名城大学農学部 昆虫学研究室では、地球上で最大の繁栄を遂げた動物である昆虫類を対象に、①植食性昆虫の防除に関する研究、②比較発生学を中心とする系統進化学研究に取り組んでいます。
この HP は、大学公式 HP(農学部生物資源学科)の補完や、過去の情報のアーカイブとして運用される予定です。
研究室の活動に関しては、ブログの更新頻度が最も高くなると思いますのでご覧ください。研究室の X (twitter) アカウントもあります!
上船 雅義 教授(researchmap)
寄生蜂や捕食者を使った生物的防除に取り組んでいます。害虫防除のため、野外で寄生蜂や捕食者を呼び寄せ圃場に定着させる技術や、植物の香りで害虫を忌避する研究を行っています。
武藤 将道 助教(researchmap 個人HP)
昆虫類の系統進化・形態進化・高次系統の理解の進展を目指し、さまざまな分類群を対象とした比較発生学的研究を行っています。また、イシノミ・シミ・カワゲラを対象とした自然史研究にも着手しています。
修士 2 年 4 名
修士 1 年 3 名
学部 4 年生 23 名
学部 3 年生 14 名
戸田 尚希 研究員
故 岡留 恒丸 名誉教授
山岸 健三 名誉教授(researchmap)
Ozawa R, Uefune M, Takabayashi J (2024) Fecundity of diamondback moth females when offered honey with pyridalyl, a selective insecticide. Journal of Applied Entomology, 148(1): 86-92. (PDF)
Rim H, Uefune M, Ozawa R, Takabayashi J (2024) Uninfested eggplants exposed to volatiles from conspecific plants infested by omnivorous mirids exhibit jasmonic acid priming and enhanced defenses against herbivores. Arthropod-Plant Interactions, 18(2): 205-210. (Journal page)
Uemura Y, Kimura S, Ohta T, Suzuki T, Mase K, Kato H, Sakaoka S, Uefune M, Komine Y, Hotta K, Shimizu M, Morikami A, Tsukagoshi H (2023) A very long chain fatty acid responsive transcription factor, MYB93, regulates lateral root development in Arabidopsis. The Plant Journal, 115(5): 1408-1427. (PDF)
Nomura R, Tsuzuki S, Kojima T, Nagasawa M, Sato Y, Uefune M, Baba Y, Hayashi T, Nakano H, Kato M, Shimizu M (2022) Administration of Aspergillus oryzae suppresses DSS-induced colitis. Food Chemistry: Molecular Sciences, 4: 10063. (Journal page)
Koeduka T, Takaishi M, Suzuki M, Nishihama R, Kohchi T, Uefune M, Matsui K (2022) CRISPR/Cas9-mediated disruption of ALLENE OXIDE SYNTHASE results in defective 12-oxo-phytodienoic acid accumulation and reduced defense against spider mite (Tetranychus urticae) in liverwort (Marchantia polymorpha). Plant Biotechnology, 39: 191-194. (PDF)
Yoshida K, Uefune M, Ozawa R, Abe H, Okemoto Y, Yoneya K, Takabayashi J (2021) Effects of prohydrojasmon on the number of infesting herbivores and biomass of field-grown Japanese radish plants. Frontiers in Plant Science, 12: 695701. (Journal page)
Uefune M, Yoneya K, Yamamoto M, Takabayashi J (2021) The use of synthetic herbivory-induced plant volatiles that attract specialist parasitoid wasps, Cotesia vestalis, for controlling the incidence of diamondback moth larvae in open agricultural fields. Frontiers in Ecology and Evolution, 9: 702314. (Journal page)
Uefune M, Abe J, Shiojiri K, Urano S, Nagasaka K, Takabayashi J (2020) Targeting diamondback moth in greenhouses by attracting specific native parasitoids with herbivory-induced plant volatiles. Royal Society Open Science, 7: 201592. (PDF)
Abe J, Uefune M, Yoneya K, Shiojiri K, Takabayashi J (2019) Synchronous Occurrences of the Diamondback Moth (Lepidoptera: Plutellidae) and its Parasitoid Wasp Cotesia vestalis (Hymenoptera: Braconidae) in Greenhouses in a Satoyama Area. Environmental Entomology, 49: 10-14. (Journal page)
Takai H, Ozawa R, Takabayashi J, Fujii S, Arai K,Ichiki RT, Koeduka T, Dohra H, Ohnishi T, Taketazu S, Kobayashi J, Kainoh Y, Nakamura S, Fujii T, Ishikawa Y, Kiuchi T, Katsuma S, Uefune M, Shimada T, Matsui K (2018) Silkworms suppress the release of green leaf volatiles by mulberry leaves with an enzyme from their spinnerets. Scientific reports, 8: 11942. (Journal page)
Ozawa R, Ohara Y, Shiojiri K, Uchida T, Kakibuchi K, Kugimiya S, Uefune M, Takabayashi J (2018) Uninfested plants and honey enhance the attractiveness of a volatile blend to a parasitoid Cotesia vestalis. Journal of Applied Entomology, 142: 978-984. (Journal page)
Rim H, Uefune M, Ozawa R, Takabayashi J (2018) An omnivorous arthropod, Nesidiocoris tenuis, induces genderspecific plant volatiles to which conspecific males and females respond differently. Arthropod-Plant Interactions, 12: 495-503. (Journal page)
Yoneya K, Uefune M, Takabayshi J (2018) Parasitoid wasps’ exposure to host‑infested plant volatiles affects their olfactory cognition of host‑infested plants. Animal Cognition, 21: 79-86. (Journal page)
Mtow S, Machida R (2025) Mating behavior of the jumping bristletail Petrobiellus akkesiensis (Archaeognatha: Machilidae: Petrobiellinae): Direct spermatophore transfer via genital coupling. Arthropod Systematics & Phylogeny, 83: 737-756. (Journal page PDF)
Eichert A, de Almeida LH, Du Y-Z, Duarte T, Fochetti R, Hotaling S, Huo Q-B, Jouault C, Kirkaldy AP, Letsch H, Li W, López-Rodríguez MJ, Machingura J, McCulloch G, Mo R, Mtow S, Pessacq P, Rippel MLS, Rivera-Pomar R, Sproul JS, Sarmento FRP, Sroka P, Tierno de Figueroa JM, Ware J (2025) Stonefly systematics: past, present, and future. Insect Systematics and Diversity, 9(4): 7. (Journal page PDF)
Mtow S, Machida R (2024) What are Halomachilis akkesiensis and Halomachilis kojimai described from Hokkaido, Japan? (Insecta: Archaeognatha: Machilidae). Zootaxa, 5543 (3): 445–450. (PDF)
武藤 将道 (2024) ミナミカワゲラ亜目5種のカワゲラ類の卵構造(昆虫綱・カワゲラ目・ミナミカワゲラ亜目). 名城大学農学部学術報告,60:53-63. (Journal PDF)
Mtow S, Tsutsumi T, Masumoto M, Machida R (2023) Revisiting the formation of midgut epithelium in Zygentoma (Insecta) from a developmental study of the firebrat Thermobia domestica (Packard, 1873) (Lepismatidae) . Arthropod Structure & Development, 73: 101237. (PDF Journal page)
Mtow S, Tsutsumi T (2022) Body pigmentation during embryogenesis first found in stoneflies: a case of Megaperlodes niger Yokoyama, Isobe & Yamamoto, 1990 (Insecta, Plecoptera, Perlodidae). Fragmenta Entomologica, 54: 273-278. (PDF)
武藤 将道, 吉井 重幸, 塘 忠顕 (2022) 福島県で最近発見された外来カミキリApriona swainsoni swainsoni (Hope, 1840) (コウチュウ目・カミキリムシ科・フトカミキリ亜科) の分布,食害および後食に関する予備的な報告. 昆蟲 (ニューシリーズ), 25: 18-24. (PDF)
Mtow S, Smith BJ (2022) Notes on the emergence of a stonefly, Stenoperla prasina (Newman, 1845) in New Zealand (Plecoptera: Eustheniidae). Entomologist's Monthly Magazine, 158: 67-71. (Journal page)
Mtow S (2021) A new record of Petrobiellus takunagae Silvestri, 1943 (Archaeognatha, Machilidae, Petrobiellinae) from Sado Island, Niigata Prefecture, Japan. Japanese Journal of Entomology (New Series), 24: 108-110. (PDF)
Mtow S, Tsutsumi T (2021) First instar nymphs of two peltoperlid stoneflies (Insecta, Plecoptera, Peltoperlidae). Deutsche Entomologische Zeitschrift, 68: 179-188. (Journal page)
Mtow S, Machida R (2021) Thickened srosa and serosal cuticle formed beneath the embryo in eight arctoperlarian stoneflies (Insecta, Plecoptera). Proceedings of the Arthropodan Embryological Society of Japan, 53: 9-13. (PDF)
Mtow S, Smith BJ, Machida R (2021) Egg structure of five antarctoperlarian stoneflies (Insecta: Plecoptera, Antarctoperlaria). Arthropod Structure & Development, 60: 101011. (PDF Journal page)
Mtow S, Machida R (2019) Note on the thickened serosa and serosal cuticle formed beneath the embryo in Scopura montana Maruyama, 1987 (Insecta, Plecoptera, Scopuridae). Proceedings of the Arthropodan Embryological Society of Japan, 52: 11-14. (PDF)
Mtow S, Machida R (2018) Development and ultrastructure of the thickened serosa and serosal cuticle formed beneath the embryo in the stonefly Scopura montana Maruyama, 1987 (Insecta, Plecoptera, Scopuridae). Arthropod Structure & Development, 47: 643-654. (PDF Journal page)
Mtow S, Machida R (2018) Egg structure and embryonic development of arctoperlarian stoneflies: a comparative embryological study (Plecoptera). Arthropod Systematics & Phylogeny, 76: 65-86. (PDF)
***
***
***
〒468-8502
愛知県名古屋市天白区塩釜口 1-501
名城大学 天白キャンパス 9号館 201 室
上船 雅義:muefuneあっとmeijo-u.ac.jp
武藤 将道:mtowあっとmeijo-u.ac.jp