Rchr
J-GLOBAL ID:200901063229576682
Update date: Oct. 01, 2024
Makita Hiroko
マキタ ヒロコ | Makita Hiroko
Affiliation and department:
Job title:
Associate Professor
Other affiliations (4):
-
Japan Agency for Marine-Earth Science and Technology
Visiting researcher
-
Kanagawa Institute of Technology
Visiting Associate Professor
-
Runde Miljøsenter
Visiting researcher
-
University of Bergen
Centre for Deep Sea Research
Visiting researcher
Homepage URL (1):
https://olcr.kaiyodai.ac.jp/db/profile.php?yomi=MAKITA,Hiroko
Research field (3):
Applied microbiology
, Marine and maritime engineering
, Biogeoscience
Research keywords (23):
Environmental microbiology
, Astrobiology
, Geomicrobiology
, Marine engineering
, Biochemical, Biological and Biophysical Engineering
, Extremophiles
, Deep sea
, Hydrothermal vent fields
, Cement
, Concrete
, Mineral resources
, Carbonate minerals
, Organic production
, Carbon fixation
, Marine debris
, Lithoautotroph
, Iron
, Manganese
, sulfur
, Iron oxidizing bacteria
, Mn-oxidizing bacteria
, Salt lake
, Water treatment
Research theme for competitive and other funds (7):
- 2022 - 2027 Towards improving the durability of concrete materials using microbial functions in deep-sea environments
- 2020 - 2022 Possibility of biosphere driven by iron
- 2018 - 2021 The challenge of using microbial functions to improve the durability of concrete materials
- 2015 - 2019 Study on the mechanisms of biogenic basalt alteration by synchrotron-based X-ray microscopy
- 2014 - 2017 Structural analysis of peculiar organic materials produced by marine bacteria: Mechanism for microbial conversion of CO2 in the seawater to organic materials
- 2010 - 2012 Microbial corrosion in the deep sea environment
- 2008 - 2010 Towards a molecular understanding of symbiotic mechanism of chemoautotrophs in deep-sea hydrothermal vent environments.
Show all
Papers (38):
-
Shigeshi Fuchida, Keishi Oyama, Jifeng Xue, Chiharu Tokoro, Yuma Shimizu, Hibiki Miura, Kokoro Kitagawa, Hiroko Makita. Mechanism of pyrite depression by marine Fe(II)-oxidizing bacteria in seawater flotation. Minerals Engineering. 2024. 218. 109029-109029
-
Fumihiro Matsu'ura, Hiroko Makita, Ken Takai, Mayuko Nakagawa, Yuichiro Ueno. Large sulfur isotope fractionation during abiotic consumption of hydrogen sulfide after cessation of bacterial growth in batch culture experiments of sulfate reducing bacteria. Earth and Planetary Science Letters. 2023. 624. 118446-118446
-
Keisuke Takahashi, Mari Kobayashi, Yuichiro Kawabata, Takafumi Kasaya, Mitsuyasu Iwanami, Toshiro Yamanaka, Shun Nomura, Hiroko Makita. Utilization of cement-based materials for deep sea infrastructure. 2023 IEEE Underwater Technology (UT). 2023
-
Kotaro Yoda, Toshiyuki Takagi, Tomoko Koito, Masahiko Okai, Hiroko Makita, Satoshi Mitsunobu, Takao Yoshida, Koji Inoue. Heterologous expression and functional characterization of cysteamine dioxygenase from the deep-sea mussel Bathymodiolus septemdierum. Fisheries Science. 2023
-
Pierre Methou, Masanari Hikosaka, Chong Chen, Hiromi K Watanabe, Norio Miyamoto, Hiroko Makita, Yoshio Takahashi, Robert G Jenkins. Symbiont Community Composition in Rimicaris kairei Shrimps from Indian Ocean Vents with Notes on Mineralogy. Applied and environmental microbiology. 2022. e0018522
more...
MISC (17):
-
Yokota Eri, Yamanaka Toshiro, Okamura Kei, Noguchi Takuro, Toki Tomohiro, Tsunogai Urumu, Ohnishi Yuji, Makita Hiroko. Geochemical study of High-T hydrothermal fluid and chimney obtained from Tarama Hydrothermal Vent Field in southern Okinawa Trough. Abstracts of Annual Meeting of the Geochemical Society of Japan. 2019. 66. 117
-
中井 亮佑, 熊谷 洋平, 安田 まり奈, 牧田 寛子. The 11th Asian Symposium of Microbial Ecology(ASME)報告. 日本微生物生態学会誌. 2019. 34. 2. 74-75
-
鈴木優美, 鈴木優美, 牧田寛子, 高井研, 高村岳樹, 光延聖. 深海環境における鉄鉱物利用微生物の解明. ブルーアースサイエンス・テク要旨集. 2018. 2018
-
鈴木優美, 鈴木優美, 牧田寛子, 光延聖, 大橋優莉, 高村岳樹, 高井研. 深海環境における鉄鉱物利用微生物生態系の解明. 日本微生物生態学会大会(Web). 2017. 2017
-
牧田寛子. 茶色い沈殿物は面白い. 生物工学会誌. 2016. 94. 6. 343
more...
Lectures and oral presentations (74):
-
Elucidating the effects of microbial functions on cement-based materials in marine environments
(The 71st Annual Meeting of the Geochemical Society of Japan 2024)
-
Use of marine Fe-Oxidizing Bacteria in Seawater Flotation Beneficiation and Elucidation of Pyrite Surface Hydrophilization Mechanism
(the 71st Annual Meeting of the Geochemical Society of Japan 2024)
-
Investigation of the Protective Mechanism of Cement-based Materials by Marine Bacteria
(MMIJ Fall Meeting 2024, Akita 2024)
-
Investigation of;he;Effects of Composition Variations in;Cementitious Materials on Adhering Microorganisms in;Deep-Sea Environments
(MMIJ Fall Meeting 2024, Akita 2024)
-
Investigation of Pyrite Depression Mechanism for Selective Chalcopyrite Recovery Using Marine Fe-Oxidizing Bacteria in Seawater Flotation
(The 63rd Annual Conference of Metallurgists (COM 2024) 2024)
more...
Professional career (1):
- Ph.D. (Yokohama National University)
Awards (7):
- 2024/08 - The Mining and Material Processing Institute of Japan - Kantou Branch The Best poster award, the 21th "Resources, Materials, Environment" Technology and Research Exchange Meeting Investigation of the Protective Mechanism of Cement-based Materials by Marine Bacteria
- 2024/08 - The Mining and Material Processing Institute of Japan - Kantou Branch The Best poster award, the 21th "Resources, Materials, Environment" Technology and Research Exchange Meeting Investigation of the Effects of Composition Variations in Cementitious Materials on Adhering Microorganisms in Deep-Sea Environments
- 2024/06 - The Resources Processing Society of Japan The Best poster award Application of marine iron-oxidizing bacteria to seawater-based flotation method and elucidation of pyrite hydrophilization mechanism
- 2024/03 - 海と地球のシンポジウム2023 「海と地球のシンポジウム2023」学生優秀発表賞 セメント系材料表面から単離した海洋性細菌のバイオフィルム形成能及びその機能の解明
- 2023/08 - The Mining and Material Processing Institute of Japan - Kantou-Branch The Best poster award, the 20th "Resources, Materials, Environment" Technology and Research Exchange Meeting Carbonate minerals formed on the surface of cementitious materials by marine bacteria
- 2022/08 - The Mining and Material Processing Institute of Japan - Kantou Branch The Best poster award, the 19th "Resources, Materials, Environment" Technology and Research Exchange Meeting Elucidation of microorganisms and their functions that affect cementitious materials in deep-sea environments
- 2019/05 - Japan Cement Association Best Paper Award CHANGES IN PHYSICAL PROPERTIES AND HYDRATES OF CEMENT-BASED MORTARS ON THE DEEP SEA FLOOR
Show all
Association Membership(s) (7):
THE JAPANESE SOCIETY OF MICROBIAL ECOLOGY
, JAPANESE SOCIETY FOR EXTREMOPHILES
, JAPAN GEOSCIENCE UNION
, THE GEOCHEMICAL SOCIETY OF JAPAN
, 日本生物工学会
, International Society for Environmental Biogeochemistry (ISEB)
, The Mining and Materials Processing Institute of Japan
Return to Previous Page