Achievements業績

Original Articles

50. Arai H, Ueda M, Hirano T, Akizuki N, Lin SR, Hanh DK, Jaka Widada4, Rohman S, Nakai N, Kunimi Y, Vang VL, Wijonarko A, Inoue MN Conserved infections and reproductive phenotypes of Wolbachia symbionts in Asian tortrix moths. Environmental Microbiology Reports
49. Furuya M, Tanai S, Hamim I, Yamamoto Y, Abe H, Imai K, Saito H, Yamashita K, Uehara-Ichiki T, Hanada K, Kon T, Inoue MN, Minato N, Fuji S, Komatsu K (2023) Phylogenetic and population genetic analyses of plantago asiatica mosaic virus isolates reveal intraspecific diversification. Journal of General Plant Pathology 10.1007/s10327-023-01129-1
48. Arai H, Anbutsu H, Nishikawa Y, Kogawa M, Ishii K, Hosokawa M, Lin SR, Ueda M, Nakai M, Kunimi Y, Harumoto T, Kageyama D, Takeyama H, Inoue MN (2023) Phage-encoding tandemly arrayed wmk genes of a male-killing Wolbachia induce strong male lethality. iScience 26 106842, 10.1016/j.isci.2023.106842
47. Inoue MN, Suzuki-Ohno (2023) Y Long-term monitoring of changes in the native bumblebee community after alien species (Bombus terrestris) invasion and estimation of factors affecting its abundance. Apidologie 54: 28
46. Arai H, Takamatsu T, Lin S, Mizutani T, Omatsu T, Katayama Y, Nakai M, Kunimi Y, Inoue MN (2023) Diverse molecular mechanisms underlying microbe-inducing male killing in the moth Homona magnanima. Applied and Environmental Microbiology
45. Yanagisawa T, Kato Y, Inoue MN (2023) Infection prevalence of microsporidia Vairimorpha (Nosema) spp. in Japanese bumblebees. Insects, 14(4) 340
44. Ueda M, Arai H. Masaike K, Nakai M, Inoue MN (2023) Distinct effects of three Wolbachia strains on fitness and immune traits in Homona magnanima. Heredity, 10.1038/s41437-022-00574-6
43. Arai H, Inoue MN, Kageyama D (2022) Male-killing mechanisms vary between Spiroplasma species. Frontier in Microbiology13:1075199
42. Kato Y, Kikuta S, Barribeau SM, Inoue MN (2022) In vitro larval rearing method of eusocial bumblebee Bombus terrestris for toxicity test. Scientific Reports 12: 15783, 10.1038/s41598-022-19965-0, 2022.9
41. Arai H, Ishitsubo Y, Nakai M, Inoue MN (2022) Mass-rearing and molecular studies in Tortricidae pest insects. Journal of Visualized Experiments DOI: 10.3791/63737
40. Arai H, Ishitsubo Y, Nakai M, Inoue MN (2022) A simple method to disperse eggs from lepidopteran scalelike egg masses and to observe embryogenesis. Entomological Science 25, e12497
39. Tanaka S, Harrison RL, Arai H, Katayama Y, Mizutani T, Inoue MN, Miles J, Marshall SDG, Kitalong C, Nakai M (2021) Confirmation of Oryctes rhinoceros nudivirus infections in G-haplotype coconut rhinoceros beetles (Oryctes rhinoceros) from Palauan PCR-positive populations. Scientific Reports 11, 18820
38. Gasmi L, Sieminska E, Okuno S, Ohta R, Coutu C, Vatanparast M, Harris S, Baldwin D, Hegedus DD, Theilmann DA, Kida A, Kawabata M, Sagawa S, Takatsuka J, Tateishi K, Watanabe K, Inoue MN, Kunimi Y, Kim Y, Erlandson MA, Herrero S, Nakai M (2021) Horizontally transmitted Parasitoid Killing Factor shapes insect defence to parasitoids. Science 373: 535-5
37. Kononchuk AG, Martemyanov VV, Ignatieva AN, Belousova IA, Inoue MN, Tokarev YS (2021) Susceptibility of the gypsy moth Lymantria dispar (Lepidoptera: Erebidae) to Nosema pyrausta (Microsporidia: Nosematidae). Insect 12: 447. DOI: 10.3390/insects12050447
36. Hosaka Y, Kato Y, Hayashi S, Nakai M, Barribeau SM, Inoue MN (2021) The effects of Nosema ceranae (Microspora: Nosematidae) isolated from wild Apis cerana japonica (Hymenoptera: Apidae) on Apis mellifera. Applied Entomology and Zoology, DOI: 10.1007/s13355-021-00735-9
35．Fujita R, Inoue MN, Takamatsu T, Arai H, Nishino M, Abe N, Itokawa K, Nakai M, Urayama S, Chiba Y, Amoa-Bosompem M, Kunimi Y (2021) Late male-killing viruses in Homona magnanima identified as Osugoroshi viruses, novel members of Partitiviridae. Frontiers in Microbiology DOI: 10.3389/fmicb.2020.620623
34. Takamatsu T, Arai T, Abe N, Nakai M, Kunimi Y, Inoue MN (2021) Coexistence of two male-killers and their impacts on the development of oriental tea tortrix Homona magnanima. Microbial Ecology 81: 193-202
33. Kato Y, Yanagisawa T, Nakai M, Komatsu K, Inoue MN (2020) Direct and sensitive detection of a microsporidian parasite of bumblebees using loop-mediated isothermal amplification (LAMP). Scientific Reports 10: 1118 DOI: 10.1038/s41598-020-57909-8
32. Arai H, Lin SR, Nakai M, Kunimi Y, Inoue MN (2019) Closely related male-killing and non-male-killing Wolbachia strains in the oriental tea tortrix Homona magnanima. Microbial Ecology 79: 1011-1020, DOI: 10.1007/s00248-019-01469-6
31. Djoumad A, Nisole A, Stewart D, Holden D, Zahiri R, Inoue MN, Martemyanov VV, Levesque RC, Hamelin RC, Cusson M (2019) Reassessment of the status of Lymantria albescens and L. postalba (Lepidoptera: Erebidae: Lymantriinae) as distinct “Asian gypsy moth” species, using both mitochondrial and nuclear sequence data. Systematic Entomology 45: 493-504, DOI: 10.1111/syen.12410
30. Sakamoto Y, Hayashi TI, Inoue MN, Ohnishi H, Kishimoto T, Goka K (2019) Effects of fipronil on non-target ants and other invertebrates in a program for eradication of the Argentine Ant, Linepithema humile. Sociobiology 66: 227-238 10.13102/sociobiology.v66i2.3772
29. Inoue MN, Suzuki-Ohno Y, Haga Y, Aarai H, Sano T, Martemyanov VV, Kunimi Y (2019) Population dynamics and geographical distribution of the gypsy moth, Lymantria dispar, in Japan. Forest Ecology and Management 434: 154-164, 10.1016/j.foreco.2018.12.022
28. Arai H, Hirano T, Akizuki N, Abe A, Nakai M, Kunimi Y, Inoue MN (2019) Multiple infection and reproductive manipulations of Wolbachia in Homona magnanima (Lepidoptera: Tortricidae). Microbial Ecology 77: 257-266, doi: 10.1007/s00248-018-1210-4
27. Tsuruta K, Wennmann JT, Kunimi Y, Inoue MN, Nakai M (2018) Morphological properties of the occlusion body of Adoxophyes orana granulovirus. Journal of Invertebrate Pathology 154: 58-64
26. Arai E, Ishii K, Ishii H, Sagawa H, Makiyama N, Mizutani T, Omatsu T, Katayama Y, Kunimi Y, Inoue MN, Nakai M (2018) An ascovirus isolated from Spodoptera litura (Noctuidae: Lepidoptera) transmitted by the generalist endoparasitoid Meteorus pulchricornis (Braconidae: Hymenoptera). Journal of General Virology 99: 574-584
25. Takada T, Sasaki Y, Sato R, Kikuta S, Inoue MN (2018) Differential expression of a fructose receptor gene in honey bee workers according to age and behavioral role. Archives of Insect Biochemistry and Physiology 97: DOI: 10.1002/arch.21437
24. Ilinsky YY, Tokarev YS, Bykov RA, Yudina MA, Pavlushin SV, Inoue MN, Martemyanov VV (2017) Detection of bacterial symbionts (Wolbachia, Spiroplasma) and eukaryotic pathogen (Microsporidia) in Japanese populations of gypsy moth species (Lymantria spp.). Euroasian Entomological Journal 16: 1-5
23. Tsugeno Y, Koyama H, Takamatsu T, Nakai M, Kunimi Y, Inoue MN (2017) Identification of an early male-killing agent in the oriental tea tortrix, Homona magnanima. Journal of Heredity 108: 553-560
22. Iwata K, Haas-Stapleton E, Kunimi Y, Inoue MN, Nakai M (2017) Midgut-based resistance to oral infection by a nucleopolyhedrovirus in the laboratory-selected strain of the smaller tea tortrix, Adoxophyes honmai (Lepidoptera: Tortricidae). Journal of General Virology 98: 296-304
21. Nagamitsu T, Yasuda M, Saito-Morooka F, Inoue MN, Nishiyama M, Goka K, Sugiura S, Maeto K, Okabe K, Taki H (2016) Genetic structure and potential environmental determinants of local genetic diversity in Japanese honeybees (Apis cerana japonica). PLOS One: 10.1371/journal.pone.0167233
20. Azam A, Kunimi Y, Inoue MN, Nakai M (2016) Effect of granulovirus infection of Spodoptera litura (Lepidoptera: Noctuidae) larvae on development of the endoparasitoid Chelonus inanitus (Hymenoptera: Braconidae). Applied Entomology and Zoology 51:479–488
19. Inoue MN, Ito F, Goka K (2015) Queen execution increases relatedness among workers of the invasive Argentine ant, Linepithema humile. Ecology and Evolution 5: 4098-4107
18. Hayasaka D, Kuwayama N, Takeo A, Ishida T, Mano H, Inoue MN, Nagai T, Sa´nchez-Bayo F, Goka K, Sawahata T (2015) Different acute toxicity of fipronil baits on invasive Linepithema humile supercolonies and some non-target ground arthropods. Ecotoxicology 24: 1221-1228
17. Saito Y, Kamita SG, Hammock BD, Kunimi Y, Inoue MN, Nakai M (2015) Juvenile hormone (JH) esterase activity but not JH epoxide hydrolase activity is downregulated in larval Adoxophyes honmai following nucleopolyhedroviruses infection. Journal of Insect Physiology 80: 71-80
16. Moriguchi S, Inoue MN, Kishimoto T, Kameyama T, Ito F, Goka K (2015) Estimating colonization and invasion risk maps for Linepithema humile, in Japan. Journal of Asia-Pacific Entomology 18: 343–350
15. Inoue MN, Saito-Morooka F, Suzuki K, Nomura T, Hayasaka D, Kishimoto T, Sugimaru K, Sugiyama T, Goka K (2015) Ecological impacts on native ant and ground-dwelling animal communities through the Argentine ant (Linepithema humile) management in Japan. Applied Entomology and Zoology 50: 331-339
14. Inoue MN, Sunamura E, Suhr EL, Ito F, Tatsuki F, Goka K (2013) Recent range expansion of the Argentine ant in Japan. Diversity and Distribution 19: 29-37
13. Inoue MN, Saito F, Tsuchida K, Goka K (2012) Potential increase in mating frequency of queens in feral colonies of Bombus terrestris introduced into Japan. Naturwissenschaften 99: 853-861
12. Inoue MN (2011) Size-dependent selection against small queens of the invasive bumblebee Bombus terrestris (L.) in Japan. Entomologia Experimentalis et Applicata 138: 65-70
11. Suzuki-Ohno Y, Inoue MN, Ohno K (2010) Applying geographic profiling used in the field of criminology for predicting the nest locations of bumble bees. Journal of Theoretical Biology 265: 211-217
10. Inoue MN, Makino TT, Yokoyama J, Sakai S (2010) Is Bombus terrestris (Hymenoptera: Apidae) a stronger competitor against native Japanese species? A comparison of foraging efficiency. Applied Entomology and Zoology 45: 71-75
9. Inoue MN, Yokoyama J, Tsuchida K (2010) Colony growth and reproductive ability of feral nests of the introduced bumblebee Bombus terrestris in northern Japan. Insectes Sociaux 57: 29-38
8. Inoue MN, Ishikawa S, Inoue T, Washitani I (2009) Conservation ecological study of invasion of Bombus terrestris (Hymenoptera: Apidae) into a preserved area of the Notsuke Peninsula of eastern Hokkaido, Japan. Applied Entomology and Zoology 44: 337-342
7. Inoue MN, Yokoyama J, Washitani I (2008) Displacement of Japanese native bumblebees by the recently introduced Bombus terrestris (L.) (Hymenoptera: Apidae). Journal of Insect Conservation 12: 135-146
6. Inoue MN, Yokoyama J (2007) Effect of Weigela hortensis (Caprifoliaceae) floral morphology on pollinator behavior. Plant Species Biology 22: 77-86
5. 井上真紀, 菊池玲奈, 石川聖江, 横山潤, 鷲谷いづみ (2007) 野付半島におけるセイヨウオオマルハナバチの定着状況と在来マルハナバチ相. 保全生態学研究12: 172-175.
4. Inoue MN, Yokoyama J (2006) Morphological variation in relation to flower use in bumblebees. Entomological Science 9: 147-159
3. 中島真紀, 松村千鶴, 横山潤, 鷲谷いづみ (2004) 北海道勇払郡鵡川町におけるセイヨウオオマルハナバチBombus terrestris (Linneus)の営巣状況とエゾオオマルハナバチB. hypocrita sapporoensis Cockerellの巣に出入りするセイヨウオオマルハナバチの働きバチに関する報告. 保全生態学研究9: 57-63
2. 松村千鶴, 中島真紀, 横山潤, 鷲谷いづみ (2004) 北海道日高地方で発見されたセイヨウオオマルハナバチ（Bombus terrestris L.）の自然巣における高い増殖能力. 保全生態学研究9: 93-101
1. Yokoyama J, Fukuda T, Yokoyama A, Nakajima M (2004) Extensive size homoplasy at a microsatellite locus in the Japanese bumblebee, Bombus diversus. Entomological Science 7: 189-19

Review Articles ＆ Book Chapters

8. 井上真紀 (2022) 第5.3章 共生微生物. 「バイオロジカルコントロール」 仲井まどか・日本典秀偏, p.150-156, 朝倉書店
7. 井上真紀 (2020) 第8章 アルゼンチンアリ. 「外来アリのはなし」 橋本佳明偏, p.93-103, 朝倉書店
6. 井上真紀 (2012) 第13章 遺伝子で見た野生生物の人為流動－外来アリ類を例に.「生態系の暮らし方 アジア視点の環境リスク－マネジメント」 小池文人, 金子信博, 松田裕之, 茂岡忠義編著, p.193-209 東海大学出版会
5. 井上真紀　(2012) 外来アリの世界侵略史と社会構造. 地球環境 17: 119-126
4. Tsuchida K, Kondo NI., Inoue MN, Goka K (2010) Reproductive disturbance risks to indigenous Japanese bumblebees from introduced Bombus terrestris. Applied Entomology and Zoology 45: 49-58
3. Inoue MN, Yokoyama J (2010) Competition for flower resources and nest sites between Bombus terrestris (L.) and the Japanese native bumblebees. Applied Entomology and Zoology 45: 29-35
2. Yokoyama J, Inoue MN (2010) Status of the invasion and range expansion of an introduced bumblebee, Bombus terrestris (L.) in Japan. Applied Entomology and Zoology 45: 21-27
1. Inoue MN, Goka K (2009) The invasion of alien ant across continents with special reference to Argentine Ants and Red Imported Fire Ants. Biodiversity 10: 67-71

Reports

11. 澤畠拓夫, 石倉明莉, 井上真紀 (2019) マイマイガの産卵場所としての広葉樹. 近畿大学農学部紀要 54: 38-40
10. 澤畠拓夫, 井上真紀 (2018) 近畿大学奈良キャンパスにおけるマイマイガの大発生5年後の産卵状況. 近畿大学農学部紀要 51: 76-78
9. 澤畠拓夫, 井上真紀 (2018) マイマイガの卵塊の色と産卵環境の地域性. 虫と自然 51: 20-23
8. 仲井まどか, 国見裕久, 井上真紀 (2016) 寄生蜂に対する毒素タンパク質を産生する昆虫ウイルス. 昆虫と自然 51: 20-23
7. 井上真紀, 仲井まどか, 国見裕久 (2016) 昆虫の性を操る微生物：オス殺し細菌とウイルス.昆虫と自然 51: 24-27
6. 岸本年郎, 井上真紀 (2009) 小さな侵略者 アルゼンチンアリ. 地理54: 68-71
5. 横山潤, 井上真紀, 伊藤誠夫・鷲谷いづみ (2007) 根室半島におけるノサップマルハナバチの訪花植物に関する予察的研究. 根室市歴史と自然の資料館紀要21: 59-63
4. 横山潤, 井上真紀,　伊藤誠夫・鷲谷いづみ (2007) 根室市内で発見されたセイヨウオオマルハナバチ（Bombus terrestris (L.)）とその在来マルハナバチ相に対する潜在的影響. Sylvicola 24: 83-86
3. 横山潤, 中島真紀 (2005) セイヨウオオマルハナバチの分布拡大の動向. 昆虫と自然40: 24-26
2. Yokoyama J, Nakajima M, Yoshida M, Ushijima J, Yokoyama A, Nemoto T, Ohashi H (2004) Flower visitor fauna of on Lespedeza subgenus Macrolespedeza in northern Japan. The Journal of Japanese Botany 79: 358-369
1. Yokoyama J, Nakajima M, Nemoto T, Ohashi H (2000) Preliminary observations on flower visitors of Lespedeza subgenus Macrolespedeza in Korea. The Journal of Japanese Botany 75: 248-256

Presentations

International Conferences

21. Arai H, Katsuma S, Matsuda-Imai N, Sasaki T, Anbutsu T, Wijinarko A, Lin SR, Inoue MN, Kageyama D. Wolbachia-induced male-killing and phage WO: genes, diversity of mechanisms, and evolution. 12th International Wolbachia Conference, Crete, Greece. June 2023
20. Takamatsu T, Itoh Y, Sigeno R, Chien-Fu W, Kitaura K, Inoue MN. Effect of late male-killing viruses infected in Homona magnanima. 12th International Wolbachia Conference, Crete, Greece. June 2023
19. Konishi K, Arai H, Takamatsu T, Ito K, Inoue MN. Different infection patterns of the symbiotic microorganism Wolbachia in male and female of Homona magnanima. 12th International Wolbachia Conference, Crete, Greece. June 2023
18. Maki MN, Haga Y, Sato N, Arai H, Nakai M, Pavlushin S, Martemyanov V. Environmental persistence of Lymantria dispar multiple nucleopolyhedrovirus after epizootics. IV All-Russian Plant Protection Congress with international participation, St. Petersburg, Russia SEP 2019
17. Fujita T, Inoue MN, Takamatsu T, Arai H, Nishino M, Koyama H, Abe N, Itokawa K, Nakai M, Kunimi Y. Identification of Osugroshi virus, a late male-killing virus in Homona magnanima. The 2018 International Congress of Invertebrate Pathology, Gold Coast, Australia, AUG 2018
16. Nishino M, Fujita R, Nakai M, Kunimi Y, Inoue MN. Late male killing caused by novel RNA viruses Partitiviridae in a tea pest, Homona magnanima. Wolbachia Conference, Boston, USA, JUN 2018
15. Arai H, Lin SR, Nakai M, Kunimi Y, Inoue MN. The third Male Killer: Characterization of Male-killing Wolbachia in oriental tea tortrix Homona magnanima. Wolbachia Conference, Boston, USA, JUN 2018
14. Arai H, Takamatsu T, Hirano T, Nakai M, Kumimi Y, Inoue MN. Sex ratio distortion in tea pest Homona magnanima: a complicated association of host and endosymbiotic microbes. Society for invertebrate pathology. San Diego, USA, AUG 2017
13. Takamatsu T, Abe N, Nakai M, Kunimi Y, Inoue M. The prevalence of two male-killing agents and ecological characteristic in Homona magnanima. 9th International Wolbachia Conference, Queensland, Australia, JUL 2016
12. Arai H, Hirano T. Nakai M, Kunimi Y, Inoue M. Multiple infections and reproductive manipulations of Wolbachia in Homona magnanima. 9th International Wolbachia Conference, Queensland, Australia, JUL 2016
11. Inoue M, Sakamoto Y, Goka K. Ecological impacts on native ant and ground-dwelling animal communities through the invasive Argentine ant management in Japan. XVIII. International Plant Protection Congress. Berline, Germany. AUG 2015（招待講演）
10. Inoue M, Yanagisawa T, Nakai M, Kunimi Y. Decline of native bumblebees (Bombus) and Nosema (Microspordia: Nosematidae) infections associated with introduction of the European bumblebee in Northern Japan. International Congress on Invertebrate Pathology. Mainz, Germany. AUG 2014
9. Inoue M, Koyama S, Paris C, Goka K, Ito F. Recent range expansion and population genetics of the Argentine ant. International Union for the Study of Social Insects International Congress, Cairns, Australia, JUL 2014
8. Inoue M, Goka K. Understanding invasion history and the eradication project of the Argentine ant in Japan. XXIV International Congress of Entomology. Daegu, Korea, AUG 2012
7. Inoue M, Ito F, Goka K. Understanding invasion history: the recent range expansion and population genetics of the Argentine ant in Japan. 3rd Meeting of IUFRO Working Unit 7.03.12. Tokyo, Japan, JUN 2012
6. Inoue M. Eradication projects of the alien insects in the Great Economic, Japan. Joint Meeting the 59th Annual Meeting of ESJ and the 5th EAFES International Congress. Shiga, Japan. MAR 2012
5. Inoue M, Goka K. Understanding invasion history and the eradication project of the Argentine ant in Japan. 25th International Congress for Conservation Biology. Auckland, New Zealand, DEC 2011
4. Inoue M, Tsuchida K, Goka K. Genetic structure and queen-worker conflict over sex ratio in bumblebees. Global Conference of Entomology. Chiang Mai, Thailand, MAR 2011
3. Inoue M. Argentine ant genetics in Japan. International Invasive Ant Management Workshop. Darwin, Austria, APR 2010
2. Inoue M, Goka K. The invasion of the Argentine ant across continents and the eradication. Island Invasives: Eradication and Management Conference. Auckland, New Zealand, FEB 2010
1. Inoue M, Goka K. The voyage of an invasive species across continents: genetic variation of worldwide Argentine ant population. The 10th International Congress of Ecology, Brisbane, Australia, AUG 2009

Domestic Conferences

特別講演・招待講演・市民講座など

11. 井上真紀 (2021) 社会性昆虫マルハナバチのリスク評価手法の確立. 日本農薬学会第46 回大会. 東京都 (招待講演)
10. 井上真紀 (2019) 農業生態系における昆虫と共生．第3回日本生物防除協議会シンポジウム（特別講演）
9. 井上真紀・仲井まどか・国見裕久 (2018) チャハマキにおける共生微生物による性操作．第13回 昆虫病理研究会シンポジウム（招待講演）
8. 井上真紀 (2018) 花蜂との蜜月-美味しいトマトとの関係-．府中市自然環境学習会
7. 井上真紀 (2017) ミツバチに対する昆虫病原性微生物の生態リスク．生物防除部会
6. 井上真紀（2016）有用昆虫における微胞子虫の感染とその影響．第12回 昆虫病理研究会シンポジウム（招待講演）
5. 井上真紀（2016）虫 vs 病気！～進化のドラマ～．Cafe 自愉時間 vol. 12（招待講演）
4. 井上真紀（2015）侵略的外来生物の脅威とその防除対策．第19回農薬相模セミナー（招待講演）
3. 井上真紀（2014）気づけば苦⼿が仕事になる．「学⽣生のための研究キャリアビジョンセミナー～女性研究者編〜」．茨城大学理学部（招待講演）
2. 井上真紀（2014）生態学的女性研究者論．公開シンポジウム「これからの科学者を育てるために」．日本昆虫学会第74回大会広島大会（招待講演）
1. 井上真紀（2010）侵略的外来生物の生態リスク‐外来アリ類を例に‐．横浜国立大学・国立環境研究所グローバルCOEプログラム 「アジア視点の国際生態リスクマネジメント」公開シンポジウム 「生態リスク管理の実践 ～若手研究者による挑戦の軌跡～」

Funding

KAKENHI

挑戦的研究（萌芽) 令和5年～　計4,900千円 研究代表者
「ハチノスツヅリガを用いた病原性微生物のin vivo評価系の構築」
国際共同研究加速基金（国際共同研究強化（B)) 令和3年～　計14,600千円 研究代表者
「ハマキガのオスを殺す共生細菌ボルバキアの進化プロセスの解明」
基盤研究(B)（一般）令和元年～令和4年　計17,290千円　研究代表者
「生理・生態情報および時空間解析に基づくマイマイガ大発生メカニズムの解明」
基盤研究(C)（一般）平成25～27年度　計3,300千円 研究代表者
「外来種アルゼンチンアリのパーソナリティ特性とスーパーコロニーの進化機構の解明」
基盤研究(C)（一般）平成22～24年度　計2,900千円 研究代表者
「侵略的外来種アルゼンチンアリにおけるスーパーコロニーの進化と維持機構の解明」

Fundation

農林水産省二国間国際共同研究事業（ロシアとの共同公募に基づく共同研究分野）
　令和3年　研究代表者
　「広域発生動態の推定に基づく新たな総合的森林害虫管理システムの確立」
大下財団研究助成　令和3年4月～令和4年3月　計1,000千円　研究代表者
　「ハチ感染性病原体の巣寄生性チョウ目昆虫を介した感染様式」
農林水産省戦略的国際共同研究推進委託事業・国際共同研究パイロット事業（ロシアとの共同公募に基づく共同研究分野）
　平成29年8月～令和2年3月　計28,835千円　研究代表者
　「森林害虫マイマイガの個体群制御に向けた核多角体病ウイルスの生活史戦略の解明」
大下財団研究助成　令和元年4月～令和2年3月　計1,000千円　研究代表者
　「外来生物セイヨウオオマルハナバチの侵入に伴った内部寄生性微生物の毒性進化」
大下財団研究助成　平成30年4月～令和元年3月　計1,000千円 研究代表者
　「外来生物の侵入に伴った寄生性微生物の分散パターンの検出と宿主応答の変異」
大下財団研究助成　平成28年4月～29年3月　計1,000千円 研究代表者
　「侵略的外来種アルゼンチンアリの原産地および侵入地における分布拡大経路の解明」
住友財団環境研究助成、平成25年11月～26年度　計1,100千円 研究代表者
　「寄生蜂をベクターとする昆虫ウイルス－アスコウイルスの野外における発生動態の解明」
住友財団環境研究助成（平成23年～24年）計1,200千円 研究代表者
　「マルハナバチの巣内遺伝構造と性比をめぐる女王・ワーカー間の対立関係の解明」