Obserwuj
Jun Murase
Jun Murase
Graduate School of Bioagricultural Sciences
Zweryfikowany adres z agr.nagoya-u.ac.jp
Tytuł
Cytowane przez
Cytowane przez
Rok
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)
M Kimura, J Murase, Y Lu
Soil Biology and Biochemistry 36 (9), 1399-1416, 2004
3222004
Impact of protists on the activity and structure of the bacterial community in a rice field soil
J Murase, M Noll, P Frenzel
Applied and environmental microbiology 72 (8), 5436-5444, 2006
1452006
Linking microbial community dynamics to rhizosphere carbon flow in a wetland rice soil
Y Lu, J Murase, A Watanabe, A Sugimoto, M Kimura
FEMS Microbiology Ecology 48 (2), 179-186, 2004
1342004
Low nitrogen fertilization adapts rice root microbiome to low nutrient environment by changing biogeochemical functions
S Ikeda, K Sasaki, T Okubo, A Yamashita, K Terasawa, Z Bao, D Liu, ...
Microbes and environments 29 (1), 50-59, 2014
1302014
A methane‐driven microbial food web in a wetland rice soil
J Murase, P Frenzel
Environmental microbiology 9 (12), 3025-3034, 2007
1282007
Selective grazing of methanotrophs by protozoa in a rice field soil
J Murase, P Frenzel
FEMS microbiology ecology 65 (3), 408-414, 2008
1162008
Inhibitory effect of light on methane oxidation in the pelagic water column of a mesotrophic lake (Lake Biwa, Japan)
J Murase, A Sugimoto
Limnology and oceanography 50 (4), 1339-1343, 2005
1072005
Bacterial populations assimilating carbon from 13C-labeled plant residue in soil: analysis by a DNA-SIP approach
CG Lee, T Watanabe, Y Sato, J Murase, S Asakawa, M Kimura
Soil Biology and Biochemistry 43 (4), 814-822, 2011
902011
Dynamics of methane in mesotrophic Lake Biwa, Japan
J Murase, Y Sakai, A Kametani, A Sugimoto
Forest Ecosystems and Environments: Scaling Up from Shoot Module to …, 2005
712005
Methane production and its fate in paddy fields: VI. Anaerobic oxidation of methane in plow layer soil
J Murase, M Kimura
Soil science and plant nutrition 40 (3), 505-514, 1994
71*1994
Nutrient leaching from the plow layer by water percolation and accumulation in the subsoil in an irrigated paddy field
M Katoh, J Murase, M Hayashi, K Matsuya, M Kimura
Soil science and plant nutrition 50 (5), 721-729, 2004
702004
Anaerobic reoxidation of Mn2+, Fe2+, S0 and S2–in submerged paddy soils
J Murase, M Kimura
Biology and fertility of soils 25, 302-306, 1997
701997
Methane production and its fate in paddy fields: II. Oxidation of methane and its coupled ferric oxide reduction in subsoil
Y Miura, A Watanabe, J Murase, M Kimura
Soil science and plant nutrition 38 (4), 673-679, 1992
701992
Methane emission from plots with differences in fertilizer application in Thai paddy fields
P Jermsawatdipong, J Murase, P Prabuddham, Y Hasathon, ...
Soil Science and Plant Nutrition 40 (1), 63-71, 1994
671994
Methane production and its fate in paddy fields: I. Effects of rice straw application and percolation rate on the leaching of methane and other soil components into the subsoil
M Kimura, Y Miura, A Watanabe, J Murase, S Kuwatsuka
Soil Science and Plant Nutrition 38 (4), 665-672, 1992
661992
Protist-enhanced survival of a plant growth promoting rhizobacteria, Azospirillum sp. B510, and the growth of rice (Oryza sativa L.) plants
R Asiloglu, K Shiroishi, K Suzuki, OC Turgay, J Murase, N Harada
Applied Soil Ecology 154, 103599, 2020
652020
Sources of dissolved methane in Lake Biwa
J Murase, Y Sakai, A Sugimoto, K Okubo, M Sakamoto
Limnology 4, 91-99, 2003
582003
Top-down effects of protists are greater than bottom-up effects of fertilisers on the formation of bacterial communities in a paddy field soil
R Asiloglu, K Kenya, SO Samuel, B Sevilir, J Murase, K Suzuki, N Harada
Soil Biology and Biochemistry 156, 108186, 2021
552021
Suppression of methane fluxes from flooded paddy soil with rice plants by foliar spray of nitrogen fertilizers
M Kimura, K Asai, A Watanabe, J Murase, S Kuwatsuka
Soil Science and Plant Nutrition 38 (4), 735-740, 1992
521992
Identification of microbial communities that assimilate substrate from root cap cells in an aerobic soil using a DNA-SIP approach
Y Li, CG Lee, T Watanabe, J Murase, S Asakawa, M Kimura
Soil Biology and Biochemistry 43 (9), 1928-1935, 2011
512011
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