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Soil Science and Plant Nutrition Volume 51, 2005 - Issue 1
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Original Articles

Effect of Free-Air CO2 Enrichment (FACE) on Methanogenic Archaeal Communities Inhabiting Rice Roots in a Japanese Rice Field

Tomoko Hashimoto-Yasuda Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, 464–8601, Japan
,
Makoto Ikenaga Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, 464–8601, Japan
,
Susumu Asakawa Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, 464–8601, Japan
,
Han-Yong Kim College of Agriculture and Life Science, Chonnam National University, Buk-gu, Gwangiu, 500–757, South Korea
,
Masumi Okada Department of Biology and Environmental Sciences, National Agricultural Research Center for Tohoku Region, Morioka, 020–0198 Japan
,
Kazuhiko Kobayashi Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, 113–8657, Japan
&
Makoto Kimura Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya, 464–8601, Japan
 show all
Pages 91-100 | Received 08 Jul 2004, Accepted 07 Oct 2004, Published online: 17 Dec 2010

Citations (13)

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Read on this site (3)

Susumu Asakawa. (2021) Ecology of methanogenic and methane-oxidizing microorganisms in paddy soil ecosystem. Soil Science and Plant Nutrition 67:5, pages 520-526.
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Saman Bowatte, Susumu Asakawa, Masumi Okada, Kazuhiko Kobayashi & Makoto Kimura. (2007) Effect of elevated atmospheric CO2 concentration on ammonia oxidizing bacteria communities inhabiting in rice roots. Soil Science and Plant Nutrition 53:1, pages 32-39.
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Masatsugu Yamazaki, Masumi Okada, Kazuhiko Kobayashi & Makoto Kimura. (2005) Effect of Free-Air CO2 Enrichment (FACE) on the Community Structure of Aquatic Organisms in Floodwater of a Japanese Paddy Field during the Flooding Period of Rice Cultivation. Soil Science and Plant Nutrition 51:2, pages 271-279.
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Articles from other publishers (10)

Dong Li, Haowei Ni, Shuo Jiao, Yahai Lu, Jizhong Zhou, Bo Sun & Yuting Liang. (2021) Coexistence patterns of soil methanogens are closely tied to methane generation and community assembly in rice paddies. Microbiome 9:1.
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Navnita Srivastva, Alpana Singh & Suresh K. Dubey. 2018. In Silico Approach for Sustainable Agriculture. In Silico Approach for Sustainable Agriculture 51 68 .
Singh Alpana, P. Vishwakarma, T.K. Adhya, K. Inubushi & S.K. Dubey. (2017) Molecular ecological perspective of methanogenic archaeal community in rice agroecosystem. Science of The Total Environment 596-597, pages 136-146.
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Dongyan Liu, Kanako Tago, Masahito Hayatsu, Takeshi Tokida, Hidemitsu Sakai, Hirofumi NakamuraYasuhiro Usui, Toshihiro Hasegawa & Susumu Asakawa. (2016) Effect of Elevated CO<sub>2</sub> Concentration, Elevated Temperature and No Nitrogen Fertilization on Methanogenic Archaeal and Methane-Oxidizing Bacterial Community Structures in Paddy Soil. Microbes and environments Microbes and Environments 31:3, pages 349-356.
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Dror Minz, Maya Ofek & Yitzhak Hadar. 2013. The Prokaryotes. The Prokaryotes 56 84 .
Guang Cheng Liu, Takesi Tokida, Toshinori Matsunami, Hirofumi Nakamura, Masumi Okada, Ryoji Sameshima, Toshihiro Hasegawa & Shu‐ichi Sugiyama. (2012) Microbial community composition controls the effects of climate change on methane emission from rice paddies. Environmental Microbiology Reports 4:6, pages 648-654.
Crossref
Takeshi Watanabe, Makoto Kimura & Susumu Asakawa. (2010) Diversity of methanogenic archaeal communities in Japanese paddy field ecosystem, estimated by denaturing gradient gel electrophoresis. Biology and Fertility of Soils 46:4, pages 343-353.
Crossref
Ralf Conrad. 2007. 1 63 .
Takeshi Watanabe, Makoto Kimura & Susumu Asakawa. (2006) Community structure of methanogenic archaea in paddy field soil under double cropping (rice–wheat). Soil Biology and Biochemistry 38:6, pages 1264-1274.
Crossref
Ralf Conrad, Christoph Erkel & Werner Liesack. (2006) Rice Cluster I methanogens, an important group of Archaea producing greenhouse gas in soil. Current Opinion in Biotechnology 17:3, pages 262-267.
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