Publications
学術論文 (査読あり・英文)
23. Ohba S*, Suzuki T, Fukui M, Hirai S, Nakashima K, Bae YJ, Tojo K (in press) Flight characteristics and phylogeography in three large-bodied diving beetle species: Evidence that the species with expanded distribution is an active flier. Biological Journal of the Linnean Society (IF: 2.0). https://doi.org/10.1093/biolinnean/blae017
22. Suzuki T*, Hiraishi N, Ohba S* (2024) Fine-scale phylogeography of the Japanese Genji firefly. Biological Journal of the Linnean Society (IF: 2.0) 143: ##–##. https://doi.org/10.1093/biolinnean/blad161
21. Suzuki T*, Ichiyanagi H, Ohba S* (2023) Discovery of a new population of the endangered giant water bug Kirkaldyia deyrolli (Heteroptera: Belostomatidae) in Kyushu and evaluation of their genetic structure. Entomological Science (IF: 0.7) 26: e12564. https://doi.org/10.1111/ens.12564
・報道:科学新聞
20. Suzuki T, Yano K, Okamoto S, Ueki G, Fukakusa A, Ikeda M, Inoue G, Tagashira H, Yoshida T, Tojo K* (2023) A major flood caused by a typhoon did not affect the population genetic structure of a river mayfly metapopulation. Proceedings of the Royal Society B: Biological Science (IF: 3.8) 290: 20230177.
https://doi.org/10.1098/rspb.2023.0177
・プレスリリース:信州大学
・報道:信濃毎日新聞
19. Hiraishi N, Suzuki T, Matsushima R, Ohba S* (2023) Phylogenetic and morphological analyses of Japanese Aquarius water strider, with a new synonym. Entomological Science (IF: 0.7) 26: e12544. https://doi.org/10.1111/ens.12544
・プレスリリース:長崎大学
・報道:Science Japan
18. Takenaka M*, Yano K, Suzuki T, Tojo K* (2023) Development of novel PCR primer sets for DNA barcoding of aquatic insects, and the discovery of some cryptic species. Limnology (IF: 1.4) 24: 121–136. https://doi.org/10.1007/s10201-022-00710-5
・報道:環境展望台
17. Suzuki T, Kuhara N, Tojo K* (2023) Phylogeography of Kisaura (Trichoptera: Philopotamidae) of the Japanese Archipelago and the character displacement evolution observed in a secondary contact area between genetically differentiated intraspecific lineages. Zoological Journal of the Linnean Society (IF: 3.0) 197: 176–188. https://doi.org/10.1093/zoolinnean/zlac056
・プレスリリース:信州大学
16. Kudoh R*, Nishikawa K, Suzuki T (2022) Buergeria buergeri (Kajika Frog). Diet. Herpetological Review 53: 647–648.
15. Wang JS*, Suzuki T (2022) Review of the Panorpa wormaldi group (Mecoptera: Panorpidae), with descriptions of two new species. European Journal of Taxonomy (IF: 1.1) 794: 18–39. https://doi.org/10.5852/ejt.2022.794.1651
14. Suzuki T*, Nishikawa K, Sato Y, Toda M (2021) Development and evaluation of a loop-mediated isothermal amplification (LAMP) assay for quick identification of the Japanese salamander Hynobius tokyoensis. Genes & Genetic Systems (IF: 1.0) 96: 247–252. https://doi.org/10.1266/ggs.21-00046
13. Suzuki T*, Yano K, Ohba S, Kawano K, Sekiné K, Bae YJ, Tojo K* (2021) Genome-wide molecular phylogenetic analyses and mating experiments which reveal the evolutionary history and an intermediate stage of speciation of a giant water bug. Molecular Ecology (IF: 4.5) 30: 5179–5195. https://doi.org/10.1111/mec.16120
・プレスリリース:信州大学
・報道:EurekAlert!
12. Kanke E, Suzuki K, Sekiné K, Suzuki T, Hatta K, Yang MM, Tojo K* (2021) Unexpected population genetic structure of two closely related euphaeid damselflies in the Yaeyama and Taiwan Islands (Odonata: Euphaeidae). Biological Journal of the Linnean Society (IF: 2.0) 134: 214–228. https://doi.org/10.1093/biolinnean/blab061
11. Yano K, Ozaki T, Suzuki T, Yamazaki H, Nasuno M, Degawa Y, Tojo K* (2021) Outbreak of the stick insect, Ramulus mikado (Phasmatodea, Phasmatidae), in Akashina area (Azumino City, Nagano Prefecture). Entomological Science (IF: 0.7) 24: 196–200. https://doi.org/10.1111/ens.12467
10. Tojo K*, Miyairi K, Kato Y, Sakano A, Suzuki T (2021) A description of the second species of the genus Bleptus Eaton (Insecta: Ephemeroptera, Heptageniidae) from Japan, and genetic relationship of two Bleptus mayflies inferred from mitochondrial and the nuclear gene sequences. Zootaxa (IF: 0.8) 4974: 333-360. https://doi.org/10.11646/zootaxa.4974.2.5
9. Suzuki T*, Hirao AS, Takenaka M, Yano K, Tojo K* (2020) Development of microsatellite markers for a giant water bug, Appasus japonicus, distributed in East Asia. Genes & Genetic Systems (IF: 1.0) 95: 323–329. https://doi.org/10.1266/ggs.20-00033
8. Tomita K, Suzuki T, Yano K, Tojo K* (The contributions of the first to third authors are equal) (2020) Community structure of aquatic insects adapted to lentic water environments, and fine-scale analyses of local population structures and the genetic structures of an endangered giant water bug Appasus japonicus. Insects (IF: 2.7) 11: 389. https://doi.org/10.3390/insects11060389
7. Suzuki T, Suzuki N, Tojo K* (2019) Parallel evolution of an alpine type ecomorph in a scorpionfly: Independent adaptation to high-altitude environments in multiple mountain locations. Molecular Ecology (IF: 4.5) 28: 3225–3240. https://doi.org/10.1111/mec.15119
・報道:EurekAlert!
6. Kang BJ, Bae SH, Suzuki T, Niitsu S, Wilder MN* (2019) Transcriptional silencing of vitellogenesis-inhibiting hormone (VIH) subtype-I in the whiteleg shrimp, Litopenaeus vannamei. Aquaculture (IF: 3.9) 506: 119–126. https://doi.org/10.1016/j.aquaculture.2019.03.028
5. Tojo K*, Sekiné K, Takenaka M, Komaki S, Suzuki T, Schoville S (2017) Species diversity of insects in Japan: Their origins and diversification processes. Entomological Science (IF: 0.7) 20: 357–381. https://doi.org/10.1111/ens.12261
4. Suzuki T, Kitano T, Tojo K* (2014) Contrasting genetic structure of closely related giant water bugs: Phylogeography of Appasus japonicus and Appasus major (Insecta: Heteroptera, Belostomatidae). Molecular Phylogenetics and Evolution (IF: 3.6) 72: 7–16. https://doi.org/10.1016/j.ympev.2013.12.008
3. Suzuki T, Tanizawa T, Sekiné K, Kunimi J, Tojo K* (2013) Morphological and genetic relationship of two closely-related giant water bugs: Appasus japonicus Vuillefroy and Appasus major Esaki (Heteroptera: Belostomatidae). Biological Journal of the Linnean Society (IF: 2.0) 110: 615–643. https://doi.org/10.1111/bij.12149
2. Takenaka M, Shibata S, Suzuki T, Tojo K* (2013) Distribution Record of Anisocentropus Caddisfly (Trichoptera: Calamoceratidae) in the Tsushima Islands. New Entomologist 62: 45–49.
1. Suzuki T, Suzuki N, Tojo K* (2011) Report into the rediscovery of a machilid bristletail Pedetontus diversicornis subsequent to its first recorded observation in 1943; with special reference to the newly found population’s apparent parthenogenetic status (Archaeognatha; Machilidae). New Entomologist 60: 6–11.
(*: 責任著者)
学術論文 (査読あり・和文)
6. 鈴木智也, 鈴木信夫, 東城幸治 (2016) 分子系統解析が明らかにする「短翅型」スカシシリアゲモドキ Panorpodes paradoxus (シリアゲムシ目, シリアゲモドキ科)の高標高域での並行進化 . New Entomologist 65: 62–71.
5. 鈴木智也, 鈴木信夫 (2015) 長野県におけるホソマダラシリアゲ Panorpa multifasciaria Miyake, 1910 の分布について. New Entomologist 64: 51–54.
4. 竹中將起, 斎藤梨絵, 鈴木智也, 大西央士郎, 富樫繁春, 岸本亨, 東城幸治 (2015) 佐渡島におけるノギカワゲラの初記録. New Entomologist 64: 19–23.
3. 倉西良一, 鈴木智也, 趙在翼, 野崎隆夫, 伊藤富子, 東城幸治 (2013) クロモンエグリトビケラ 長野県からの記録 –分布と環境指標性-. New Entomologist 62: 41–43.
2. 鈴木智也, 東城幸治 (2012) コオイムシ Appasus japonicus の口器形成 (昆虫綱: 半翅目, コオイムシ科). Proceedings of the Arthropodan Embryological Society of Japan 47: 41–43.
1. 鈴木智也, 鈴木信夫, 東城幸治 (2012) 上高地と周辺山岳域におけるシリアゲムシ相. New Entomologist 61: 51–56.
学術論文 (査読なし)
9. 鈴木智也, 一柳英隆, 大庭伸也 (2024) 熊本県南部におけるタガメ保全と新規集団発見. 昆虫と自然 59: 12–17.
8. 大庭伸也, 平石直樹, 鈴木智也, 松島良介 (2023) ナガサキアメンボはいない –その結論に至るまでの軌跡–. 長崎県生物学会誌 92: 41–45.
7. 竹中將起, 谷野宏樹, 鈴木智也, 東城幸治 (2021) 全昆虫類に汎用できるDNA バーコーディング領域の探索. 昆虫DNAニュースレター 35: 18–26.
6. 鈴木智也, 竹中將起, 西川勝, 東城幸治 (2021) 日本のオオハサミムシはどこから来たのか? 昆虫DNAニュースレター 35: 1–5.
5. 鈴木智也, 東城幸治 (2020) SSRマーカーによる父性解析から見えたコオイムシの繁殖戦略. 昆虫DNAニュースレター 32: 32–38.
4. 志賀澄歌, 鈴木智也, 東城幸治, 塘忠顕 (2014) 山岳域に生息するアザミウマ類 (昆虫綱: アザミウマ目) 〜福島県, 山形県, 長野県における山岳性アザミウマ相の比較〜. 磐梯朝日遷移プロジェクト平成25年度報告書 共生のシステム 14: 128–136.
3. 鈴木智也, 谷澤崇, 東城幸治 (2014) 東アジア産コオイムシ類における進化生物学的研究. 昆虫と自然 49: 9–14.
2. 鈴木智也, 鈴木信夫, 町田龍一郎, 東城幸治 (2014) スカシシリアゲモドキにおける形態的多型の進化プロセス究明. 昆虫DNAニュースレター 20: 37–40.
1. 鈴木智也, 谷澤崇, 東城幸治 (2011) 日本産コオイムシ亜科昆虫における系統・分類. 昆虫DNAニュースレター 15: 25–28.
著書
4. 鈴木智也 (2024) 河川生物の集団構造・遺伝的構造. 平林公男, 東城幸治 (編) 河川生態学入門, 第8章, pp. 80–90. 共立出版, 東京.
3. 鈴木智也 (2022) シリアゲムシ目. 丸山宗利 (総監修) 学研の図鑑LIVE 昆虫 新版, pp. 142–143. 学研, 東京.
2. 鈴木智也, 東城幸治 (2018) コオイムシ類の分子系統解析から紐解く日本産水生半翅類相の形成プロセス. 大庭伸也 (編) 環境Eco選書⑬「水生半翅類の生物学」, 第IV章, pp. 218–232. 北隆館, 東京.
1. Tojo K, Sekiné K, Suzuki T, Saito R, Takenaka M (2017) The Species and Genetic Diversities of Insects in Japan, with Special Reference to the Aquatic Insects. In: Motokawa M, Kajihara H (Eds), Species Diversity of Animals in Japan (Diversity and Commonality in Animals), Chapter 8, pp. 229–247. Springer Japan, Tokyo.
その他
1. Tojo K, Suzuki T (Eds, 2020) Biogeography of Japanese Insects. Entomological Science (IF: 1.304) Virtual Issue. (学術誌の編集)
Link→https://onlinelibrary.wiley.com/page/journal/14798298/biogeography_of_Japanese_Insects.htm