全て査読有りの論文です。Google Scholarも参照してください。論文の被引用数が表示されています。
First author論文数:21本(55.3%, Corresponding authorも含む)
全て査読有りの論文です。Google Scholarも参照してください。論文の被引用数が表示されています。
First author論文数:21本(55.3%, Corresponding authorも含む)
38. Yao I (2026) Ant attendance shapes the selective pressures on the genes of the endosymbiont Buchnera in Tuberculatus aphids. Symbiosis (in press).
37. Niida T, Yao I, Nisimura T, and Suzuki S (2024). Detection of extra-pair maternity in a carrion beetle under natural conditions. Ecological Entomology 49, 734-738.
36. Yao I (2023) Mutualism enhances Wolbachia infection rates in ant-attended Tuberculatus aphid species (Hemiptera: Aphididae). Evolutionary Ecology 37, 627-643.
35. Parven N, Yao I, Kanbe T, and Akimoto S (2021) Heat shock alters pea aphid‐Buchnera interactions: negative allometry of gene densities. Entomologia Experimentalis et Applicata 169, 462-471. **Editor’s choiceに選ばれました.
34. Yoshizawa K, Marusik YM, Yao I, and Lienhard C (2020) Systematic position of the enigmatic Psocid family Lesneiidae (Insecta: Psocodea: Psocomorpha), with description of two new species. Insect Systematics and Diversity 4:6;1-6.
33. Matsumura Y, Beutel RG, Rafael JA, Yao I, Camara JT, Lima SP, and Yoshizawa K (2020) The evolution of Zoraptera. Systematic Entomology 45, 349-364.
32. Yoshizawa K, Lienhard C, Yao I, and Ferreira RL (2019) Cave insects with sex-reversed genitalia had their most recent common ancestor in West Gondwana (Psocodea: Prionoglarididae: Speleketorinae). Entomological Science 22, 334-338.
31. Yao I (2019) Seasonal changes in the density of the symbionts Buchnera and Wolbachia of the aphid Tuberculatus macrotuberculatus on Quercus dentata. Entomologia Experimentalis et Applicata 167, 261-268.
30. Yoshizawa K, Ferreira RL, Yao I, Lienhard C, and Kamimura Y (2018) Independent origins of female penis and its coevolution with male vagina in cave insects (Psocodea: Prionoglarididae). Biology Letters 14, Article ID:20180533
29. Yoshizawa K, Johnson KP, Sweet AD, Yao I, Ferreira RL, and Cameron SL (2018) Mitochondrial phylogenomics and genome rearrangements in the barklice (Insecta: Psocodea). Molecular Phylogenetics and Evolution 119, 118-127.
28. Yoshizawa K, Johnson KP, Yao I, Casasola Gonzalez JA, Bess E, and Garcia Aldrete AN (2017) Multiple trans-Beringia dispersals of the barklouse genus Trichadenotecnum (Insecta: Psocodea: Psocidae). Biological Journal of the Linnean Society 121, 501-513.
27. Yoshizawa K, Yao I, and Lienhard C (2016) Molecular phylogeny reveals genital convergences and reversals in the barklouse genus Trichadenotecnum(Insecta: Psocodea: 'Psocoptera': Psocidae). Molecular Phylogenetics and Evolution 94, 358-364.
26. Watanabe T, Yao I, and Akimoto S (2015) Taxonomic revision of the Tuberculatus quercicola group (Hemiptera: Aphididae: Drepanosiphinae), myrmecophilous aphids associated with Quercus species, based on morphometric and molecular phylogenetic studies. Entomological Science 18, 55-65.
25. Matsumura Y, Yao I, Beutel RG, and Yoshizawa K (2014) Molecular phylogeny of the leaf beetle subfamily Criocerinae (Insecta: Coleoptera: Chrysomelidae) and the correlated evolution of reproductive organs. Arthropod Systematics and Phylogeny 72, 95-110.
24. Suzuki S and Yao I* (2014) Isolation of nine polymorphic microsatellite loci from the burying beetle, Nicrophorus quadripunctatus (Coleoptera: Silphidae). Applied Entomology and Zoology 47, 143-148. *Corresponding author
23. Yao I (2014) Costs and constraints in aphid-ant mutualism. Ecological Research 29, 383-391.
22. Yamagishi A, Yao I, Johnson KP, and Yoshizawa K (2014) Comparisons of host specificity between feather louse genera (Insecta: Phthiraptera: Philopteridae) parasitizing gulls (Aves: Laridae: Larus). Zoological Science 31, 383-389.
21. Yao I (2012) Seasonal trends in honeydew-foraging strategies in the red wood ant Formica yessensis (Hymenoptera: Formicidae). Sociobiology 59, 1351-1363.
20. Yao I and Kanbe T (2012) Unique haplotypes in ant-attended aphids and widespread haplotypes in non-attended aphids. Ecology and Evolution 2, 2315-2324.
19. Yao I (2012) Seasonal changes in the flight apparatus of winged females and sexual males of the aphid Tuberculatus quercicola (Hemiptera: Aphididae). Applied Entomology and Zoology 47, 143-148.
18. Yao I (2012) Ant attendance reduces flight muscle and wing size in the aphid Tuberculatus quercicola. Biology Letters 8, 624-627.
17. Hasegawa E, Yao I, Futami K, Yagi N, Kobayashi K, and Kudo S (2012) Isolation of microsatellite loci from the millipede, Brachycybe nodulosa Verhoeff. Conservation Genetics Resources 4, 89-91.
16. Yao Iand Katagiri C (2011) Comparing wing loading, flight muscle, and lipid content in ant-attended and non-attended Tuberculatus aphid species. Physiological Entomology 36, 327-334.
15. Matsumura Y and Yao I* (2011) Isolation of nine polymorphic microsatellite loci in the leaf beetle, Lema (Lema) coronata (Coleoptera: Chrysomelidae: Criocerinae). European Journal of Entomology 108, 697-699. *Corresponding author
14. Yao I (2011) Phylogenetic comparative methods reveal higher wing loading in ant-attended Tuberculatus aphids (Hemiptera: Aphididae). The Canadian Entomologist 143, 35-43.
13. Yao I (2010) Contrasting patterns of genetic structure and dispersal ability in ant-attended and non-attended Tuberculatus aphids. Biology Letters 6, 282-286.
12. Tatsuta H, Yao I, and Tanaka Y (2009) Isolation of eight microsatellite markers from Moina macrocopafor assessing cryptic genetic structure in the wild. Molecular Ecology Resources 9, 904-906.
11. Yao I and Akimoto S (2009) Seasonal changes in the genetic structure of an aphid-ant mutualism as revealed using microsatellite analysis of the aphid Tuberculatus quercicola and the ant Formica yessensis. Journal of Insect Science 9:9, available online: insectscience.org/9.09
10. Yao I, Tatsuta H, and Akimoto S (2006) Isolation of six microsatellite markers from apterous grasshopper Podisma kanoi (Orthoptera: Podisminae). Molecular Ecology Notes 6. 1067-1069.
9. Yao I. (2004) Effect of summer flush leaves of the Daimyo oak, Quercus dentata, on density, fecundity and honeydew excretion by the drepanosiphid aphid Tuberculatus quercicola (Sternorrhyncha: Aphididae). European Journal of Entomology 101. 531-538.
8. Koyama Y, Yao I, and Akimoto S (2004) Aphid galls accumulate high concentration of amino acids: a support for the nutrition hypothesis for gall formation. Entomologia Experimentalis et Applicata 113. 35-44.
7. Kurokawa T, Yao I*, Akimoto S, and Hasegawa E (2004) Isolation of six microsatellite markers from the pea aphid, Acyrthosiphon pisum (Homoptera, Aphididae). Molecular Ecology Notes 4. 523-524. *Corresponding author
6. Ueno H, Fujiyama N, Yao I, Sato Y, and Katakura H (2003) Genetic architecture for normal and novel host-plant use in two local populations of the herbivorous ladybird beetle, Epilachna pustulosa. Journal of Evolutionary Biology 16. 883 -895.
5. Yao I, Akimoto S, and Hasegawa E (2003) Isolation of microsatellite markers from the drepanosiphid aphid Tuberculatus quercicola (Homoptera, Aphididae). Molecular Ecology Notes 3. 542-543.
4. Yao Iand Akimoto S (2002) Flexibility in the composition and concentration of amino acids in honeydew of the drepanosiphid aphid Tuberculatus quercicola. Ecological Entomology 27. 745-752.
3. Yao Iand Akimoto S (2001) Ant attendance changes the sugar composition of the honeydew of the drepanosiphid aphid Tuberculatus quercicola. Oecologia 128. 36-43.
2. Yao I, Shibao H, and Akimoto S (2000) Costs and benefits of ant attendance to the drepanosiphid aphid Tuberculatus quercicola. Oikos 89. 3-10.
1. Azuma T, Yao I, Kim D, Sakuma Y, Kojima Y, and Miura K (1996) Sequence and characterization of the genomic clone of the FDS gene from the Basidiomycete Flammulina velutipes. Mokuzai Gakkaishi 42. 875-880.