Articles citing this paper
A bromochloromethane formulation reduces enteric methanogenesis in cattle fed grain-based diets
N. W. Tomkins A C , S. M. Colegate B and R. A. Hunter A
+ Author Affiliations
- Author Affiliations
A CSIRO Livestock Industries, JM Rendel Laboratory, PO Box 5545, CQ Mail Centre, Qld 4702, Australia.
B CSIRO Livestock Industries, Plant Toxins Unit, Australian Animal Health Laboratory, Portarlington Road, East Geelong, Vic. 3219, Australia.
C Corresponding author. Email: nigel.tomkins@csiro.au
Animal Production Science 49(12) 1053-1058 https://doi.org/10.1071/EA08223
Submitted: 29 August 2008 Accepted: 15 July 2009 Published: 16 November 2009
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Bai Mei,
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Mu Chun-Long,
Luo Zhen,
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Roque Breanna M.,
Shaw Claire,
Najafi Negeen,
Gonzalez Maria,
Pfefferlen Abigail,
De Anda Vannesa,
Ginsburg David W.,
Harden Maddelyn C.,
Nuzhdin Sergey V.,
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Sun Congjiao,
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Oh J.,
Gruen D.,
Ono S.,
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Dijkstra J.,
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Makkar H. P. S.,
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Yang W.,
Lee C.,
Gerber P. J.,
Henderson B., Tricarico J. M.
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Martín-García A. I.,
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Magnusson Marie,
Midgley David J.,
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Toral P.G.,
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Martínez G.,
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Molina-Alcaide E.,
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Holman Devin B.,
Gzyl Katherine E.,
Moate Peter J., Chaves Alex V.
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Glasson Christopher R. K.,
Lawton Rebecca,
Muetzel Stefan,
Molano German, Magnusson Marie
Applied Phycology. 2022 3(1). p.274
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Min Byeng R.,
Parker David,
Brauer David,
Waldrip Heidi,
Lockard Catherine,
Hales Kristin,
Akbay Alexia, Augyte Simona
Animal Nutrition. 2021 7(4). p.1371
Methane reduction, health and regulatory considerations regarding
Asparagopsis
and bromoform for ruminants
Eason Charles T., Fennessy Peter F.
New Zealand Journal of Agricultural Research. 2023 p.1
Metagenomic analysis of the rumen microbial community following inhibition of methane formation by a halogenated methane analog
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Martinez Fernandez Gonzalo,
Shinkai Takumi,
Mitsumori Makoto, McSweeney Christopher S.
Frontiers in Microbiology. 2015 6
A Pathway to Carbon Neutral Agriculture in Denmark
Searchinger Timothy,
Zionts Jessica,
Wirsenius Stefan,
Peng Liqing,
Beringer Tim, Dumas Patrice
World Resources Institute. 2021
Asparagopsis taxiformis decreases enteric methane production from sheep
Li Xixi,
Norman Hayley C.,
Kinley Robert D.,
Laurence Michael,
Wilmot Matt,
Bender Hannah,
de Nys Rocky, Tomkins Nigel
Animal Production Science. 2018 58(4). p.681
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
Benefits and risks of including the bromoform containing seaweed Asparagopsis in feed for the reduction of methane production from ruminants
Glasson Christopher R.K.,
Kinley Robert D.,
de Nys Rocky,
King Nick,
Adams Serean L.,
Packer Michael A.,
Svenson Johan,
Eason Charles T., Magnusson Marie
Algal Research. 2022 64 p.102673
Network analysis and functional estimation of the microbiome reveal the effects of cashew nut shell liquid feeding on methanogen behaviour in the rumen
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Nguyen Van Thu,
Suzuki Tomoyuki,
Yamada Keita,
Kudo Kushi,
Hikita Chie,
Le Van Phong,
Nguyen Minh Chon, Yoshida Naohiro
Microbial Biotechnology. 2021 14(1). p.277
Dose-response effects of Asparagopsis taxiformis and Oedogonium sp. on in vitro fermentation and methane production
Machado Lorenna,
Magnusson Marie,
Paul Nicholas A.,
Kinley Robert,
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Journal of Applied Phycology. 2016 28(2). p.1443
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Günal Mevlüt,
Pinski Brittany, AbuGhazaleh Amer A.
Italian Journal of Animal Science. 2017 16(3). p.500
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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
Enteric methane emission of dairy cows supplemented with iodoform in a dose–response study
Thorsteinsson Mirka,
Lund Peter,
Weisbjerg Martin Riis,
Noel Samantha Joan,
Schönherz Anna Amanda,
Hellwing Anne Louise Frydendahl,
Hansen Hanne Helene, Nielsen Mette Olaf
Scientific Reports. 2023 13(1).
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Kinley Robert D.,
Martinez-Fernandez Gonzalo,
Matthews Melissa K.,
de Nys Rocky,
Magnusson Marie, Tomkins Nigel W.
Journal of Cleaner Production. 2020 259 p.120836
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Chen Zhikun,
An Chunjiang,
Fang Hanxiao,
Zhang Yunlu,
Zhou Zhigang,
Zhou Yang, Zhao Shan
Journal of Environmental Management. 2020 264 p.110443
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Li Xinrong,
Yang Jinfeng,
Tian Zhuang,
Sun Qinping,
Xue Wentao, Dong Hongmin
Environmental Science & Technology. 2018 52(19). p.11232
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Alvarez-Hess P.S.,
Jacobs J.L.,
Kinley R.D.,
Roque B.M.,
Neachtain A.S. O.,
Chandra S.,
Russo V.M., Williams S.R.O.
Animal Feed Science and Technology. 2024 310 p.115932
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Okine E.K.,
Guan L.L.,
Duval S.M.,
Kindermann M., Beauchemin K.A.
Animal Feed Science and Technology. 2016 220 p.67
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Kinley Robert D.,
de Nys Rocky,
Vucko Matthew J.,
Machado Lorenna, Tomkins Nigel W.
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Colley Tracey A,
Olsen Stig I,
Birkved Morten, Hauschild Michael Z
Integrated Environmental Assessment and Management. 2020 16(2). p.282
Responses in digestion, rumen fermentation and microbial populations to inhibition of methane formation by a halogenated methane analogue
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Shinkai Takumi,
Takenaka Akio,
Enishi Osamu,
Higuchi Koji,
Kobayashi Yosuke,
Nonaka Itoko,
Asanuma Narito,
Denman Stuart E., McSweeney Christopher S.
British Journal of Nutrition. 2012 108(3). p.482
