NOMAKI Hidetaka

ノマキヒデタカ | NOMAKI Hidetaka

Affiliation and department：

Research field (2)： Biogeoscience , Environmental dynamics

Research keywords (4)：深海生態系 , 生物地球化学 , 原生生物 , 海洋環境汚染

Research theme for competitive and other funds (22)：

2023 - 2027 Refinement of marine nitrogen isoscapes as a basis for Iso-logging
2023 - 2026 天然放射性炭素で定量化する深海熱水域固有の共生-寄生カイアシ類の栄養生態的多様性
2020 - 2025 Seeing through the sea floor: Development of a basis for evaluation of spatio-temporal environmental dynamics in seafloor surface sediments using acoustic technology
2020 - 2025 生分解開始スイッチ機能を有する海洋分解性プラスチックの研究開発
2022 - 2024 有孔虫の脱窒メカニズムを理解するための壁孔、液胞のバイオメトリクス

2021 - 2024 単細胞生物の複雑性:有孔虫サブシングルセル遺伝子発現と超微細構造解析で迫る

2023 - 2023 有孔虫の細胞内機能分化に関わる微細構造知見の深化・共有

2021 - 2023 Activity, function and importance of endobiotic bacteria in deep-sea benthic foraminiferal ecology

2020 - 2023 深海生底生有孔虫細胞内のマイクロバイオームの機能・活性

2019 - 2022 Highly sensitive 14C analysis elucidating trophic ecology of endemic benthic fauna on hydrothermal vents

2017 - 2020 The role of vacuoles on the adaptive ecology of benthic foraminifera in dysoxic sediments

2016 - 2019 嫌気環境における底生有孔虫の生態と代謝

2014 - 2017 similarities in meiofaunal composition among hydrothermal vents in meiboring seamounts

2012 - 2015 Symbiosis drove foraminiferal evolution

2012 - 2015 In situ measurement of dark carbon fixation at the deep-sea floor and its importances in the deep-sea benthic ecosystem

2014 - 2014 堆積物と細胞内の断面観察による間隙水・有孔虫・微生物の空間的物質循環解析

2009 - 2012 Biotic history has accelerated under anoxic environments - Paradox of Foraminifera evolution can solve through field observation, laboratory culture and genomic analyses.

2010 - 2011 Variable energy utilization of benthic foraminifera in relation to redox conditions

2009 - 2011 Ecological roles of Xenophyophorean foraminifera in the deep-sea biological communities and early evolution of foraminifera

2008 - 2009 Relationships between benthic foraminiferal metabolism and chemical environments in the sediments estimated by incubation experiments

2005 - 2008 Reconstruction of pH profile at sediment-water interface by use of trace elements-stable isotopes multi-proxies

2004 - 2005 現場培養実験とバイオマーカー分析を用いた底生有孔虫による有機物変質過程の解明

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Papers (90)：

Yutetsu Kuruma, Hidetaka Nomaki, Noriyuki Isobe, Daisuke Matsuoka, Yasuhiro Shimane. The Potential of Artificial Cells Functioning under In Situ Deep-Sea Conditions. ACS Synthetic Biology. 2024
Chong Chen, Pierre Methou, Daiki Yamamoto, Maki Kayamori, Hidetaka Nomaki. There and there again: Hydrothermal vent communities at Mokuyo Seamount, 30 years apart. Ecological Research. 2024
Hidetaka Nomaki, Shigeaki Kojima, Yosuke Miyairi, Yusuke Yokoyama, Chong Chen. Natural 14C abundances and stable isotopes suggest discrete uptake routes for carbon and nitrogen in cold seep animals. Progress in Earth and Planetary Science. 2024. 11. 51
P Methou, NO Ogawa, H Nomaki, N Ohkouchi, C Chen, K Schnabel. Genetic connectivity and isotopic niches of alvinocaridid shrimps from chemosynthetic habitats in Aotearoa/New Zealand, with a new Alvinocaris species. Marine Ecology Progress Series. 2024. 739. 85-109
Hidetaka Nomaki, Chong Chen, Nanako O. Ogawa, Yosuke Miyairi, Naohiko Ohkouchi, Akiko Makabe, Shinsuke Kawagucci, Yusuke Yokoyama, Motohiro Shimanaga. Elucidating carbon sources of hydrothermal vent animals using natural 14C abundances and habitat water temperature. Limnology and Oceanography. 2024

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MISC (43)：

長野由梨子, 石谷佳之, 磯部紀之, 坂尾優希, 中嶋亮太, 石井俊一, 鹿島裕之, 野牧秀隆. Fungal diversity in deep-sea submerged plants. 日本菌学会大会講演要旨集. 2023. 67th
鹿島裕之, 石井俊一, 石谷佳之, 長野由梨子, 中嶋亮太, 磯部紀之, 野牧秀隆. Plastisphere formations on single-use plastics at a coastal seafloor and a deep-sea floor. 日本微生物生態学会大会(Web). 2023. 36th
KOBAYASHI Kanae, MAKABE Akiko, SHIGEMITSU Masahito, HIRAOKA Satoshi, TSUDA Miwako, MIYAZAKI Masayuki, SUMIDA Tomomi, NOMAKI Hidetaka, NUNOURA Takuro, KAWAGUCHI Shinsuke. Combined molecular and stable isotopic analyses reveal the microbial nitrogen cycle in the deep-sea sediments. 日本微生物生態学会大会(Web). 2023. 36th
野牧秀隆, 磯部紀之. 潜水船およびランダーを用いたプラスチックの海洋生分解性を検証する深海底現場実験. KANRIN(日本船舶海洋工学誌). 2022. 102. 10-12
渡邉修一, 脇田昌英, 小栗一将, 古島靖夫, 豊福高志, 豊福高志, 野牧秀隆, 野牧秀隆, 土田真二, 藤倉克則, et al. 沖合底層生態系の変動メカニズムの解明三陸沖の海洋環境モニタリングと海洋構造把握表層-水柱海洋環境の変動解析と実態把握. 東北マリンサイエンス拠点形成事業(海洋生態系の調査研究)成果報告書令和2年(CD-ROM). 2020

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Books (7)：

小学館の図鑑NEO POCKET「プランクトン」
小学館 2024 ISBN:9784092172975
最新版地学辞典
平凡社 2024
特別展海
国立科学博物館、海洋研究開発機構、読売新聞社、NHK、NHKプロモーション 2023
古生物学の百科事典
丸善出版 2023
原生生物学辞典
朝倉書店 2023

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Education (2)：

2005 - 東京大学大学院博士課程修了
2002 - 静岡大学大学院修士課程修了

Professional career (1)：

博士(理学) (東京大学大学院)

Work history (4)：

2023/10 - 現在 Japan Agency for Marine-Earth Science and Technology
2013/04 - 2023/09 Japan Agency for Marine-Earth Science and Technology
2009/04 - 2013/03 Japan Agency for Marine-Earth Science and Technology
2006/04 - 2009/03 Japan Agency for Marine-Earth Science and Technology

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