Rchr
J-GLOBAL ID:201901000835792914   Update date: Apr. 15, 2026

Masuda Yoko

マスダ ヨウコ | Masuda Yoko
Affiliation and department:
The University of Tokyo Graduate School of Agricultural and Life Sciences

About The University of Tokyo Graduate School of Agricultural and Life Sciences


Research field  (1): Plant nutrition, soil science
Research keywords  (5): 安定同位体 ,  Iron reducing bacteria ,  Nitrogen fixation ,  Metatranscriptome ,  Metagenome
Research theme for competitive and other funds  (9):
  • 2026 - 2029 水田土壌の酸化鉄鉱物の結晶性変換要因の解明と窒素固定増強・メタン生成抑制への応用
  • 2023 - 2026 水田土壌におけるアンモニア生成微生物コンソーシアムとその制御要因の解明
  • 2022 - 2026 Physiological and microbial analysis on endophytic N fixation in rice stem and its improvement
  • 2022 - 2026 Physiological and microbial analysis on endophytic N fixation in rice stem and its improvement
  • 2020 - 2025 Studies on nitrogen fixation of iron reducing bacteria as a key process supporting sustainable nitrogen fertility of rice paddy soil : towards low nitrogen agriculture
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Papers (39):
  • Yoko Masuda, Keishi Senoo. Iron oxide minerals: promising materials for sustainable rice production via stimulating iron-reducing diazotrophs. Bioscience, Biotechnology, and Biochemistry. 2025
  • Chaonan Wang, Yoko Masuda, Keishi Senoo. Ammonium Generating Microbial Consortia in Paddy Soil Revealed by DNA-Stable Isotope Probing and Meta-transcriptomics. Microorganisms. 2025. 13. 1448
  • Li-Yen Lin, Zhihang Feng, Hikaru Asano, Yoshihiro Ohmori, Hirotomo Ohba, Yoko Masuda, Keishi Senoo, Toru Fujiwara. Genome-wide association study identifies key chromosomal regions in rice promoting the enrichment of diazotrophic iron-reducing bacteria in paddy soil. Plant and Soil. 2025
  • Kazumori Mise, Yoko Masuda, Keishi Senoo, Hideomi Itoh. Betaproteobacterial clade II nosZ activated under high N2O concentrations in paddy soil microcosms. 2025
  • Takanori Okamoto, Yukina Hotta, Rina Shinjo, Yoko Masuda, Arisa Nishihara, Ryosuke Sasaki, Masami Yokota Hirai, Reo Nishiwaki, Sota Miyado, Daisuke Sugiura, et al. Unelongated Stems are an Active Nitrogen-Fixing Site in Rice Stems Supported by Both Sugar and Methane Under Low Nitrogen Conditions. Rice. 2025. 18. 1
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MISC (9):
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Lectures and oral presentations  (12):
  • Nitrogen fixation by iron-reducing bacteria in rice paddy soil and its enhancement via iron application
    (Biotechnology Institute Weekly Seminar Series, The University of Minnesota 2024)
  • メタトランスクリプトーム解析を基点とした水田土壌の窒素・炭素循環微生物研究の新展開
    (土壌肥料学会2024福岡大会シンポジウム 2024)
  • 水田土壌の窒素固定やメタン生成・消去を担う微生物群の同定と応用
    (2023年度(第22回)日本農学進歩賞授賞式 2023)
  • 水田土壌における窒素および炭素循環を駆動する新規微生物群の発見と応用
    (第41回(2023年度)日本土壌肥料学会奨励賞授賞式 2023)
  • 鉄と微生物をイネの肥料にする新技術
    (国際基礎科学年シンポジウム 2023)
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Education (3):
  • 2014 - 2017 The University of Tokyo Graduate School of Agricultural and Life Sciences Applied Biological Chemistry
  • 2012 - 2014 The University of Tokyo Graduate School of Agricultural and Life Sciences Applied Biological Chemistry
  • 2008 - 2012 University of Tsukuba School of Science and Engineering, College of Engineering Sciences
Professional career (1):
  • 博士(農学) (東京大学大学院)
Awards (11):
  • 2023/10 - 公益財団法人農学会 第22回日本農学進歩賞 水田土壌の窒素固定やメタン生成・消去を担う微生物の同定と応用
  • 2023/09 - 日本土壌肥料学会 ポスター賞 水田土壌への酸化鉄鉱物の添加 による鉄還元菌の活性化を介したメタン生成抑制
  • 2023/09 - 日本土壌肥料学会 若手口頭発表優秀賞 水田土壌に散布された純鉄粉から生成した低結晶性鉄鉱物による鉄還元菌窒素固定活性の増強
  • 2022/10 - 第41回 日本土壌肥料学会奨励賞 水田土壌における窒素および炭素循環を駆動する新規微生物群の発見と応用
  • 2022/09 - 日本土壌肥料学会 若手口頭発表優秀賞 土壌窒素固定マイクロバイオームの全球的解明:方法論から大規模解析へ
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Association Membership(s) (3):
JAPANESE SOCIETY OF SOIL SCIENCE AND PLANT NUTRITION ,  JAPANESE SOCIETY OF SOIL MICROBIOLOGY ,  THE JAPANESE SOCIETY OF MICROBIAL ECOLOGY
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