Articles citing this paper
Methanogen genomics to discover targets for methane mitigation technologies and options for alternative H2 utilisation in the rumen
Graeme Attwood A C and Christopher McSweeney B
+ Author Affiliations
- Author Affiliations
A Rumen Microbial Genomics, Food, Metabolism and Microbiology Section, Food and Textiles Group, Grassland Research Centre, AgResearch, Palmerston North, New Zealand.
B CSIRO Livestock Industries, Queensland BioScience Precinct, St Lucia, Brisbane, Qld 4067, Australia.
C Corresponding author. Email: graeme.attwood@agresearch.co.nz
Australian Journal of Experimental Agriculture 48(2) 28-37 https://doi.org/10.1071/EA07203
Submitted: 9 July 2007 Accepted: 21 September 2007 Published: 2 January 2008
47 articles found in Crossref database.
Enteric methane mitigation technologies for ruminant livestock: a synthesis of current research and future directions
Patra Amlan Kumar
Environmental Monitoring and Assessment. 2012 184(4). p.1929
Effects of propyl propane thiosulfinate on nutrient utilization, ruminal fermentation, microbial population and methane emissions in goats
Martínez-Fernández G.,
Abecia L.,
Ramos-Morales E.,
Martin-García A.I.,
Molina-Alcaide E., Yáñez-Ruiz D.R.
Animal Feed Science and Technology. 2014 191 p.16
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
Investigating the effect of two methane-mitigating diets on the rumen microbiome using massively parallel sequencing
Ross E.M.,
Moate P.J.,
Marett L.,
Cocks B.G., Hayes B.J.
Journal of Dairy Science. 2013 96(9). p.6030
The Australasian beef industries—Challenges and opportunities in the 21st century
Bell Alan W.,
Charmley Edward,
Hunter Robert A., Archer Jason A.
Animal Frontiers. 2011 1(2). p.10
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
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).
Biochemical Properties of Black and Green Teas and Their Insoluble Residues as Natural Dietary Additives to Optimize In Vitro Rumen Degradability and Fermentation but Reduce Methane in Sheep
Ramdani Diky,
Jayanegara Anuraga, Chaudhry Abdul Shakoor
Animals. 2022 12(3). p.305
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
Molecular tools for deciphering the microbial community structure and diversity in rumen ecosystem
Sirohi Sunil Kumar,
Singh Nasib,
Dagar Sumit Singh, Puniya Anil Kumar
Applied Microbiology and Biotechnology. 2012 95(5). p.1135
Encyclopedia of Animal Science, Second Edition (2011)
Thinking Outside the Cereal Box: Noncarbohydrate Routes for Dietary Manipulation of the Gut Microbiota
Reese Aspen T.,
Carmody Rachel N., Stabb Eric V.
Applied and Environmental Microbiology. 2019 85(10).
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
Carbon precursors of methane synthesis in the rumen of sheep dosed with ionophores
Loughnan M. L.,
Nolan J. V., Leng R. A.
Animal Production Science. 2014 54(10). p.1787
The role of seaweed as a potential dietary supplementation for enteric methane mitigation in ruminants: Challenges and opportunities
Min Byeng R.,
Parker David,
Brauer David,
Waldrip Heidi,
Lockard Catherine,
Hales Kristin,
Akbay Alexia, Augyte Simona
Animal Nutrition. 2021 7(4). p.1371
Effect ofPropionibacterium freudenreichiion ruminal fermentation patterns, methane production and lipid biohydrogenation of beef finishing diets containing flaxseed oil in a rumen simulation technique
Meale S. J.,
Ding S.,
He M. L.,
Dugan M. E. R.,
Ribeiro G. O.,
Alazzeh A. Y.,
Holo H.,
Harstad O. M.,
McAllister T. A., Chaves A. V.
Canadian Journal of Animal Science. 2014 94(4). p.685
Animal Manure (2022)
Increasing the Production of Volatile Fatty Acids from Corn Stover Using Bioaugmentation of a Mixed Rumen Culture with Homoacetogenic Bacteria
Murali Nanditha,
Srinivas Keerthi, Ahring Birgitte K.
Microorganisms. 2021 9(2). p.337
Identification of metabolically active proteobacterial and archaeal communities in the rumen by DNA- and RNA-derived 16S rRNA gene
Kang S.H.,
Evans P.,
Morrison M., McSweeney C.
Journal of Applied Microbiology. 2013 115(3). p.644
Effects of Tea Saponin Supplementation on Nutrient Digestibility, Methanogenesis, and Ruminal Microbial Flora in Dorper Crossbred Ewe
Liu Yunlong,
Ma Tao,
Chen Dandan,
Zhang Naifeng,
Si Bingwen,
Deng Kaidong,
Tu Yan, Diao Qiyu
Animals. 2019 9(1). p.29
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
Dietary mitigation of enteric methane emissions from ruminants: A review of plant tannin mitigation options
Min Byeng R.,
Solaiman Sandra,
Waldrip Heidi M.,
Parker David,
Todd Richard W., Brauer David
Animal Nutrition. 2020 6(3). p.231
Reconsidering rumen microbial consortia to enhance feed efficiency and reduce environmental impact of ruminant livestock production systems
Firkins Jeffrey Lynn
Revista Brasileira de Zootecnia. 2010 39(suppl spe). p.445
Response of the rumen archaeal and bacterial populations to anti-methanogenic organosulphur compounds in continuous-culture fermenters
Martínez-Fernández Gonzalo,
Abecia Leticia,
Martín-García A. Ignacio,
Ramos-Morales Eva,
Denman Stuart E.,
Newbold Charles J.,
Molina-Alcaide Eduarda,
Yáñez-Ruiz David R., Stams Alfons
FEMS Microbiology Ecology. 2015 91(8). p.fiv079
Links between the rumen microbiota, methane emissions and feed efficiency of finishing steers offered dietary lipid and nitrate supplementation
Bowen Jenna M.,
Cormican Paul,
Lister Susan J.,
McCabe Matthew S.,
Duthie Carol-Anne,
Roehe Rainer,
Dewhurst Richard J., Chaves Alex V.
PLOS ONE. 2020 15(4). p.e0231759
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
Methane mitigation in ruminants: from microbe to the farm scale
Martin C.,
Morgavi D.P., Doreau M.
Animal. 2010 4(3). p.351
Dietary sources and their effects on animal production and environmental sustainability
Wanapat Metha,
Cherdthong Anusorn,
Phesatcha Kampanat, Kang Sungchhang
Animal Nutrition. 2015 1(3). p.96
Fermentación ruminal in vitro y producción de AGVS, metano y bióxido de carbono con la inclusión de extractos de plantas del semidesierto zacatecano.
Bañuelos-Valenzuela Rómulo, Delgadillo-Ruiz Lucía
Archivos Latinoamericanos de Producción Animal. 2022 30(Supl. 1). p.1
Manual of Environmental Microbiology (2015)
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
Roles of Essential Oils, Polyphenols, and Saponins of Medicinal Plants as Natural Additives and Anthelmintics in Ruminant Diets: A Systematic Review
Ramdani Diky,
Yuniarti Endah,
Jayanegara Anuraga, Chaudhry Abdul Shakoor
Animals. 2023 13(4). p.767
Feeding of tropical trees and shrub foliages as a strategy to reduce ruminal methanogenesis: studies conducted in Cuba
Delgado Denia Caridad,
Galindo Juana,
González Rogelio,
González Niurca,
Scull Idania,
Dihigo Luís,
Cairo Juan,
Aldama Ana Irma, Moreira Onidia
Tropical Animal Health and Production. 2012 44(5). p.1097
Ruminant enteric methane mitigation: a review
Cottle D. J.,
Nolan J. V., Wiedemann S. G.
Animal Production Science. 2011 51(6). p.491
Propionibacteria in Ruminant’s Diets: An Overview
Azzaz H.H.,
El-Sherbin Mohamed,
Murad H.A., Ebeid H.M.
Journal of Applied Sciences. 2019 19(3). p.166
Climate Change Impact on Livestock: Adaptation and Mitigation (2015)
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
Unraveling the phylogenomic diversity of Methanomassiliicoccales and implications for mitigating ruminant methane emissions
Xie Fei,
Zhao Shengwei,
Zhan Xiaoxiu,
Zhou Yang,
Li Yin,
Zhu Weiyun,
Pope Phillip B.,
Attwood Graeme T.,
Jin Wei, Mao Shengyong
Genome Biology. 2024 25(1).
Feeding 3-nitrooxypropanol reduces methane emissions by feedlot cattle on tropical conditions
Araújo Tiago L R,
Rabelo Carlos H S,
Cardoso Abmael S,
Carvalho Victor V,
Acedo Tiago S,
Tamassia Luis F M,
Vasconcelos Guilherme S F M,
Duval Stephane M,
Kindermann Maik,
Gouvea Vinicius N,
Fernandes Marcia H M R, Reis Ricardo A
Journal of Animal Science. 2023 101
Application of rumen microbial genome information to livestock systems in the postgenomic era
Attwood G. T.,
Kelly W. J.,
Altermann E. H.,
Moon C. D.,
Leahy S., Cookson A. L.
Australian Journal of Experimental Agriculture. 2008 48(7). p.695
Investigation of the microbial metabolism of carbon dioxide and hydrogen in the kangaroo foregut by stable isotope probing
Godwin Scott,
Kang Alicia,
Gulino Lisa-Maree,
Manefield Mike,
Gutierrez-Zamora Maria-Luisa,
Kienzle Marco,
Ouwerkerk Diane,
Dawson Kerri, Klieve Athol V
The ISME Journal. 2014 8(9). p.1855
Effects of ethyl-3-nitrooxy propionate and 3-nitrooxypropanol on ruminal fermentation, microbial abundance, and methane emissions in sheep
Martínez-Fernández G.,
Abecia L.,
Arco A.,
Cantalapiedra-Hijar G.,
Martín-García A.I.,
Molina-Alcaide E.,
Kindermann M.,
Duval S., Yáñez-Ruiz D.R.
Journal of Dairy Science. 2014 97(6). p.3790
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
Reducing CH4 Emissions from Grazing Ruminants in New Zealand: Challenges and Opportunities
Clark H.,
Kelliher F., Pinares-Patiño C.
Asian-Australasian Journal of Animal Sciences. 2010 24(2). p.295
Distinct microbial hydrogen and reductant disposal pathways explain interbreed variations in ruminant methane yield
Li Qiushuang,
Ma Zhiyuan,
Huo Jiabin,
Zhang Xiumin,
Wang Rong,
Zhang Shizhe,
Jiao Jinzhen,
Dong Xiyang,
Janssen Peter H,
Ungerfeld Emilio M,
Greening Chris,
Tan Zhiliang, Wang Min
The ISME Journal. 2024 18(1).
An Antimethanogenic Nutritional Intervention in Early Life of Ruminants Modifies Ruminal Colonization by Archaea
Abecia Leticia,
Waddams Kate E.,
Martínez-Fernandez Gonzalo,
Martín-García A. Ignacio,
Ramos-Morales Eva,
Newbold C. Jamie, Yáñez-Ruiz David R.
Archaea. 2014 2014 p.1
New challenges for efficient usage of Sargassum fusiforme for ruminant production
Choi You Young,
Lee Shin Ja,
Lee Ye Jun,
Kim Hyun Sang,
Eom Jun Sik,
Kim Sam Churl,
Kim Eun Tae, Lee Sung Sill
Scientific Reports. 2020 10(1).
