal methane production in sheep
van Zijderveld S.M.,
Gerrits W.J.J.,
Apajalahti J.A.,
Newbold J.R.,
Dijkstra J.,
Leng R.A., Perdok H.B.
Journal of Dairy Science. 2010 93(12). p.5856
New aspects and strategies for methane mitigation from ruminants
Kumar Sanjay,
Choudhury Prasanta Kumar,
Carro Maria Dolores,
Griffith Gareth Wyn,
Dagar Sumit Singh,
Puniya Monica,
Calabro Serena,
Ravella Sreenivas Rao,
Dhewa Tejpal,
Upadhyay Ramesh Chandra,
Sirohi Sunil Kumar,
Kundu Shivlal Singh,
Wanapat Metha, Puniya Anil Kumar
Applied Microbiology and Biotechnology. 2014 98(1). p.31
Climate Change Impacts on Livestock Production Systems: A Review
Poliquit Angie
Annals of Tropical Research. 2014 p.148
Balancing Livestock Environmental Footprints with Forestry-Based Solutions: A Review
Solomon Tamirat,
Gupta Vaishali, Ncho Chris Major
Ecologies. 2023 4(4). p.714
Dietary Ruminant Enteric Methane Mitigation Strategies: Current Findings, Potential Risks and Applicability
Lileikis Tomas,
Nainienė Rasa,
Bliznikas Saulius, Uchockis Virginijus
Animals. 2023 13(16). p.2586
Redirecting rumen fermentation to reduce methanogenesis
McAllister T. A., Newbold C. J.
Australian Journal of Experimental Agriculture. 2008 48(2). p.7
Influence of ruminal methane on digesta retention and digestive physiology in non-lactating dairy cattle
Dittmann Marie T.,
Hammond Kirsty J.,
Kirton Paul,
Humphries David J.,
Crompton Les A.,
Ortmann Sylvia,
Misselbrook Tom H.,
Südekum Karl-Heinz,
Schwarm Angela,
Kreuzer Michael,
Reynolds Christopher K., Clauss Marcus
British Journal of Nutrition. 2016 116(5). p.763
Isolation and characterization of reductive acetogens from rumen fluid samples of Murrah buffaloes
Choudhury Prasanta Kumar,
Jena Rajashree,
Puniya Anil Kumar, Tomar Sudhir Kumar
3 Biotech. 2023 13(8).
Animal Manure (2022)
Optimizing Anthocyanin-Rich Black Cane (Saccharum sinensis Robx.) Silage for Ruminants Using Molasses and Iron Sulphate: A Sustainable Alternative
Suong Ngo,
Paengkoum Siwaporn,
Purba Rayudika, Paengkoum Pramote
Fermentation. 2022 8(6). p.248
Potential functional gene diversity involved in methanogenesis and methanogenic community structure in Indian buffalo (Bubalus bubalis) rumen
Singh Krishna M.,
Patel Amrutlal K.,
Shah Ravi K.,
Reddy Bhaskar, Joshi Chaitanya G.
Journal of Applied Genetics. 2015 56(3). p.411
Native wildlife on rangelands to minimize methane and produce lower‐emission meat: kangaroos versus livestock
Wilson George R., Edwards Melanie J.
Conservation Letters. 2008 1(3). p.119
Potential of mimosine of Leucaena leucocephala for modulating ruminal nutrient degradability and methanogenesis
Soltan Y.A.,
Morsy A.S.,
Lucas R.C., Abdalla A.L.
Animal Feed Science and Technology. 2017 223 p.30
Limits to Dihydrogen Incorporation into Electron Sinks Alternative to Methanogenesis in Ruminal Fermentation
Ungerfeld Emilio M.
Frontiers in Microbiology. 2015 6
Diversity of methanogens in ruminants in Queensland
Ouwerkerk D.,
Turner A. F., Klieve A. V.
Australian Journal of Experimental Agriculture. 2008 48(7). p.722
Difference in the nature of tannins on in vitro ruminal methane and volatile fatty acid production and on methanogenic archaea and protozoal populations
Bhatta R.,
Uyeno Y.,
Tajima K.,
Takenaka A.,
Yabumoto Y.,
Nonaka I.,
Enishi O., Kurihara M.
Journal of Dairy Science. 2009 92(11). p.5512
Encyclopedia of Dairy Sciences (2022)
Investigation into Host Selection of the Cecal Acetogen Population in Rabbits after Weaning
Yang Chunlei,
Mi Lan,
Hu Xialu,
Liu Jianxin,
Wang Jiakun, Arora Pankaj Kumar
PLOS ONE. 2016 11(7). p.e0158768
