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Soil Science and Plant Nutrition Volume 38, 1992 - Issue 4
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Original Articles

Methane production and its fate in paddy fields

II. Oxidation of methane and its coupled ferric oxide reduction in subsoil

Yoshinori Miura School of Agriculture, Nagoya University, Chikusa-ku, Nagoya, Japan; Fukushima Prefecture Agricultural Experiment Station, Koriyama, Japan
,
Akira Watanabe School of Agriculture, Nagoya University, Chikusa-ku, Nagoya, Japan
,
Jun Murase School of Agriculture, Nagoya University, Chikusa-ku, Nagoya, Japan
&
Makoto Kimura School of Agriculture, Nagoya University, Chikusa-ku, Nagoya, Japan
Pages 673-679 | Received 14 Sep 1991, Published online: 04 Jan 2012

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Yuichiro Furukawa, Yutaka Shiratori & Kazuyuki Inubushi. (2008) Depression of methane production potential in paddy soils by subsurface drainage systems. Soil Science and Plant Nutrition 54:6, pages 950-959.
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Jun Murase, Miho Shimizu, Motoki Hayashi, Kazuo Matsuya & Makoto Kimura. (2005) Vertical Changes in Bacterial Communities in Percolating Water of a Japanese Paddy Field as Revealed by PCR-DGGE. Soil Science and Plant Nutrition 51:1, pages 83-90.
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Yuichiro Furukawa & Kazuyuki Inubushi. (2004) Evaluation of slag application to decrease methane emission from paddy soil and fate of iron. Soil Science and Plant Nutrition 50:7, pages 1029-1036.
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Masahiko Katoh, Jun Murase, Motoki Hayashi, Kazuo Matsuya & Makoto Kimura. (2004) Nutrient leaching from the plow layer by water percolation and accumulation in the subsoil in an irrigated paddy field. Soil Science and Plant Nutrition 50:5, pages 721-729.
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Miho Shimizu, Motoki Hayashi, Kazuo Matsuya, Jun Murase & Makoto Kimura. (2002) Comparison of microbial communities in percolating water from plow layer and subsoil layer estimated by phospholipid fatty acid (PLFA) analysis. Soil Science and Plant Nutrition 48:6, pages 877-881.
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Nagamitsu Maie, Akira Watanabe & Makoto Kimura. (1997) Origin and properties of humus in the subsoil of irrigated rice paddies. Soil Science and Plant Nutrition 43:4, pages 901-910.
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Makoto Kimura, Terukazu Yamashita & Tatsuya Ikka. (1997) Bacterial numbers and biomass in leachate and in subsoil of a submerged paddy field. Soil Science and Plant Nutrition 43:3, pages 575-585.
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Jun Murase & Makoto Kimura. (1996) Methane production and its fate in paddy fields. Soil Science and Plant Nutrition 42:1, pages 187-190.
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Jun Murase & Makoto Kimura. (1994) Methane production and its fate in paddy fields VII. Electron acceptors responsible for anaerobic methane oxidation. Soil Science and Plant Nutrition 40:4, pages 647-654.
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Jun Murase & Makoto Kimura. (1994) Methane production and its fate in paddy fields. Soil Science and Plant Nutrition 40:3, pages 505-514.
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Jun Murase & Makoto Kimura. (1994) Methane production and its fate in paddy fields IV. sources of microorganisms and substrates responsible for anaerobic methane oxidation in subsoil. Soil Science and Plant Nutrition 40:1, pages 57-61.
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Ikuo Esaki, Akira Watanabe & Makoto Kimura. (1993) Water-soluble organic materials in paddy soil ecosystem. Soil Science and Plant Nutrition 39:3, pages 529-538.
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Articles from other publishers (32)

Andreas Kappler, Casey Bryce, Muammar Mansor, Ulf Lueder, James M. Byrne & Elizabeth D. Swanner. (2021) An evolving view on biogeochemical cycling of iron. Nature Reviews Microbiology 19:6, pages 360-374.
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Kalyanasundaram Geetha Thanuja & Subburamu Karthikeyan. (2020) Exploring bio-mitigation strategies to reduce carbon footprint in wetland paddy system. Bioresource Technology Reports 12, pages 100557.
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Michiel H in ‘t Zandt, Anniek EE de Jong, Caroline P Slomp & Mike SM Jetten. (2018) The hunt for the most-wanted chemolithoautotrophic spookmicrobes. FEMS Microbiology Ecology 94:6.
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Santosh Ranjan Mohanty, Bharati Kollah, Vineet K. Sharma, Amar Bahadur Singh, Muneshwar Singh & A. Subba Rao. (2013) Methane oxidation and methane driven redox process during sequential reduction of a flooded soil ecosystem. Annals of Microbiology 64:1, pages 65-74.
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J.P. Megonigal, M.E. Hines & P.T. Visscher. 2014. Treatise on Geochemistry. Treatise on Geochemistry 273 359 .
Jamil A. Sader, Keiko H. Hattori, Kerstin Brauneder & Stewart M. Hamilton. (2013) The influence of buried kimberlite on methane production in overlying sediment, Attawapiskat region, James Bay Lowlands, Ontario. Chemical Geology 360-361, pages 173-185.
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Steven J. Blazewicz, Dorthe G. Petersen, Mark P. Waldrop & Mary K. Firestone. (2012) Anaerobic oxidation of methane in tropical and boreal soils: Ecological significance in terrestrial methane cycling. Journal of Geophysical Research: Biogeosciences 117:G2.
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Shuwei Liu, Ling Zhang, Qiaohui Liu & Jianwen Zou. (2012) Fe(III) fertilization mitigating net global warming potential and greenhouse gas intensity in paddy rice-wheat rotation systems in China. Environmental Pollution 164, pages 73-80.
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F. Lopes, E. Viollier, A. Thiam, G. Michard, G. Abril, A. Groleau, F. Prévot, J.-F. Carrias, P. Albéric & D. Jézéquel. (2011) Biogeochemical modelling of anaerobic vs. aerobic methane oxidation in a meromictic crater lake (Lake Pavin, France). Applied Geochemistry 26:12, pages 1919-1932.
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K. A. Smemo & J. B. Yavitt. (2011) Anaerobic oxidation of methane: an underappreciated aspect of methane cycling in peatland ecosystems?. Biogeosciences 8:3, pages 779-793.
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Witness Mojeremane, Robert M. Rees & Maurizio Mencuccini. (2009) Effects of site preparation for afforestation on methane fluxes at Harwood Forest, NE England. Biogeochemistry 97:1, pages 89-107.
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Zhengqin Xiong & M. A. K. Khalil. 2009. Climate Change and Crops. Climate Change and Crops 113 132 .
S. N. Singh, Larisha Tyagi & Sadhna Tiwari. 2009. Climate Change and Crops. Climate Change and Crops 345 375 .
Akira Watanabe, Masahiro Kasuya, Ayumi Tsunekawa, Mieko Maeda, Atsuko Sugimoto & Makoto Kimura. (2008) Spatial and seasonal variations in CH4 in groundwater used for agriculture in central Japan. Agriculture, Ecosystems & Environment 127:3-4, pages 207-214.
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Kewei Yu, Frank Böhme, Jörg Rinklebe, Heinz-Ulrich Neue & Ronald D. DeLaune. (2007) Major Biogeochemical Processes in Soils‐A Microcosm Incubation from Reducing to Oxidizing Conditions. Soil Science Society of America Journal 71:4, pages 1406-1417.
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Ralf Conrad. 2007. 1 63 .
Jun Murase, Yuri Matsui, Masahiko Katoh, Atsuko Sugimoto & Makoto Kimura. (2006) Incorporation of 13C-labeled rice-straw-derived carbon into microbial communities in submerged rice field soil and percolating water. Soil Biology and Biochemistry 38:12, pages 3483-3491.
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Kazunori Minamikawa, Naoki Sakai & Kazuyuki Yagi. (2006) Methane Emission from Paddy Fields and its Mitigation Options on a Field Scale. Microbes and Environments 21:3, pages 135-147.
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Makoto Kimura, Jun Murase & Yahai Lu. (2004) Carbon cycling in rice field ecosystems in the context of input, decomposition and translocation of organic materials and the fates of their end products (CO2 and CH4). Soil Biology and Biochemistry 36:9, pages 1399-1416.
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M. Katoh, A. Iwata, I. Shaku, Y. Nakajima, K. Matsuya & M. Kimura. (2006) Impact of water percolation on nutrient leaching from an irrigated paddy field in Japan. Soil Use and Management 19:4, pages 298-304.
Crossref
Ralf Conrad & Peter Frenzel. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
J.P. Megonigal, M.E. Hines & P.T. Visscher. 2003. Treatise on Geochemistry. Treatise on Geochemistry 317 424 .
Ralf Conrad & Peter Frenzel. 2003. Encyclopedia of Agrochemicals. Encyclopedia of Agrochemicals.
S. Kumaraswamy, B. Ramakrishnan & N. Sethunathan. (2001) Methane Production and Oxidation in an Anoxic Rice Soil as Influenced by Inorganic Redox Species. Journal of Environmental Quality 30:6, pages 2195-2201.
Crossref
A Brune. (2000) Life at the oxic–anoxic interface: microbial activities and adaptations. FEMS Microbiology Reviews 24:5, pages 691-710.
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P. M. van Bodegom, P. A. Leffelaar, A. J. M. Stams & R. Wassmann. 2000. Methane Emissions from Major Rice Ecosystems in Asia. Methane Emissions from Major Rice Ecosystems in Asia 231 248 .
Peter Frenzel. 2000. Advances in Microbial Ecology. Advances in Microbial Ecology 85 114 .
R Conrad. (1996) Soil microorganisms as controllers of atmospheric trace gases (H2, CO, CH4, OCS, N2O, and NO). Microbiological Reviews 60:4, pages 609-640.
Crossref
T. M. Hoehler & M. J. Alperin. 1996. Microbial Growth on C1 Compounds. Microbial Growth on C1 Compounds 326 333 .
Witold Stępniewski & Małgorzata Pawłowska. 1996. Chemistry for the Protection of the Environment 2. Chemistry for the Protection of the Environment 2 75 92 .
Derek R. Lovley. 1995. 175 231 .
A. Watanabe, M. Kimura, M. Kasuya, M. Kotake & T. Katoh. (2012) Methane in groundwater used for Japanese agriculture: Its relationship to other physico‐chemical properties and possible tropospheric source strength. Geophysical Research Letters 21:1, pages 41-44.
Crossref

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