KYUSHU UNIVERSITY MICROBIAL ECOLOGY
| Prof | Natsuko Hamamura | 1. Environmental microbiology. 2. Geomicrobiology of metalloids. 3. Microbial ecology in the extreme environment. |
|---|---|---|
| B4 | Seidai Okamoto | |
| B4 | Seie Nakamura | |
| staff | Yuri Sakai | 2017/12~ |
| Past Member's research theme | ||
| Choi Wonjoon | 2016 B.S. | Distribution and diversity of anaerobic arsenite oxidase gene, arx, in the arsenic contaminated environments |
|---|---|---|
| Misaki Eto | 2018 M.S. | Diversity and function of rumen microbiomein Sika deer (Cervus nippon yakushimae) from Yakushima Island, Japan |
| Yoriko Yamashita | 2018 M.S. | Phylogenetic and physiological characterization of antimony-reducing consortia community members |
| ZHENG CHEN | 2018 B.S. | The effect of two-component system PhoRB on gene expression of anaerobic arsenic oxidase Arx |
| Seiichirou Takayama | 2019 M.S. | PhyAnalysis of bacterial communities in complicated microenvironment of soil. |
| HE XIN | 2019 M.S. | Identification of antimony oxidation mechanism in a bacterial consortium obtained from Ichinokawa Antimony Mine |
| Tomotaka Ohkubo | 2020 M.S. | Investigation of microbial harmful element metabolism by extracellular electron transfer pathway using electrochemical culture method |
| Masatoshi Ohta | 2020 B.S. | Exploring the effects of soil physiochemical conditions on microbial community-Detection of the key-stone-species by network analysis |
| Daisuke Yamashita | 2021 M.S. | The investigation of antimony-reducing microbial consortium for the ability to reduce electron mediators and soluble iron (III) |
| Shogo Ohtsuka | 2021 B.S. | Isolation of iron-metabolizing bacteria in heavy-metal contaminated environments and investigation of their metabolic activities |
| Daichi Miyazaki | 2022 M.S. | Elucidating the mechanism of antimony metabolism in facultatively anaerobic antimony-oxidizing bacterium |
| Yuuya Yoshimura | 2022 M.S. | Investigation of Arsenic and Antimony Resistance and Electroactivity of Microorganisms Isolated from Stibnite Mine Tailings |
| Saki Yurioka | 2022 B.S. | Isolation of antimony-tolerant phototrophic bacterium from heavy-metals contaminated environmental samples |
| Tsuyoshi Hokimoto | 2023 M.S. | Investigation of the mechanism of antimony-iron mineral reduction by metal-reducing microbial consortium |
| Utaho Nobuhisa | 2024 M.S. | Elucidation of the plasmid mechanism involved in Sb(III)resistance in the antimony-oxidizing bacterium |
| Atsushi Kuriaki | 2024 B.S. | Investigation of plasmid loss in facultative anaerobic antimony-oxidizing bacteria through long-term subculturing |
| Akane Suyama | 2024 B.S. | Search for arsenic or antimony oxidizing or reducing bacteria from in situ electrophilic microbial enrichment samples in mine wastewater |
| Ni Sonyue | 2025 M.S. | Exploring Electrophilic Microbes and Their Metabolism Associated with Mine Wastewater Site |
| Ohmi Kodama | 2025 M.S. | Comparative Investigation of Antimony Oxydation Mechanisms and Physiological Properties of Two Phylogenetically Different Antimony-Oxidizing Bacterial Strains |
| Chisato Takeoka | 2025 B.S. | Interaction between bacteria and minerals:The effect of microbial mineral metabolism on the environmental behavior of toxic elements |
| Ryota Iwasaki | 2025 B.S. | Investigation of natural plasmid loss during long-term subculturing and horizontal transfer to other species in antimony-oxidizing bacteria |
| Yurie Matsuda | Technical assistant | 2016/5~2017/7 |
| Ayako Yamate | Technical assistant | 2017/8~2017/12 |
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