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Soil Science and Plant Nutrition Volume 38, 1992 - Issue 3
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Original Articles

Decrease of methane concentration and increase of nitrogen gas concentration in the rhizosphere by hygrophytes

Tadao Wagatsuma Laboratory of Soil Science and Plant Nutrition, Yamagata University, Tsuruoka, Japan; Laboratory of Microbial Ecology, Faculty of Agriculture, Yamagata University, Tsuruoka, Japan
,
Kouichi Jujo Laboratory of Soil Science and Plant Nutrition, Yamagata University, Tsuruoka, Japan; Laboratory of Microbial Ecology, Faculty of Agriculture, Yamagata University, Tsuruoka, Japan
,
Keitaro Tawaraya Laboratory of Soil Science and Plant Nutrition, Yamagata University, Tsuruoka, Japan; Laboratory of Microbial Ecology, Faculty of Agriculture, Yamagata University, Tsuruoka, Japan
,
Tsuyoshi Sato Laboratory of Soil Science and Plant Nutrition, Yamagata University, Tsuruoka, Japan; Laboratory of Microbial Ecology, Faculty of Agriculture, Yamagata University, Tsuruoka, Japan
&
Atsuko Ueki Laboratory of Soil Science and Plant Nutrition, Yamagata University, Tsuruoka, Japan; Laboratory of Microbial Ecology, Faculty of Agriculture, Yamagata University, Tsuruoka, Japan
Pages 467-476 | Received 11 Oct 1991, Published online: 04 Jan 2012

Citations (11)

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Atsuko Ueki, Satoe Nishida, Michiho Kumakura, Nobuo Kaku, Yuki Kainuma, Chiaki Hattori, Hiroshi Fujii & Katsuji Ueki. (1999) Effects of organic matter application, temperature, and sunshine duration on seasonal and annual variations of methanogenic activity in wetland rice field soil. Soil Science and Plant Nutrition 45:4, pages 811-823.
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Articles from other publishers (10)

Jean Yves DUKUZUMUREMYI, Samuel Munyaka KIMANI, Weiguo CHENG, Christian NKURUNZIZA, Margi Asih MAIMUNAH, Eric CANTONA, Shuirong TANG, Shigeto SUDO, Yuka SASAKI & Hideki MURAYAMA. (2024) No-weeding suppressed methane emissions by Takanari and Koshihikari rice varieties under organic farming. Journal of Agricultural Meteorology 80:1, pages 12-21.
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Tadao Wagatsuma, Kazuhiro Tanaka, Yuuichirou Iino, Tsuyoshi Satou, Md. Shahadat Hossain Khan & Keitaro Tawaraya. (2020) Burr marigold (Bidens tripartita L.) roots directly and immediately scavenge rhizosphere methane with highly exuded hydrogen peroxide via a rhizosphere Fenton reaction. Plant and Soil 459:1-2, pages 289-313.
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S. N. Singh, Larisha Tyagi & Sadhna Tiwari. 2009. Climate Change and Crops. Climate Change and Crops 345 375 .
Birgit W. Hütsch. (2001) Methane oxidation in non-flooded soils as affected by crop production — invited paper. European Journal of Agronomy 14:4, pages 237-260.
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Kazuyuki Inubushi, Hotaka Sugii, Shouji Nishino & Eisho Nishino. (2001) Effect of aquatic weeds on methane emission from submerged paddy soil. American Journal of Botany 88:6, pages 975-979.
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Peter Frenzel, Ulrike Bosse & Peter H Janssen. (1999) Rice roots and methanogenesis in a paddy soil: ferric iron as an alternative electron acceptor in the rooted soil. Soil Biology and Biochemistry 31:3, pages 421-430.
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A. Chidthaisong & I. Watanabe. (1997) Changes in concentration and? 13C values of soil-trapped CH4 and C02 in flooded rice soil. Biology and Fertility of Soils 24:1, pages 70-75.
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R S Hanson & T E Hanson. (1996) Methanotrophic bacteria. Microbiological Reviews 60:2, pages 439-471.
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B. Gilbert & P. Frenzel. (1995) Methanotrophic bacteria in the rhizosphere of rice microcosms and their effect on porewater methane concentration and methane emission. Biology and Fertility of Soils 20:2, pages 93-100.
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B.H. Byrnes, E.R. Austin & B.K. Tays. (1995) Methane emissions from flooded rice soils and plants under controlled conditions. Soil Biology and Biochemistry 27:3, pages 331-339.
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