Rchr
J-GLOBAL ID:201801021237428183
Update date: Feb. 01, 2024
Toshikatsu Haruma
Toshikatsu Haruma
Affiliation and department:
Research field (1):
Environmental load reduction/restoration technology
Research theme for competitive and other funds (4):
- 2022 - 2025 鉱山跡地の汎用的な緑化に寄与する植物の重金属耐性機構の解明
- 2019 - 2024 Construction of new greening method using native plants and indigenous microorganisms on the mine site
- 2019 - 2023 鉱山跡地の先駆植物が樹木実生に提供する、機能性微生物感染のためのセーフサイト
- 2016 - 2017 内生糸状菌がススキのアルミニウム耐性を増強させるメカニズムの解明-内生糸状菌の産生するアルミニウム解毒物質とアルミニウムの局在を通して-
Papers (16):
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Yoko Kurosawa, Shigeta Mori, Mofei Wang, Juan Pedro Ferrio, Tomohiro Nishizono, Keiko Yamaji, Kohei Koyama, Toshikatsu Haruma, Kohei Doyama. Ontogenetic changes in root and shoot respiration, fresh mass and surface area of Fagus crenata. Annals of Botany. 2022. 131. 2. 313-322
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Toshikatsu Haruma, Kohei Doyama, Xingyan Lu, Takahiko Arima, Toshifumi Igarashi, Shingo Tomiyama, Keiko Yamaji. Oosporein Produced by Root Endophytic Chaetomium cupreum Promotes the Growth of Host Plant, Miscanthus sinensis, under Aluminum Stress at the Appropriate Concentration. Plants. 2022. 12. 1. 36-36
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Yukihiro Nakamoto, Kohei Doyama, Toshikatsu Haruma, Xingyan Lu, Kazuya Tanaka, Naofumi Kozai, Kenjin Fukuyama, Shigeru Fukushima, Yoshiyuki Ohara, Keiko Yamaji. Fe, Mn and U-238 Accumulations in Phragmites australis Naturally Growing at the Mill Tailings Pond; Iron Plaque Formation Possibly Related to Root-Endophytic Bacteria Producing Siderophores. MINERALS. 2021. 11. 12
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Kohei Doyama, Keiko Yamaji, Toshikatsu Haruma, Atsushi Ishida, Shigeta Mori, Yoko Kurosawa. Zn tolerance in the evergreen shrub, Aucuba japonica, naturally growing at a mine site: Cell wall immobilization, aucubin production, and Zn adsorption on fungal mycelia. PLOS ONE. 2021. 16. 9. e0257690-e0257690
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Xingyan Lu, Keiko Yamaji, Toshikatsu Haruma, Mitsuki Yachi, Kohei Doyama, Shingo Tomiyama. Metal Accumulation and Tolerance in Artemisia indica var. maximowiczii (Nakai) H. Hara. and Fallopia sachalinensis (F.Schmidt) Ronse Decr., a Naturally Growing Plant Species at Mine Site. Minerals. 2021. 11. 8. 806-806
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MISC (13):
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山路 恵子, 春間 俊克, 土山 紘平, 盧 星燕, 中本 幸弘. 植物-微生物共生系を利用した鉱山跡地の植生再生の可能性-Possibility of Vegetation Regeneration for Former Mine Sites Using Plant-Microbe Symbiosis-特集 植物とその根圏機能を活用した環境技術の動向. 用水と廃水 / 「用水と廃水」編集委員会 編. 2021. 63. 10. 738-742
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中本幸弘, 山路恵子, 春間俊克, 春間俊克, 土山紘平, 小原義之, 福山賢仁, 福嶋繁. Elucidation of uranium and heavy metal (Fe, Mn) accumulation mechanism in Phragmites australis influenced by root endophytic bacteria. 日本生態学会大会講演要旨(Web). 2021. 68th
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山路恵子, 春間俊克, 春間俊克, 土山紘平, LU Xingyan, 中本幸弘. Possibility of Vegetation Regeneration for Former Mine Sites Using Plant-Microbe Symbiosis. 用水と廃水. 2021. 63. 10
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山路 恵子, 土山 紘平, 伊藤 汰一, 春間 俊克, 升屋 勇人. Functional Roles of Plants Growing at Mine Sites. 環境資源工学 = Resources processing : 資源処理技術. 2019. 66. 2. 74-78
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Mofei WANG, 森茂太, 芳士戸啓, 相澤拓, 黒澤陽子, 斉磊, 吉村謙一, 山路恵子, 春間俊克. 樹木と草本で収斂する個体呼吸スケーリング. 第65回日本生態学会大会. 2018
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Books (1):
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環境影響物質による森林植物と菌類への影響
共立出版 2018
Lectures and oral presentations (63):
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鉱山跡地に生育するミゾソバの重金属蓄積能の経時的解析
(第69回日本生態学会大会 2022)
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鉱山跡地に自生するススキが関与したアカマツの有害金属耐性機構の解明
(環境資源工学会 2022)
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鉱山跡地に自生するアオキと内生菌Pezicula ericaeの機能
(第69回日本生態学会大会2022年3月 2022)
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Functions of compound produced by the endophyte, Pezicula ericae, infecting Aucuba japonica roots
(The 69th Annual Meeting of the Ecological Society of Japan 2022)
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Elucidation of heavy metal tolerance in Artemisia indica var. maximowiczii growing at a mine site, considering root endophytic fungi interaction
(The 69th Annual Meeting of the Ecological Society of Japan 2022)
more...
Professional career (1):
Work history (6):
- 2023/04 - 現在 森林研究・整備機構
- 2021/04 - 2023/03 Hokkaido University Faculty of Engineering
- 2019/04 - 2021/03 Japan Atomic Energy Agency Postdoctoral Researcher
- 2018/08 - 2019/03 Graduate School of Life and Environmental Sciences, University of Tsukuba Postdoctoral Researcher
- 2018/04 - 2018/07 Graduate School of Life and Environmental Sciences, University of Tsukuba Postdoctoral Researcher
- 2015/04 - 2018/03 Graduate School of Life and Environmental Sciences, University of Tsukuba
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Awards (1):
- 2015/03 - 日本生態学会 優秀賞 鉱山跡地に自生するススキ (Miscanthus sinensis Andersson.) のAl耐性に関与する内生菌と解毒物質の探索.
Association Membership(s) (2):
資源・素材学会
, THE ECOLOGICAL SOCIETY OF JAPAN
