Rchr
J-GLOBAL ID:201801002465258978
Update date: Oct. 04, 2024
Noritoshi Maehara
マエハラ ノリトシ | Noritoshi Maehara
Affiliation and department:
Research field (2):
Forest science
, Entomology
Research keywords (7):
forest microbial ecology
, interaction
, microbial control
, pine wilt disease
, 森林昆虫
, 線虫
, 昆虫病原微生物
Research theme for competitive and other funds (11):
- 2023 - 2026 マツ枯れから侵入種・樹木病害・農業線虫まで:昆虫病原性線虫の共生細菌による防除
- 2020 - 2023 Control of both the pathogen and the vector in pine wilt disease by the symbiotic bacteria of entomopathogenic nematodes
- 2017 - 2020 マツ枯れの病原線虫はどのように進化してマツノマダラカミキリと結び付いたのか
- 2016 - 2019 Elucidation of reproductive manipulation caused by Wolbachia in Acalolepta fraudatrix
- 2014 - 2017 Effects of temporal change in host susceptibility on the epidemic pattern of pine wilt disease
- 2012 - 2015 マツノマダラカミキリの分布の北限決定要因:夏の夜の寒さが性成熟を妨げるのか?
- 2012 - 2014 Utilization of entomophilic nematodes as carriers of entomopathogenic microbes
- 2011 - 2014 マツ材線虫病の病原体マツノザイセンチュウを進化させたのはビロウドカミキリか?
- 2008 - 2010 マツノマダラカミキリ蛹室における抗菌ペプチドが及ぼす生物間相互作用
- 2006 - 2009 Microbial control of both the pathogen and the vector in pine wilt disease
- 2003 - 2006 「兵糧攻め制御法」によるマツノザイセンチュウの森林生態系への取り込み
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Papers (49):
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Jun Takatsuka, Noritoshi Maehara. Genome sequences of Pseudomonas sp. strain FFPRI_1 and Photorhabdus temperata strain FFPRI_2, isolated from the entomopathogenic nematode, Heterorhabditis megidis. Microbiology resource announcements. 2024. e0075224
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Haru Kirino, Noritoshi Maehara, Ryoji Shinya. How did Bursaphelenchus nematodes acquire a specific relationship with their beetle vectors, Monochamus?. Frontiers in Physiology. 2023. 14
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Sota Ozawa, Noritoshi Maehara, Jun Takatsuka, Takuya Aikawa, Katsunori Nakamura. Insecticidal effect of the entomopathogenic nematode Heterorhabditis megidis (Nematoda: Heterorhabditidae) baited from the soil on the larvae of Monochamus alternatus (Coleoptera: Cerambycidae). APPLIED ENTOMOLOGY AND ZOOLOGY. 2023. 58. 2. 197-203
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Noritoshi Maehara, Takuya Aikawa, Natsumi Kanzaki, Katsunori Nakamura. Transfer of four isolates of Bursaphelenchus doui into Monochamus alternatus and potential vector switching of the nematode. Nematology. 2022. 24. 8. 855-861
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Takuya Aikawa, Noritoshi Maehara, Yu Ichihara, Hayato Masuya, Katsunori Nakamura, Hisashi Anbutsu. Cytoplasmic incompatibility in the semivoltine longicorn beetle Acalolepta fraudatrix (Coleoptera: Cerambycidae) double infected with Wolbachia. PloS one. 2022. 17. 1. e0261928
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MISC (23):
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Kojiro Esaki, Katsunori Nakamura, Noritoshi Maehara. Factors Responsible for Survival of Monochamus alternatus in the Fumigation-treated Pine Logs. 日本森林学会誌. 2024. 106. 4. 101-108
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前原紀敏. Microbial control of pine wilt disease from the past to the future. 樹木医学研究. 2023. 27. 2. 117-122
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江崎功二郎, 中村克典, 前原紀敏, 小澤壮太. Factors for the Decreased Concentration of MITC Gas in Fumigation Treatments of Pine Logs to Eradicate Monochamus alternatus Larvae. 日本森林学会誌. 2022. 104. 4. 187-192
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小澤壮太, 前原紀敏, 相川拓也, 柳澤賢一, 中村克典. Occurrence of two species of Bursaphelenchus (Nematoda:Aphelenchoididae) in the reproductive organs of Monochamus saltuarius (Coleoptera: Cerambycidae). 森林防疫. 2022. 71. 4. 99-106
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小澤壮太, 中村克典, 前原紀敏. Preliminary examination of parasitic effect of Parasitorhabditis sp. detected in Tomicus piniperda on Monochamus alternatus. 東北森林科学会誌(Web). 2021. 26. 1. 13-19
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Books (6):
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森林保護と林業のビジネス化 : マツ枯れが地域をつなぐ
日本林業調査会 2019 ISBN:9784889652581
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線虫学実験
京都大学学術出版会 2014 ISBN:9784876985388
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微生物生態学への招待 : 森をめぐるミクロな世界
京都大学学術出版会 2012 ISBN:9784876985975
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Pine wilt disease : a worldwide threat to forest ecosystems
Springer 2008 ISBN:9781402084546
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Pine wilt disease
Springer 2008 ISBN:9784431756545
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Lectures and oral presentations (31):
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オキナワザイセンチュウにおけるdauer誘導条件の探索
(Nematological Research 2021)
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薬量やシート破損状況が異なる松くい虫くん蒸処理でのMITC濃度と殺虫効果
(日本森林学会大会学術講演集 2021)
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マツノキクイムシ寄生性線虫のマツノマダラカミキリへの寄生性の検討
(日本森林学会大会学術講演集 2021)
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寒冷地マツ林においてマツ材線虫病罹病木の発生パターンを規定する要因
(日本森林学会大会学術講演集 2020)
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マツ類枯死木から採取されるカミキリムシ科幼虫の識別法
(日本森林学会大会学術講演集 2020)
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Professional career (1):
Association Membership(s) (3):
日本線虫学会
, 日本応用動物昆虫学会
, 日本森林学会
