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Journal of Applied Animal Research Volume 16, 1999 - Issue 1
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Original Articles

Reductive Acetogenesis in the Hindgut and Attempts to its Induction in the Rumen—A Review

Veerle Fievez Department of Animal Production Faculty of Agricultural and Applied Biological Sciences, University of Gent, Proefhoevestraat 10, 9090, Melle, Belgium
,
F. Piattoni Department of Animal Production Faculty of Agricultural and Applied Biological Sciences, University of Gent, Proefhoevestraat 10, 9090, Melle, Belgium
,
L. Mbanzamihigo Department of Animal Production Faculty of Agricultural and Applied Biological Sciences, University of Gent, Proefhoevestraat 10, 9090, Melle, Belgium
&
D. Demeyer Department of Animal Production Faculty of Agricultural and Applied Biological Sciences, University of Gent, Proefhoevestraat 10, 9090, Melle, Belgium
Pages 1-22 | Received 27 Jan 1999, Accepted 24 May 1999, Published online: 11 Nov 2011

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P. Huhtanen & M. Ramin. (2012) Evaluation of the Nordic dairy cow model Karoline in predicting methane production. Acta Agriculturae Scandinavica, Section A — Animal Science 62:4, pages 295-299.
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Articles from other publishers (17)

Svetlana Kišidayová, Nikola Scholcová, Katarína Mihaliková, Zora Váradyová, Peter Pristaš, Stanislava Weisskopf, Tomáš Chrudimský, Alica Chroňáková, Miloslav Šimek & Vladimír Šustr. (2023) Some Aspects of the Physiology of the Nyctotherus velox, a Commensal Ciliated Protozoon Taken from the Hindgut of the Tropical Millipede Archispirostreptus gigas. Life 13:5, pages 1110.
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Ziqi Fan. 2023. Proceedings of 2022 7th International Conference on Environmental Engineering and Sustainable Development (CEESD 2022). Proceedings of 2022 7th International Conference on Environmental Engineering and Sustainable Development (CEESD 2022) 35 42 .
Supriya Karekar, Renan Stefanini & Birgitte Ahring. (2022) Homo-Acetogens: Their Metabolism and Competitive Relationship with Hydrogenotrophic Methanogens. Microorganisms 10:2, pages 397.
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T.M. Denninger, A. Schwarm, F. Dohme-Meier, A. Münger, B. Bapst, S. Wegmann, F. Grandl, A. Vanlierde, D. Sorg, S. Ortmann, M. Clauss & M. Kreuzer. (2020) Accuracy of methane emissions predicted from milk mid-infrared spectra and measured by laser methane detectors in Brown Swiss dairy cows. Journal of Dairy Science 103:2, pages 2024-2039.
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Wuchen Du, Fujiang Hou, Atsushi Tsunekawa, Nobuyuki Kobayashi, Fei Peng & Toshiyoshi Ichinohe. (2020) Effects of oat hay and leguminous forage mixture feeding on enteric methane emission, energy utilization, and feed conversion efficiency in male crossbred Simmental beef cattle. Animal Science Journal 91:1.
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Sanne van Gastelen, Jan Dijkstra & André Bannink. (2019) Are dietary strategies to mitigate enteric methane emission equally effective across dairy cattle, beef cattle, and sheep?. Journal of Dairy Science 102:7, pages 6109-6130.
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J. P. Goopy. (2019) Creating a low enteric methane emission ruminant: what is the evidence of success to the present and prospects for developing economies?. Animal Production Science 59:10, pages 1769.
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Chunlei Yang. (2018) Acetogen Communities in the Gut of Herbivores and Their Potential Role in Syngas Fermentation. Fermentation 4:2, pages 40.
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M. Ramin, D. Lerose, F. Tagliapietra & P. Huhtanen. (2015) Comparison of rumen fluid inoculum vs. faecal inoculum on predicted methane production using a fully automated in vitro gas production system. Livestock Science 181, pages 65-71.
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Pekka Huhtanen, Mohammad Ramin & Peter Udén. (2015) Nordic dairy cow model Karoline in predicting methane emissions: 1. Model description and sensitivity analysis. Livestock Science 178, pages 71-80.
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T. Norrapoke, M. Wanapat & S. Wanapat. (2012) Effects of Protein Level and Mangosteen Peel Pellets (Mago-pel) in Concentrate Diets on Rumen Fermentation and Milk Production in Lactating Dairy Crossbreds. Asian-Australasian Journal of Animal Sciences 25:7, pages 971-979.
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T.A. Wood, R.J. Wallace, A. Rowe, J. Price, D.R. Yáñez-Ruiz, P. Murray & C.J. Newbold. (2009) Encapsulated fumaric acid as a feed ingredient to decrease ruminal methane emissions. Animal Feed Science and Technology 152:1-2, pages 62-71.
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Z. Váradyová, I. Štyriaková & S. Kišidayová. (2007) Effect of natural dolomites on the in vitro fermentation and rumen protozoan population using rumen fluid and fresh faeces inoculum from sheep. Small Ruminant Research 73:1-3, pages 58-66.
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B. Pen, K. Takaura, S. Yamaguchi, R. Asa & J. Takahashi. (2007) Effects of Yucca schidigera and Quillaja saponaria with or without β 1–4 galacto-oligosaccharides on ruminal fermentation, methane production and nitrogen utilization in sheep. Animal Feed Science and Technology 138:1, pages 75-88.
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D.N. Kamra, Neeta Agarwal & L.C. Chaudhary. (2006) Inhibition of ruminal methanogenesis by tropical plants containing secondary compounds. International Congress Series 1293, pages 156-163.
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H. D. Hess, R. A. Beuret, M. Lötscher, I. K. Hindrichsen, A. Machmüller, J. E. Carulla, C. E. Lascano & M. Kreuzer. (2016) Ruminal fermentation, methanogenesis and nitrogen utilization of sheep receiving tropical grass hay-concentrate diets offered with Sapindus saponaria fruits and Cratylia argentea foliage . Animal Science 79:1, pages 177-189.
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V. Fievez, L. Mbanzamihigo, F. Piattoni & D. Demeyer. (2002) Evidence for reductive acetogenesis and its nutritional significance in ostrich hindgut as estimated from in vitro incubations . Journal of Animal Physiology and Animal Nutrition 85:9-10, pages 271-280.
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