教員氏名 |
津田みどり トップページへ 生防研天敵昆虫学へ マメとマメゾウムシと寄生蜂へ |
TUDA, Midori To top page To natural enemy
insects lab., Inst. Biol. Control Seed, seed beetles and their parasitoids |
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所属部局名 |
大学院農学研究院 |
Faculty of Agriculture |
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部門名 |
資源生物科学部門 農業生物科学講座 |
Department of Bioresource
Sciences |
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Eメール |
tuda.midori.022 a
m.kyushu-u.ac.jp |
tuda.midori.022 a
m.kyushu-u.ac.jp |
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ウェブページURL |
http://www.agr.kyushu-u.ac.jp/~tuda/mamezo.html |
http://www.agr.kyushu-u.ac.jp/~tuda/mamezo-eng.html |
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電話番号 |
092-802-4580 |
+81-92-802-4580 (tel) |
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取得学位 |
博士(学術)・東京大学 |
Ph.D., University of
Tokyo |
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専門分野 |
個体群生態学・進化生態学・分子系統進化学・応用昆虫学 |
Population ecology, Evolutionary
ecology, Molecular phylogenetics |
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研究・教育・社会活動概要 |
生物的防除の成否を決める、被食者−捕食者(植物−植食性昆虫,寄主−寄生蜂など)関係にある生物の個体数変動と進化的変化および種分化過程について研究。対象は、実験室生態系,アジア・欧州の植物(特にマメ科種子)を資源とする昆虫生態系,森林生態系,農生態系。 特に,温暖化や二酸化炭素濃度上昇のような地球環境変化やナノ農薬が,捕食関係(農生態系・森林生態系における作物と害虫,害虫や雑草木と天敵の関係)に及ぼす影響について研究中。 最近は,植食性昆虫の種分化の誘因となりうる寄主植物範囲拡大の生態学的・遺伝子発現メカニズムや,触角節数多型の進化的維持機構,種子発芽に及ぼす種子食昆虫の影響についても研究。 また、特異的な植物と昆虫の関係を紐解くため、植物、化学物質、昆虫のデータベース(PIB)や捕食寄生者と寄主のデータベース(PHD)を構築中。 |
Brief c.v. and list of papers
(Researchmap) |
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研究キーワード |
種多様性, 被食者−捕食者(植物−植食性昆虫, 寄主−寄生蜂)間相互作用の進化, 地球環境変化, 貯穀害虫の進化過程の研究, カオスの発生機構, 非線形時系列モデル, 被食者−捕食者の時空間動態, 生物的防除, 雑草木防除, 多型の維持機構, 寄主範囲拡大・シフト中の遺伝子発現, 集団の遺伝的構造, 共生菌, ナノ農薬, 行動 |
Biological control,
Biodiversity, Evolution of predator-prey interactions (between plant and
herbivorous insects, between host-parasitoid) under climate change, Evolution
of stored product pests, Emergence of chaotic dynamics, Nonlinear time series
model, Predator-prey temporal and spatial dynamics, Weed control, Maintenance
of polymorphism, Gene expression during host range expansion or host shift,
Population genetic structure, Endosymbiont, Nano-pesticides, Behavior |
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研究業績(論文、著書、受賞) |
以下の論文は、Nature
Reviews Genetics, Nature Reviews Materials, PNAS, Annual Review of
Entomology, Science of the Total Environment, Quarterly Review of Biology,
Biological Reviews, Ecology Letters, Proceedings of the Royal Society B,
Advances in Ecological Research, Ecological Applications, Molecular Ecology,
Functional Ecology 等の英米の学術誌をはじめ、Oikos 等、欧州の学術誌にて引用されている。 旧世界とくにモンスーンアジアにおけるマメゾウムシとマメ科寄主植物の進化的関係とその多様性、ホストシフトの機構、性的二型や生活史の進化、外来性植物・昆虫の侵入、雑草木防除、内部共生菌、ナノ農薬 Gao S*, Tuda M* (2024) Silica and
selenium nanoparticles attract or repel scale insects by altering
physicochemical leaf traits. Plants 13, 952. https://doi.org/10.3390/plants13070952 Miksanek JR*, Adarkwah C, Tuda M* (2024)
Low concentrations of selenium nanoparticles enhance the performance of a
generalist parasitoid and its host, with no net effect on host suppression. Pest Management Science 80: 1812–1820. Helmy EAM, San PP, Zhang YZ, Adarkwah C,
Tuda M (2023) Entomotoxic efficacy of fungus-synthesized nanoparticles
against immature stages of stored bean pests. Scientific Reports 13,
8508. https://doi.org/10.1038/s41598-023-35697-1. Miksanek JR*, Tuda M* (2023)
Endosymbiont-mediated resistance to entomotoxic nanoparticles and
sex-specific responses in a seed beetle. Journal of Pest Science 96,
1257–1270. https://doi.org/10.1007/s10340-023-01596-7. San PP*, Zhang YZ, Helmy EAM*, Adarkwah
C*, Tuda M* (2023) Sex-dependent effects of biosynthesized nanoparticles on
stored bean pests and their non-target parasitoid. Crop Protection 173, 106352.
https://doi.org/10.1016/j.cropro.2023.106352. Tuda M*, Iwase S, Kébé K, Haran J,
Skuhrovec J, Sanaei E, Tsuji N, Podlussány A, Merkl O, El-Heneidy AH,
Morimoto K (2021) Diversification, selective sweep, and body size in the
invasive Palearctic alfalfa weevil infected with Wolbachia. Scientific
Reports 11, 9664 (14 pp.), DOI: 10.1038/s41598-021-88770-y. Thabet AF*, Boraei HA, Galal OA,
El-Samahy MFM, Mousa KM, Zhang YZ, Tuda M*, Helmy EA, Wen J, Nozaki T (2021)
Silica nanoparticles as pesticide against insects of different feeding types
and their non-target attraction of predators. Scientific Reports 11,
14484, DOI: 10.1038/s41598-021-93518-9. Gyorgy Z, Tuda M* (2020) Host plant range
expansion to Gymnocladus dioica by
an introduced seed predatory beetle Megabruchidius
dorsalis. Entomological Science 23,
28–32. Sanaei E, Husemann M, Seiedy M, Rethwisch
M, Tuda M, Toshova TB, Kim MJ, Atanasova D, Kim I (2019) Global
genetic diversity, lineage distribution and Wolbachia infection of the alfalfa weevil Hypera postica (Coleoptera: Curculionidae). Ecology and Evolution 9, 9546–9563. 津田みどり (2019) 「植食性昆虫と植物の進化的関係:マメゾウムシとマメ科植物を例に」,昆虫と自然54(13),9–12. Takano S, Tuda M, Takasu K, Furuya N,
Imamura Y, Kim S, Tashiro K, Iiyama K, Tavares M, Amaral AC (2017) Unique
clade of alphaproteobacterial endosymbionts induces complete cytoplasmic
incompatibility in the coconut beetle. PNAS
114(23), 6110–6115. Kebe K, Alvarez N, Tuda M, Arnqvist G,
Fox CW, Sembene M, Espindola A (2017) Global phylogeography of the insect
pest Callosobruchus maculatus
(Coleoptera: Bruchinae) relates to the history of its main host, Vigna unguiculata. Journal of Biogeography 44 (11),
2515–2526. Fukuda K, Yanagawa A, Tuda M*, Sakurai G,
Kamitani S, Furuya N (2016) Sexual difference in antennal sensilla density
and size in Callosobruchus rhodesianus
(Coleoptera: Chrysomelidae: Bruchinae). Applied
Entomology and Zoology 51 (4), 641–651. Iwase S, Tani S, Saeki Y, Tuda M*, Haran
J, Skuhrovec J, Takagi
M (2015) Dynamics of infection with Wolbachia
in Hypera postica (Coleoptera:
Curculionidae) during invasion and establishment. Biological Invasions
17, 3639–3648. Downey MH,
Searle R, Bellur S, Geiger A, Maitner BS, Ohm JR, Tuda M, Miller TEX (2015) A
comparative approach to testing hypotheses for the evolution of sex-biased
dispersal in bean beetles. Ecology and
Evolution 5, 4819–4828. Arnqvist G, Sayadi
A, Immonen E, Hotzy C, Rankin D, Tuda M, Hjelmen CE, Johnston JS (2015)
Genome size correlates with reproductive fitness in seed beetles. Proceedings of the Royal Society B 282,
20151421. Kergoat GJ, Le
Ru BP, Sadeghi SE, Tuda M, Reid CAM, György Z, Genson G, Ribeiro-Costa CS,
Delobel A (2015) Evolution of Spermophagus
seed beetles (Coleoptera, Bruchinae, Amblycerini) indicates both synchronous
and delayed colonizations of host plants. Molecular
Phylogenetics and Evolution 89, 91–103. Iwase S, Nakahira
K, Tuda M*, Kagoshima K, Takagi M (2015) Host-plant dependent population
genetics of the invading weevil Hypera
postica. Bulletin of Entomological
Research 105 (1), 92–100. Tuda M,
Kagoshima K, Toquenaga Y, Arnqvist G (2014) Global genetic differentiation in
a cosmopolitan pest of stored beans: effects of geography, host-plant usage
and anthropogenic factors. PLoS ONE 9(9),
e106268. Saeki Y, Tuda
M, Crowley PH (2014) Allocation trade-offs and life histories: a conceptual
and graphical framework. Oikos 123(7),
786–793. Tuda M, Wu L-H,
Yamada N, Wang C-P, Wu W-J, Buranapanichpan S, Kagoshima K, Chen ZQ, Teramoto
KK, Kumashiro BR, Heu R (2014) Host shift capability of a specialist seed
predator of an invasive plant: roles of competition, population genetics and
plant chemistry. Biological Invasions
16(2), 303–313. Yahara et al. (Tuda M 17/29) (2013) Global legume diversity assessment: concepts, key indicators,
and strategies. TAXON 62 (2),
249–266. Yanagi S, Saeki
Y, Tuda M (2013) Adaptive egg size plasticity for larval competition and its
limits in the seed beetle Callosobruchus
chinensis. Entomologia
Experimentalis et Applicata 148 (2), 182–187. Yanagi S, Tuda
M (2012) Female size
constrains egg size via the influence of reproductive organ size and resource
storage in the seed beetle Callosobruchus
chinensis. Journal of Insect Physiology 58 (11), 1432–1437. Kondo NI, Tuda M, Toquenaga Y, Lan Y-C,
Buranapanichpan S, Horng S-B, Shimada M, Fukatsu T (2011) Wolbachia
infections in world populations of bean beetles (Coleoptera: Chrysomelidae:
Bruchinae) infesting cultivated and wild legumes. Zoological Science 28 (7):
501–508. Tuda M (2011) Evolutionary
diversification of bruchine beetles: climate-dependent traits and development
associated with pest status. Bulletin
of Entomological Research 101 (4), 415–422. Matsuo K, Yara K, Kagoshima K, Tuda M,
Moriya S (2011) Finding of Torymus koreanus (Hymenoptera: Torymidae)
attacking Dryocosmus kuriphilus (Hymenoptera: Cynipidae) in Japan. Entomological
Science 14 (1): 100–102. Arnqvist G,
Dowling DK, Eady P, Gay L, Tregenza T, Tuda M, Hosken DJ (2010) The genetic
architecture of metabolic rate: environment specific epistasis between
mitochondrial and nuclear genes in an insect. Evolution 64 (12): 3354–3363. Arnqvist G, Tuda M (2010) Sexual conflict and the gender load: correlated
evolution between population fitness and sexual dimorphism in seed beetles. Proceedings of the Royal Society B
277, 1345–1352. Yanagi S, Tuda M
(2010) Interaction effect among maternal environment, maternal investment and
progeny genotype on life history traits in Callosobruchus chinensis. Functional
Ecology 24 (2), 383–391. Tuda M, Wu L-H,
Tateishi Y, Niyomdham C, Buranapanichpan S, Morimoto K, Wu W-J, Wang C-P,
Chen Z, Zhu H, Zhang Y, Murugan K, Chou L-Y, Johnson CD (2009) A novel host
shift and invaded range of a seed predator, Acanthoscelides macrophthalmus (Coleoptera: Chrysomelidae:
Bruchinae), of an invasive weed, Leucaena
leucocephala. Entomological Science
12 (1), 1–8. Tuda M (2007) Applied evolutionary
ecology of insects of the subfamily Bruchinae (Coleoptera: Chrysomelidae). Applied Entomology and Zoology 42 (3),
337–346. Kergoat GJ, Silvain J-F, Delobel A, Tuda
M, Anton K-W (2007) Defining the limits of taxonomic conservatism in
host-plant use for phytophagous insects: Molecular systematics and evolution
of host-plant associations in the seed-beetle genus Bruchus Linnaeus (Coleoptera: Chrysomelidae: Bruchinae). Molecular
Phylogenetics and Evolution 43
(1), 251–269. Kergoat GJ, Silvain J-F, Buranapanichpan
S., Tuda M (2007) When insects help to resolve plant phylogeny: evidence for
a paraphyletic genus Acacia from
the systematics and host-plant range of their seed-predators. Zoologica Scripta 36 (2), 143–152. Tuda M, Ronn J, Buranapanichpan S, Wasano
N, Arnqvist G (2006) Evolutionary diversification of the bean beetle genus Callosobruchus (Coleoptera:
Bruchidae): traits associated with stored-product pest status. Molecular Ecology 15 (12), 3541–3551. Tuda M, Chou L-Y, Niyomdham C,
Buranapanichpan S, Tateishi Y (2005) Ecological factors associated with pest
status in Callosobruchus
(Coleoptera: Bruchidae): high host specificity of non-pests to Cajaninae
(Fabaceae). Journal of Stored Products
Research 41 (1), 31–45. Tuda M, Wasano N, Kondo N, Horng S-B,
Chou L-Y, Tateishi Y (2004) Habitat-related mtDNA polymorphism in a
stored-bean pest Callosobruchus
chinensis (Coleoptera: Bruchidae). Bulletin
of Entomological Research 94 (1), 75–80. Tuda M, Shima K, Johnson CD, Morimoto K
(2001) Establishment of Acanthoscelides
pallidipennis (Coleoptera: Bruchidae) feeding in seeds of the introduced
legume Amorpha fruticosa, with a
new record of its Eupelmus
parasitoid in Japan. Applied Entomology
and Zoology 36 (3), 269–276. 寄主―寄生蜂系(被食者―捕食者系)の個体群動態・進化動態、行動、気象要因の影響、機械学習 Hameed MS*, Ren Y*, Tuda M, Basit A,
Urooj N (2024) Role of Argonaute proteins in RNAi pathway in Plutella
xylostella: A review. Gene 903, 148195. Iwase S, Tuda M*, Sugawara Y, Fukuda K,
Miksanek JR, Watanabe M (2023) Negative phototaxis of jumping cocooned
parasitoid wasp larvae against short wavelengths and physicochemical
properties of the cocoon shell. Scientific Reports 13, 9562. https://doi.org/10.1038/s41598-023-36686-0 Zhang YZ*, Jin Z, Miksanek JR*, Tuda M*
(2021) Impact of a nonnative parasitoid species on intraspecific interference
and offspring sex ratio. Scientific Reports 11, 23215, DOI: 10.1038/s41598-021-02713-1. San PP*, Tuda M*, Takagi M (2021) Impact
of relative humidity and water availability on the life history of the
predatory mite Amblyseius swirskii. BioControl 66, 497–510, DOI: 10.1007/s10526-021-10081-y. Tuda M*, Luna-Maldonado AI* (2020)
Image-based insect species and gender classification by trained supervised
machine learning algorithms. Ecological Informatics 60, 101135, DOI: 10.1016/j.ecoinf.2020.101135.
Nakamichi Y, Tuda M*, Wajnberg E (2020)
Intraspecific interference between native parasitoids modified by a
non-native parasitoid and its consequence on population dynamics. Ecological
Entomology 45, 1263–1271. DOI: 10.1111/een.12909. San PP*, Tuda M*, Nakahira K, Takagi M (2020)
Optimal rearing medium for the population growth of the predatory mite,
Amblyseius swirskii (Athias-Henriot) (Acari: Phytoseiidae). Egyptian
Journal of Biological Pest Control 30, 130, DOI: 10.1186/s41938-020-00332-y. Saeki Y, Tani S, Fukuda K, Iwase S,
Sugawara Y, Tuda M, Takagi M. (2016) Costs and benefits of larval jumping
behaviour of Bathyplectes anurus. Science of Nature 103, 1. DOI:
10.1007/s00114-015-1324-1. Byeon YW, Tuda M, Takagi M, Kim JH, Choi
MY (2011) Life history parameters and temperature requirements for the
development of an aphid parasitoid Aphelinus
asychis (Hymenoptera: Aphelinidae). Environmental
Entomology 40(2), 431–440.
Yamanaka T, Teshiba M, Tuda M, Tsutsumi T
(2011) Possible use of synthetic aggregation pheromones to control stinkbug Plautia stali in kaki persimmon
orchards. Agricultural and Forest
Entomology 13 (3), 321–331. Vamosi SM, den Hollander MD, Tuda M
(2011) Egg dispersion is more important than competition type for herbivores
attacked by a parasitoid. Population
Ecology 53(2), 319–326. Byeon YW, Tuda M, Kim JH, Choi MY (2011)
Functional responses of aphid parasitoids, Aphidius colemani (Hym: Braconidae) and Aphelinus asychis (Hym: Aphelinidae). Biocontrol Science and Technology 21(1), 57–70. Ayabe Y, Tuda M, Mochizuki A (2008)
Benefits of repeated mine trackings by a parasitoid when the host leafminer
has a tortuous feeding pattern. Animal
Behaviour 76 (6), 1795–1803.
Tuda M (2007) Understanding mechanism of
spatial ecological phenomena: a preface to the special feature on “Spatial
statistics”. Ecological Research 22
(2), 183–184. Tuda M, Matsumoto T, Itioka T, Ishida N, Takanashi
M, Ashihara W, Kohyama M, Takagi M (2006) Climatic and intertrophic effects
detected in 10-year population dynamics of biological control of the
arrowhead scale by two parasitoids in southwestern Japan. Population Ecology 48 (1), 59–70. Wu Z, Hopper KR, Ode PJ, Fuester RW, Tuda
M, Heimpel GE (2005) Single-locus complementary sex determination absent in Heterospilus prosopidis (Hymenoptera:
Braconidae). Heredity 95 (3), 228–234. Tuda M, Shimada M (2005) Complexity, evolution
and persistence in host-parasitoid experimental systems, with Callosobruchus beetles as the host.
In: Desharnais RA (ed.), Population Dynamics and Laboratory Ecology (Advances
in Ecological Research 37), pp. 37–75,
Elsevier Academic Press, San Diego. Tuda M, Shima K (2002) Relative
importance of weather and density dependence on the dispersal and on-plant
activity of the predator Orius minutus.
Population Ecology 44 (3): 251–257. Tuda M, Bonsall MB (1999) Evolutionary
and population dynamics of host-parasitoid interactions. Researches on Population Ecology 41(1): 81–91. Tuda M (1998) Evolutionary character
changes and population responses in an insect host-parasitoid experimental
system. Researches on Population
Ecology 40(3): 293–299. Tuda M, Iwasa Y (1998) Evolution of
contest competition and its effect on host-parasitoid dynamics. Evolutionary Ecology 12 (7): 855–870. Tuda M (1996) Temporal/spatial structure
and the dynamical property of laboratory host-parasitoid systems. Researches on Population Ecology 38
(2): 133–140. Shimada M, Tuda M (1996) Delayed density
dependence and oscillatory population dynamics in overlapping-generation
systems of Callosobruchus chinensis;
Projection matrix model. Oecologia
105 (1): 116–125. Tuda M, Shimada M (1995) Developmental
schedules and persistence of experimental host-parasitoid systems at two
different temperatures. Oecologia
103 (3): 283–291. Tuda M (1993) Density dependence depends
on scale; at larval resource patch and at whole population. Researches on Population Ecology 35
(2): 261–271. Tuda M, Shimada M (1993) Population-level
analysis on reduction in equilibrium population size of the azuki bean
beetle. Researches on Population
Ecology 35 (2): 231–239. Tuda M, Fujii K (1993) Effects of temperature
increase on insect community. Proceedings
of International Symposium on Global Change (IGBP) (Y. Oshima ed.): 554–560. マメゾウムシ等の植食性昆虫の新種記載
Tuda M (2008) A new species of Bruchidius (Coleoptera: Chrysomelidae:
Bruchinae) from Albizia in Northern
Thailand and a review of Bruchidius Group
5. Zoological Science 25(4), 451–454. Tuda M, Morimoto K (2004) A new species Megabruchidius sophorae (Coleoptera,
Bruchidae), feeding on seeds of Styphnolobium
(Fabaceae) new to Bruchidae. Zoological
Science 21 (1), 105–110. Tuda M (2003) A new species of Callosobruchus (Coleoptera: Bruchidae)
feeding on seeds of Dunbaria
(Fabaceae), a closely related species to a stored-bean pest, C. chinensis. Applied Entomology and Zoology 38 (2), 197–201. Yukawa J, Uechi N, Horikiri M, Tuda M
(2003) Description of the soybean pod gall midge, Asphondylia yushimai sp. nov. (Diptera: Cecidomyiidae), a major
pest of soybean and findings of host alternation. Bulletin of Entomological Research 93 (1): 73–86. 教科書・事典・解説・総説 津田みどり (2012)「食ったり食われたり」,生態学入門,第2版(日本生態学会編、東京化学同人)[Link] 津田みどり (2006) 寄主穿孔深度と寄生蜂産卵管長の間の軍拡競走:資源サイズとトレードオフの影響. 日本生態学会誌 56 (1),
63–72. 津田みどり (2004)「食ったり食われたり」,生態学入門(日本生態学会編,東京化学同人) 津田みどり (2003)「時系列解析」,生態学事典(巖佐庸,松本忠夫,菊沢喜八郎 編, 共立出版) 津田みどり (1998)「個体数変動の時系列からカオスを読みとる」,生物物理 38 (2): 75–77.
津田みどり (1997) 実験生態系におけるパラドックスとカオス,シリーズ・ニューバイオフィジックス第 10 巻「数理生態学」(巖佐庸編, 共立出版),pp. 79–89.
津田みどり (1996) マメ−マメゾウムシ−寄生蜂実験群集における共存持続機構. 日本生態学会誌
46: 313–320. 津田みどり (1994) 豆における混み合いの効果,シャーレを覗けば地球が見える(藤井宏一・嶋田正和・川端善一郎編,平凡社),pp. 66–80. その他 Adarkwah
C*, Tuda M, Adjei RR, Obeng-Ofori D, Ulrichs C, Schöller M (2022) Evaluation
of three German enhanced diatomaceous earth formulations for the management
of two major storage pests in Ghana. Journal of Stored Products Research
96, 101947. Thabet
A.F.*, Galal O.A., Tuda M.*, El-Samahy M.F.M., Helmy E.A. (2020) Toxicity
evaluation of nano silver on faba bean germination and seedling development.
Journal of the Faculty of Agriculture, Kyushu University 65(2), 263-268. Galal
OA*, Thabet AF, Tuda M*, El-Samahy MFM (2020) RAPD analysis of
genotoxic effects of nano-scale SiO2 and TiO2 on broad
bean Vicia faba L. Journal of
the Faculty of Agriculture, Kyushu University 65(1), 57–63. Thabet
AF, Galal OA, El-Samahy MFM, Tuda M* (2019) Higher toxicity of nano-scale
TiO2 and dose-dependent genotoxicity of nano-scale SiO2
on the cytology and seedling development of broad bean Vicia faba. SN Applied
Sciences 1, 956.
DOI: 10.1007/s42452-019-0960-z. Shinohara
T, Kamitani S, Tuda M, Hirowatari T (2018) The importance of olfactory
cues in short-range mate finding by the Japanese jewel beetle, Chrysochroa fulgidissima (Coleoptera,
Buprestidae). ELCAS Journal 3, 23–25. 津田みどり (2017) 「乾燥種子食昆虫の乾燥耐性の進化」冷凍 92, 565–567. 津田みどり・岩瀬俊一郎・佐伯順子 (2016) 「侵入害虫アルファルファタコゾウムシの寄主植物、遺伝的系統、近縁種、ボルバキア感染および導入寄生蜂幼虫の跳躍行動」農業および園芸 91(11),
1080–1084. 津田みどり (2015) 種子食昆虫における乾燥耐性の進化,低温生物工学会誌 61(1),
9–11. Ikegawa Y, Ezoe H, Namba T, Tuda M*
(2014) Effects of nonspecific adaptive defense by pests on efficiency of
biological control by multiple natural enemies. Journal of the Faculty of Agriculture, Kyushu University 59(2),
305−311. 松尾和典、屋良佳織利、鹿児嶋久美子、津田みどり、守屋成一(2013)クリタマバチ寄生蜂、チョウセンオナガコバチ(ハチ目:オナガコバチ科)の国内初発見と識別法、植物防疫 67, 445–449. Tuda M, Matsuo K, Yara K, Kagoshima K,
Murakami Y, Ohkubo N, Moriya S (2010) Genetic diversity of Torymus species among islands off
Kyushu. In: A global serious pest of
chestnut trees, Dryocosmus kuriphilus: yesterday, today and tomorrow (S.
Moriya, ed.), pp. 26–29. Byeon YW, Tuda M, Takagi M, Kim JH, Kim
YH (2009) Non-reproductive host killing caused by Aphelinus asychis (Hymenoptera: Aphelinidae), a parasitoid of
cotton aphid, Aphis gossypii
(Homoptera: Aphididae). Journal of the
Faculty of Agriculture, Kyushu University 54(2), 369–372. Maldonado AIL, Yamaguchi Y, Tuda M,
Nakaji K (2008) Development of an intelligent robot for an agricultural
production ecosystem (III) - modeling of the predation of rice plants and
weeds by golden apple snail –. Journal
of the Faculty of Agriculture, Kyushu University 53(2), 517–521. Maldonado AIL, Yamaguchi Y, Tuda M,
Nakaji K (2008) Development of an intelligent robot for an agricultural
production ecosystem (II) - modeling of the competition between rice plants
and weeds -. Journal of the Faculty of
Agriculture, Kyushu University, 53(2), 511–516. 津田みどり (2008)「10年後のマクロ生物学」生物科学60(1), 61. 受賞
2005年度個体群生態学会奨励賞「実験室実験系を用いた寄主-寄生蜂系についての個体群生態学および進化生態学」 2005年度日本応用動物昆虫学会奨励賞「マメゾウムシ科昆虫の応用進化生態学的研究」 |
Main papers: Evolutionary
relation between bean beetles and host plants and its diversity in the
Old-World, especially Monsoon Asian regions, Host-shift mechanism, Evolution
of sexual dimorphism and life history, Invasion of alien plants and insects,
Weed control, Endosymbionts Tuda M*, Iwase S, Kébé K, Haran J,
Skuhrovec J, Sanaei E, Tsuji N, Podlussány A, Merkl O, El-Heneidy AH,
Morimoto K (2021) Diversification, selective sweep, and body size in the
invasive Palearctic alfalfa weevil infected with Wolbachia. Scientific
Reports 11, 9664, DOI: 10.1038/s41598-021-88770-y. Takano S, Tuda M, Takasu K, Furuya N,
Imamura Y, Kim S, Tashiro K, Iiyama K, Tavares M, Amaral AC (2017) Unique
clade of alphaproteobacterial endosymbionts induces complete cytoplasmic
incompatibility in the coconut beetle. PNAS,
114(23), 6110–6115. Kebe K, Alvarez N, Tuda M, Arnqvist G,
Fox CW, Sembene M, Espindola A (2017) Global phylogeography of the insect
pest Callosobruchus maculatus
(Coleoptera: Bruchinae) relates to the history of its main host, Vigna unguiculata. Journal of Biogeography, 44 (11),
2515–2526. Fukuda K, Yanagawa A, Tuda M*, Sakurai G,
Kamitani S, Furuya N (2016) Sexual difference in antennal sensilla density
and size in Callosobruchus rhodesianus
(Coleoptera: Chrysomelidae: Bruchinae). Applied
Entomology and Zoology 51 (4), 641–651. DOI: 10.1007/s13355-016-0441-4. Iwase S, Tani S, Saeki Y, Tuda M*, Haran
J, Skuhrovec J, Takagi
M (2015) Dynamics of infection with Wolbachia
in Hypera postica (Coleoptera:
Curculionidae) during invasion and establishment. Biological Invasions
17, 3639–3648. Downey MH,
Searle R, Bellur S, Geiger A, Maitner BS, Ohm JR, Tuda M, Miller TEX (2015) A
comparative approach to testing hypotheses for the evolution of sex-biased
dispersal in bean beetles. Ecology and
Evolution 5, 4819–4828. Arnqvist G,
Sayadi A, Immonen E, Hotzy C, Rankin D, Tuda M, Hjelmen CE, Johnston JS
(2015) Genome size correlates with reproductive fitness in seed beetles. Proceedings of the Royal Society B 282,
20151421. Kergoat GJ, Le
Ru BP, Sadeghi SE, Tuda M, Reid CAM, György Z, Genson G, Ribeiro-Costa CS,
Delobel A (2015) Evolution of Spermophagus
seed beetles (Coleoptera, Bruchinae, Amblycerini) indicates both synchronous
and delayed colonizations of host plants. Molecular
Phylogenetics and Evolution 89, 91–103. Iwase S,
Nakahira K, Tuda M*, Kagoshima K, Takagi M (2015) Host-plant dependent
population genetics of the invading weevil Hypera postica. Bulletin of
Entomological Research 105 (1), 92–100. Tuda M,
Kagoshima K, Toquenaga Y, Arnqvist G (2014) Global genetic differentiation in
a cosmopolitan pest of stored beans: effects of geography, host-plant usage
and anthropogenic factors. PLoS ONE 9(9),
e106268. Tuda M, Wu L-H,
Yamada N, Wang C-P, Wu W-J, Buranapanichpan S, Kagoshima K, Chen ZQ, Teramoto
KK, Kumashiro BR, Heu R (2014) Host shift capability of a specialist seed
predator of an invasive plant: roles of competition, population genetics and
plant chemistry. Biological Invasions 16(2),
303–313. Kondo NI, Tuda M, Toquenaga Y, Lan Y-C,
Buranapanichpan S, Horng S-B, Shimada M, Fukatsu T (2011) Wolbachia infections
in world populations of bean beetles (Coleoptera: Chrysomelidae: Bruchinae)
infesting cultivated and wild legumes. Zoological Science 28 (7):
501–508. Tuda M (2011) Evolutionary
diversification of bruchine beetles: climate-dependent traits and development
associated with pest status. Bulletin
of Entomological Research 101 (4), 415–422. Arnqvist G,
Dowling DK, Eady P, Gay L, Tregenza T, Tuda M, Hosken DJ (2010) The genetic
architecture of metabolic rate: environment specific epistasis between mitochondrial
and nuclear genes in an insect. Evolution
64 (12): 3354–3363. Arnqvist G, Tuda M (2010) Sexual conflict and the gender load: correlated
evolution between population fitness and sexual dimorphism in seed beetles. Proceedings of the Royal Society B
277, 1345–1352. Yanagi S, Tuda
M (2010) Interaction effect among maternal environment, maternal investment
and progeny genotype on life history traits in Callosobruchus chinensis. Functional
Ecology 24 (2), 383–391. Tuda M, Wu L-H,
Tateishi Y, Niyomdham C, Buranapanichpan S, Morimoto K, Wu W-J, Wang C-P,
Chen Z, Zhu H, Zhang Y, Murugan K, Chou L-Y, Johnson CD (2009) A novel host
shift and invaded range of a seed predator, Acanthoscelides macrophthalmus (Coleoptera: Chrysomelidae:
Bruchinae), of an invasive weed, Leucaena
leucocephala. Entomological Science
12 (1), 1–8. Tuda M (2007) Applied evolutionary
ecology of insects of the subfamily Bruchinae (Coleoptera: Chrysomelidae). Applied Entomology and Zoology 42 (3),
337–346. Kergoat GJ, Silvain J-F, Delobel A, Tuda
M, Anton K-W (2007) Defining the limits of taxonomic conservatism in
host-plant use for phytophagous insects: Molecular systematics and evolution
of host-plant associations in the seed-beetle genus Bruchus Linnaeus (Coleoptera: Chrysomelidae: Bruchinae). Molecular
Phylogenetics and Evolution 43
(1), 251–269. Kergoat GJ, Silvain J-F, Buranapanichpan
S, Tuda M (2007) When insects help to resolve plant phylogeny: evidence for a
paraphyletic genus Acacia from the
systematics and host-plant range of their seed-predators. Zoologica Scripta 36 (2), 143–152. Tuda M, Ronn J, Buranapanichpan S, Wasano
N, Arnqvist G (2006) Evolutionary diversification of the bean beetle genus Callosobruchus (Coleoptera: Bruchidae):
traits associated with stored-product pest status. Molecular Ecology 15
(12), 3541–3551. Tuda M, Chou L-Y, Niyomdham C,
Buranapanichpan S, Tateishi Y (2005) Ecological factors associated with pest
status in Callosobruchus
(Coleoptera: Bruchidae): high host specificity of non-pests to Cajaninae
(Fabaceae). Journal of Stored Products
Research 41 (1), 31–45. Tuda M, Wasano N, Kondo N, Horng S-B,
Chou L-Y, Tateishi Y (2004) Habitat-related mtDNA polymorphism in a
stored-bean pest Callosobruchus chinensis
(Coleoptera: Bruchidae). Bulletin of
Entomological Research 94 (1), 75–80. Tuda M, Shima K, Johnson CD, Morimoto K
(2001) Establishment of Acanthoscelides
pallidipennis (Coleoptera: Bruchidae) feeding in seeds of the introduced
legume Amorpha fruticosa, with a
new record of its Eupelmus
parasitoid in Japan. Applied Entomology
and Zoology 36 (3), 269–276. Evolutionary/population/behavioral
dynamics of host-parasitoid (prey-predator) systems, Effect of climatic factors,
Effect of nanoparticles, Machine learning Gao S*, Tuda M* (2024) Silica and
selenium nanoparticles attract or repel scale insects by altering
physicochemical leaf traits. Plants 13, 952. Miksanek JR*, Adarkwah C, Tuda M* (2023)
Low concentrations of selenium nanoparticles enhance the performance of a
generalist parasitoid and its host, with no net effect on host suppression. Pest Management Science 80: 1812–1820. Iwase S, Tuda M*, Sugawara Y, Fukuda K,
Miksanek JR, Watanabe M (2023) Negative phototaxis of jumping cocooned
parasitoid wasp larvae against short wavelengths and physicochemical
properties of the cocoon shell. Scientific Reports 13, 9562. https://doi.org/10.1038/s41598-023-36686-0 Miksanek JR*, Tuda M* (2023)
Endosymbiont-mediated resistance to entomotoxic nanoparticles and
sex-specific responses in a seed beetle. Journal of Pest Science 96,
1257–1270.
https://doi.org/10.1007/s10340-023-01596-7. San PP*, Zhang YZ, Helmy EAM*, Adarkwah
C*, Tuda M* (2023) Sex-dependent effects of biosynthesized nanoparticles on
stored bean pests and their non-target parasitoid. Crop Protection 173, 106352.
https://doi.org/10.1016/j.cropro.2023.106352. Zhang YZ*, Jin Z, Miksanek JR*, Tuda M*
(2021) Impact of a nonnative parasitoid species on intraspecific interference
and offspring sex ratio. Scientific Reports 11, 23215, DOI: 10.1038/s41598-021-02713-1. Thabet AF*, Boraei HA, Galal OA,
El-Samahy MFM, Mousa KM, Zhang YZ, Tuda M*, Helmy EA, Wen J, Nozaki T (2021)
Silica nanoparticles as pesticide against insects of different feeding types
and their non-target attraction of predators. Scientific Reports 11,
14484, DOI: 10.1038/s41598-021-93518-9. San PP*, Tuda M*, Takagi M (2021) Impact
of relative humidity and water availability on the life history of the
predatory mite Amblyseius swirskii. BioControl 66, 497–510, DOI: 10.1007/s10526-021-10081-y. Tuda M*, Luna-Maldonado AI (2020)
Image-based insect species and gender classification by trained supervised
machine learning algorithms. Ecological Informatics 60, 101135, https://doi.org/10.1016/j.ecoinf.2020.101135. Nakamichi Y, Tuda M*, Wajnberg E (2020)
Intraspecific interference between native parasitoids modified by a
non-native parasitoid and its consequence on population dynamics. Ecological
Entomology 45, 1263–1271. DOI: 10.1111/een.12909. Saeki Y, Tani S, Fukuda K, Iwase S,
Sugawara Y, Tuda M, Takagi M. (2016) Costs and benefits of larval jumping
behaviour of Bathyplectes anurus. The Science of Nature 103, 1.
DOI: 10.1007/s00114-015-1324-1. Yamanaka T, Teshiba M, Tuda M, Tsutsumi T
(2011) Possible use of synthetic aggregation pheromones to control stinkbug Plautia stali in kaki persimmon orchards. Agricultural and Forest Entomology 13 (3), 321–331. Vamosi SM, den Hollander MD, Tuda M
(2011) Egg dispersion is more important than competition type for herbivores
attacked by a parasitoid. Population
Ecology 53(2), 319–326. Byeon YW, Tuda M, Kim JH, Choi MY (2011)
Functional responses of aphid parasitoids, Aphidius colemani (Hym:
Braconidae) and Aphelinus asychis
(Hym: Aphelinidae). Biocontrol
Science and Technology 21(1),
57–70. Ayabe Y, Tuda M, Mochizuki A (2008)
Benefits of repeated mine trackings by a parasitoid when the host leafminer
has a tortuous feeding pattern. Animal
Behaviour 76 (6), 1795–1803. Tuda M (2007) Understanding mechanism of
spatial ecological phenomena: a preface to the special feature on “Spatial
statistics”. Ecological Research 22 (2), 183–184. Tuda M, Matsumoto T, Itioka T, Ishida N,
Takanashi M, Ashihara W, Kohyama M, Takagi M (2006) Climatic and intertrophic
effects detected in 10-year population dynamics of biological control of the
arrowhead scale by two parasitoids in southwestern Japan. Population Ecology 48 (1), 59–70.
Tuda M, Shima K (2002) Relative
importance of weather and density dependence on the dispersal and on-plant
activity of the predator Orius minutus. Population Ecology 44 (3): 251–257. Tuda M, Bonsall MB (1999) Evolutionary
and population dynamics of host-parasitoid interactions. Researches on Population Ecology 41(1): 81–91.
Tuda M (1998) Evolutionary character
changes and population responses in an insect host-parasitoid experimental
system. Researches on Population
Ecology 40(3): 293–299. Tuda M, Iwasa Y (1998) Evolution of
contest competition and its effect on host-parasitoid dynamics. Evolutionary Ecology 12 (7): 855–870. Tuda M (1996) Temporal/spatial structure
and the dynamical property of laboratory host-parasitoid systems. Researches on Population Ecology 38 (2): 133–140. Tuda M, Shimada M (1995) Developmental
schedules and persistence of experimental host-parasitoid systems at two
different temperatures. Oecologia 103 (3): 283–291. Tuda M (1993) Density dependence depends
on scale; at larval resource patch and at whole population. Researches on Population Ecology 35 (2): 261–271. Description
of new bruchine beetles Tuda M (2008) A new species of Bruchidius (Coleoptera: Chrysomelidae: Bruchinae) from Albizia in Northern Thailand and a review of Bruchidius Group
5. Zoological Science 25(4), 451–454. Tuda M, Morimoto K (2004) A new species Megabruchidius sophorae (Coleoptera, Bruchidae),
feeding on seeds of Styphnolobium (Fabaceae) new to Bruchidae.
Zoological Science 21 (1), 105–110. Tuda M (2003) A new species of Callosobruchus (Coleoptera: Bruchidae) feeding on seeds of Dunbaria (Fabaceae), a closely related species to a stored-bean
pest, C. chinensis. Applied Entomology and Zoology 38 (2), 197–201. Book
chapter Tuda M, Shimada M (2005) Complexity,
evolution and persistence in host-parasitoid experimental systems, with Callosobruchus beetles as the host. In: Desharnais RA (ed), Population
Dynamics and Laboratory Ecology (Advances in Ecological Research 37),
pp. 37–75, Elsevier Academic
Press, San Diego. Awards The second Young Scientist
Award by the Society of Population Ecology, 2005 The fifth Young
Scientist Award by the Japanese Society of Applied Entomology and Zoology,
2005 |
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発表論文数等 |
年度 |
2002 |
2003 |
2004 |
2005 |
2006 |
2007 |
2008 |
2009 |
2010 |
2011 |
2012 |
2013 |
2014 |
2015 |
2016 |
2017 |
原著論文・著書等 |
2 |
3 |
2 |
3 |
4 |
2 |
5 |
3 |
5 |
5 |
2 |
4 |
4 |
6 |
2 |
5 |
|
学会発表 |
6 |
3 |
5 |
6 |
1 |
5 |
8 |
3 |
7 |
6 |
5 |
6 |
13 |
13 |
6 |
2 |
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受賞 |
0 |
0 |
0 |
2 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
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科学研究費等取得状況 |
科学研究費補助金(2019–2021年,基盤研究C,代表)「トランスクリプトームから紐解く可塑性・適応と体内外生物群集の関係」 科学研究費補助金(2018–2020,基盤研究B,分担)「侵入害虫キムネクロナガハムシの生殖を操作する新規共生細菌の伝播メカニズムの解明」 科学研究費補助金(2017–2019,基盤研究B,分担)「マメ毒に対するマメゾウムシ類の適応分化:解毒機構と乾燥種子利用の遺伝的多様性」 九州大学学術研究推進支援機構 研究活動基礎支援制度(2016,国際学会派遣支援,代表) 住友財団助成金(2015.11.-2016.11.,環境研究,代表)「気候変化が生物的防除系構成種の遺伝子発現と適応進化に与える影響」 SATREPS地球規模課題対応国際科学技術協力プログラム(2015−2018,分担)「大メコン圏の戦略作物、キャッサバの侵入病害虫対策に基づく持続的生産システムの開発と普及」 科学研究費補助金(2014–2016,基盤研究B,分担)「マメゾウムシ類の適応的多様化:種子毒耐性と乾燥種子利用によるジェネラリストの進化」 科学研究費補助金(2013–2016,基盤研究C,代表)「寄主植物シフトにおける遺伝子の発現・系統および相互作用生物の効果」 九州大学教育研究プログラム・研究拠点形成プロジェクト(P&P)(2013,代表)「ホストジャンプの生態学的決定要因と遺伝子発現メカニズム」 文部科学省科学技術振興調整 女性研究者養成システム改革加速事業(2012,国際学会派遣支援,代表) 文部科学省科学技術振興調整 女性研究者養成システム改革加速事業(2011,国際学会派遣支援,代表) 科学研究費補助金(2011–2013,基盤研究B,分担)「マメゾウムシ類の寄主シフトによるジェネラリストの派生的進化:毒物質と乾燥種子利用」 科学研究費補助金(2010–2012,基盤研究C,代表)「系統的慣性と性選択の対立:昆虫における触角節数の集団内多型の進化維持機構」 科学研究費補助金(2009–2011,基盤研究A,分担)「侵入害虫キムネクロナガハムシの生物的防除の有効性における科学的検証」 科学研究費補助金(2008–2010,基盤研究B,分担)「マメ科植物と種子捕食性昆虫における共進化の分子系統解析:毒性物質の効果」 科学研究費補助金(2007–2009,基盤研究C,代表)「相利共生的な種子食昆虫の多様性と保全」 科学研究費補助金(2007–2009,基盤研究B,分担)「侵入害虫クリタマバチと天敵寄生蜂の導入が土着寄主・寄生蜂相の動態に及ぼす影響の解析」 科学研究費補助金(2007–2009,基盤研究B,分担)「東アジア農林生態系におけるアリ類の種多様性とバイオインディケーターとしての利用」 特定国派遣研究者(2007,ハンガリー,代表)「植食性昆虫の食性幅の進化的決定要因」 科学研究費補助金(2005–2007,基盤研究B,分担)「マメ科植物とその寄生/共生生物における共進化の系統対応解析」 科学研究費補助金(2003–2005,若手B,代表)「植食性昆虫における食性幅進化の解明:狭食・植物食から広食・共食いまで」 科学研究費補助金(2003–2005,基盤研究A,分担)「天敵の利用を中心としたわが国と東南アジアにおける蔬菜害虫の総合的害虫管理」 在外研究員(創造開発研究)旅費(2002,代表)「雑草の生物的防除に関する研究」 科学研究費補助金(2002–2004,基盤研究B,分担)「マメ科植物とその寄生/共生生物の系統対応から見た共進化過程の解明」 笹川科学研究助成金(2001–2002,代表)「日本における外来植物の自然保全型生物的防除のための基礎研究:イタチハギの種子食昆虫を例として」 (〜2001年) |
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所属学会・各種役員 |
個体群生態学会、日本生態学会、日本応用動物昆虫学会、日本数理生物学会、日本進化学会、日本昆虫学会、日本分子生物学会、Entomological Society of America, Society for the Study of
Evolution 個体群生態学会理事(2021–2023) Applied
Entomology and Zoology編集委員(2019–2020) Applied
Entomology and Zoology編集責任者(2017–2018) 個体群生態学会大会運営委員(2017) 個体群生態学会理事(2015–2017) 個体群生態学会会報編集長(2015–2017) 日本昆虫学会大会ウェブサイト管理責任者(2015) 個体群生態学会運営委員(2013–2014) 日本生態学会企画委員会ポスター賞部会会長(2010–2011) 日本応用動物昆虫学会評議員(2009–2011) 日本生態学会全国委員(2008–2009) 日本生態学会九州地区委員(2007–) 個体群生態学会運営委員(2007–2011) Ecological
Research編集幹事(2006–2007) Entomological
Science編集幹事(2006–2007) 日本生態学会誌編集委員(2005–) Applied
Entomology and Zoology編集委員(2005–2009) Population
Ecology編集委員(2001–2004) Journal
of Asia-Pacific Entomology編集委員(2008–) ISRN
Ecology編集委員(2011–2013) Hamilton Award等、国内外各種学会賞審査委員 日本学術振興会、Henry &
Sylvia Richardson Research Grant等、国内外各種研究費審査委員 |
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教育活動・地域社会貢献 |
学部教育: 「生物生産生態学」講義、「集団生物学」講義、「生物的防除学」講義、「生態系の科学」講義、「Plant Protection and Pest Management」講義 大学院教育: 「総合的病害虫管理学」講義、「天敵利用と環境保全型農業」講義、「トランスジェニック生物学概論」講義、「Applied Genetics and Pest Management」講義、天敵昆虫学講究、生物的防除講究演習、生物的防除論特別研究、生物的防除論演習 教科書執筆等: 「動物学の百科事典」分担執筆、「生態学辞典」分担執筆、「生態学入門」分担執筆 他大学講義: 北海道大学大学院集中講義「資源解析学特論」、「海洋生物資源科学部門・学術講演」 その他: 福岡県立久留米高等学校出前講義「生物のしなやかな生き方と集団の振る舞い」 福岡市環境影響評価審査会委員、国交省九州地方整備局事業評価監視委員、熊本県環境影響評価審査会委員 |
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招待講演、TV放映 |
Tuda
M.
Host-plant change and its mechanism in invasive pest beetles. Symposium on invasive insects: current trends and
future directions in research, Fukuoka, 2015.2.8. Tuda M, Aung TL, Kagoshima K, Nakamichi Y,
Wajnberg E. Host-parasitoid population dynamics and individual behavior under
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