J
Jun Murase
Researcher at Nagoya University
Publications - 100
Citations - 2555
Jun Murase is an academic researcher from Nagoya University. The author has contributed to research in topics: Temperature gradient gel electrophoresis & Methane. The author has an hindex of 26, co-authored 97 publications receiving 2222 citations. Previous affiliations of Jun Murase include Max Planck Society & University of Shiga Prefecture.
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Journal ArticleDOI
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)
TL;DR: In this article, the authors evaluated the kind and abundance of organic materials entering carbon cycling in the rice field ecosystem, and the decomposition of plant residues and soil organic matter in rice fields.
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A methane-driven microbial food web in a wetland rice soil.
Jun Murase,Peter Frenzel +1 more
TL;DR: It is suggested that methane carbon is incorporated into non-methanotrophic pro- and microeukaryotes probably via grazing, and that methane oxidation is a shaping force of the micro eukaryotic community depending on methane availability.
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Impact of Protists on the Activity and Structure of the Bacterial Community in a Rice Field Soil
TL;DR: The authors' observations fit well into the overall framework developed for protistan grazing, but with some modifications pertinent to the wetland situation: O2 was a major control, and O2 availability may have limited directly and indirectly the development of protists.
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Linking microbial community dynamics to rhizosphere carbon flow in a wetland rice soil
TL;DR: This study suggests that microbial populations in rice soil differ greatly in their responses to plant photosynthate input, suggesting that carbon cycling between soil and atmosphere needs to be understood more closely.
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Low nitrogen fertilization adapts rice root microbiome to low nutrient environment by changing biogeochemical functions.
Seishi Ikeda,Kazuhiro Sasaki,Takashi Okubo,Akifumu Yamashita,Kimihiro Terasawa,Zhihua Bao,Dongyan Liu,Takeshi Watanabe,Jun Murase,Susumu Asakawa,Shima Eda,Hisayuki Mitsui,Tadashi Sato,Kiwamu Minamisawa +13 more
TL;DR: The results suggest that low-N-fertilizer management is an important factor in shaping the microbial community structure containing key microbes for plant associations and biogeochemical processes in paddy rice ecosystems.