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Ampelomyia, a new genus of Schizomyiina (Diptera: Cecidomyiidae) associated with Vitis (Vitaceae) in the Palaearctic and Nearctic regions, with description of a new species from Japan

Published online by Cambridge University Press:  14 February 2019

Ayman Khamis Elsayed*
Affiliation:
The United Graduate School of Agricultural Sciences, Kagoshima University, Kagoshima, 890-0065, Japan; Laboratory of Systems Ecology, Faculty of Agriculture, Saga University, Saga, 840-8502, Japan; Department of Applied Entomology, Faculty of Agriculture, Alexandria University, Alexandria, Egypt
Nami Uechi
Affiliation:
Division of Fruit Production and Postharvest Science, Institute of Fruit Tree and Tea Science, National Agriculture and Food Research Organization, Tsukuba, Ibaraki, Japan
Junichi Yukawa
Affiliation:
Entomological Laboratory, Faculty of Agriculture, Kyushu University, Fukuoka, Japan
Makoto Tokuda
Affiliation:
Laboratory of Systems Ecology, Faculty of Agriculture, Saga University, Saga, 840-8502, Japan
*
1Corresponding author (e-mail: [email protected])

Abstract

A gall midge that induces conical leaf galls on wild Vitis Linnaeus (Vitaceae) species in Japan was previously identified based on the gall shape as the Nearctic Schizomyia viticola (Osten Sacken) (Diptera: Cecidomyiidae: Cecidomyiinae: Asphondyliini: Schizomyiina). In 2016, leaf galls were newly found on cultivated Vitis coignetiae Pulliat ex Planchon cultivar Suzumi-murasaki and the wild V. coignetiae, Vitis flexuosa Thunberg, and Vitis ficifolia Bunge in northern Japan. Morphological studies of the larvae and adults obtained from the galls revealed that they were an undescribed taxon distinct from the Nearctic species and did not belong to any known genera of Schizomyiina. A new genus, Ampelomyia Elsayed and Tokuda, is erected for Ampelomyia conicocoricis Elsayed and Tokuda new species. The new genus can be distinguished from other genera of Schizomyiina by having ventroapical extension on tarsomere I, the larval abdominal segment VIII with a posterodorsal lobe, and dorsally shifted pair of larval pleural papillae. Molecular phylogenetic analysis supports this taxonomic treatment. In addition, we also place three Vitis-associated Nearctic species in the new genus: Ampelomyia viticola (Osten Sacken) new combination, A. vitiscoryloides (Packard) new combination, and A. vitispomum (Osten Sacken) new combination.

Type
Systematics and Morphology
Copyright
© Entomological Society of Canada 2019 

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References

Darriba, D., Taboada, G.L., Doallo, R., and Posada, D. 2012. jModelTest 2: more models, new heuristics and parallel computing. Nature Methods, 9: 772.10.1038/nmeth.2109CrossRefGoogle ScholarPubMed
Elsayed, A.K., Ogata, K., Kaburagi, K., Yukawa, J., and Tokuda, M. 2017. A new Dasineura species (Diptera: Cecidomyiidae) associated with Symplocos cochinchinensis (Loureiro) (Symplocaceae) in Japan. Japanese Journal of Systematic Entomology, 23: 8186.Google Scholar
Elsayed, A.K., Shimizu-Kaya, U., Itioka, T., Meleng, P., Yukawa, J., and Tokuda, M. 2018. A new genus and a new species of Schizomyiina (Diptera: Cecidomyiidae: Asphondyliini) inducing petiole galls on Macaranga bancana (Miq.) in Borneo, Malaysia. Zootaxa, 4482: 188196.CrossRefGoogle Scholar
Felt, E.P. 1908. Appendix D, pp. 286–422, 489–510, plates 33–34. In 23rd report of the state entomologist on injurious and other insects of the State of New York 1907. New York State Museum Bulletin, 124: 5541.Google Scholar
Folmer, O., Black, M., Hoew, W., Lutz, R., and Vrijenhoek, R. 1994. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology, 3: 294299.Google ScholarPubMed
Funk, D.J., Futuyma, D.J., Orti, G., and Meyer, A. (1995) Mitochondrial DNA sequences and multiple data sets: a phylogenetic study of phytophagous beetles (Chrysomelidae: Opharaella). Molecular Biology and Evolution, 12: 627640.Google Scholar
Gagné, R.J. 1968. A taxonomic revision of the genus Asteromyia (Diptera: Cecidomyiidae). Miscellaneous Publications of the Entomological Society of America, 6: 140.Google Scholar
Gagné, R.J. 1989. The plant-feeding gall midges of North America. Cornell University Press, Ithaca, New York, United States of America.Google Scholar
Gagné, R.J. 1994. The gall midges of the Neotropical region. Cornell University Press, Ithaca, New York, United States of America.Google Scholar
Gagné, R.J. 2009. Taxonomy of Janetiella thymi (Kieffer) (Diptera: Cecidomyiidae) and of the species formerly in Janetiella that feed on Vitis (Vitaceae). Proceedings of the Entomological Society of Washington, 111: 399409.CrossRefGoogle Scholar
Gagné, R.J. and Jaschhof, M. 2017. A catalog of the Cecidomyiidae (Diptera) of the world, 4th edition [online]. Available from www.ars.usda.gov/ARSUserFiles/80420580/Gagne_2017_World_Cat_4th_ed.pdf [accessed 25 November 2018].Google Scholar
Gagné, R.J., Kim, J.W., Uechi, N., and Yukawa, J. 2018. A new pest Asphondylia (Diptera: Cecidomyiidae) on berries (Vitaceae) in southwestern North America and descriptive notes on the genus. Proceedings of the Entomological Society of Washington, 120: 779790.10.4289/0013-8797.120.4.779CrossRefGoogle Scholar
Guindon, S. and Gascuel, O. 2003. A simple, fast and accurate method to estimate large phylogenies by maximum-likelihood. Systematic Biology, 52: 696704.10.1080/10635150390235520CrossRefGoogle ScholarPubMed
Kambhampati, S. and Smith, P.T. 1995. PCR primers for the amplification of four insect mitochondrial gene fragments. Insect Molecular Biology, 4: 233236.CrossRefGoogle ScholarPubMed
Kolesik, P. and Butterill, P.T. 2015. New gall midges (Diptera: Cecidomyiidae) from Papua New Guinea. Austral Entomology, 54: 7986.CrossRefGoogle Scholar
Matsumura, S. 1898. Japanese entomology. Shokabo, Tokyo, Japan. [In Japanese].Google Scholar
McAlpine, J.F., Peterson, B.V., Shewell, G.E., Teskey, H.J., Vockeroth, J.R., and Wood, M. 1981. Manual of Nearctic diptera. Volume 1. Research Branch, Agriculture Canada Monograph 27. Canadian Government Publishing Centre, Hull, Québec, Canada.Google Scholar
Möhn, E. 1961. Neue Asphondyliidi–Gattungen (Diptera, Itonididae). Stuttgarter Beitrage zur Naturkunde, 49: 114.Google Scholar
Monzen, K. 1929. Studies of galls. Saitô Hoonkai Jigyô Nenpô, 5: 295368.Google Scholar
Monzen, K. 1937. On some new gall midges. Kontyû, 11: 180194.Google Scholar
Saito, K. 1932. Studies of insect galls in Korea. Bulletin of the Scientific Researches of the Alumni Association of the Morioka College of Agriculture and Forestry, 7: 93107. [In Japanese].Google Scholar
Shinji, O. 1944. Galls and gall insects. Shunyodo, Tokyo, Japan.Google Scholar
Simon, C., Frati, F., Beckenbach, A., Crespi, B., Liu, H., and Flook, P. 1994. Evolution, weighting, and phylogenetic utility of mitochondrial gene sequences and a compilation of conserved polymerase chain reaction primers. Annals of the Entomological Society of America, 87: 651701.10.1093/aesa/87.6.651CrossRefGoogle Scholar
Sousa, L.I.D. and Maia, V.C. 2007. A new species of Schizomyia (Diptera, Cecidomyiidae, Asphondyliini) associated with Tetrapterys phlomoides (Malpighiaceae). Iheringia, Série Zoologia, 97: 311313.CrossRefGoogle Scholar
Sunose, T. 1992. Life cycle of the ampelopsis fruit gall midge Asphondylia baca. The Nature and Insects, 27: 2934. [In Japanese].Google Scholar
Tamura, K., Stecher, G., Peterson, D., Filipski, A., and Kumar, S. 2013. MEGA6: molecular evolutionary genetics analysis version 6.0. Molecular Biology and Evolution, 30: 27252729.CrossRefGoogle ScholarPubMed
Tokuda, M. 2004. Illiciomyia Tokuda, a new genus for Illiciomyia yukawai sp. n. (Diptera: Cecidomyiidae: Asphondyliini) inducing leaf galls on Illicium anisatum (Illiciaceae) in Japan. Esakia, 44: 111.10.5109/2678CrossRefGoogle Scholar
Tokuda, M. 2012. Biology of Asphondyliini (Diptera: Cecidomyiidae). Entomological Science, 15: 361383.CrossRefGoogle Scholar
Tokuda, M., Harris, K.M., and Yukawa, J. 2005. Morphological features and molecular phylogeny of Placochela Rübsaamen (Diptera: Cecidomyiidae) with implications for taxonomy and host specificity. Entomological Science, 8: 419427.CrossRefGoogle Scholar
Tokuda, M., Tabuchi, K., Yukawa, J., and Amano, H. 2004. Inter-and intraspecific comparisons between Asteralobia gall midges (Diptera: Cecidomyiidae) causing axillary bud galls on Ilex species (Aquifoliaceae): species identification, host range, and mode of speciation. Annals of the Entomological Society of America, 97: 957970.CrossRefGoogle Scholar
Tokuda, M., Yukawa, J., and Suasa-ard, W. 2008. Dimocarpomyia, a new Oriental genus of the tribe Asphondyliini (Diptera: Cecidomyiidae) inducing leaf galls on longan (Sapindaceae) in Japan. Annals of the Entomological Society of America, 101: 301306.CrossRefGoogle Scholar
Uechi, N., Yukawa, J., and Yamaguchi, D. 2004. Host alternation by gall midges of the genus Asphondylia (Diptera: Cecidomyiidae). Bishop Museum Bulletin in Entomology, 12: 5366.Google Scholar
Yukawa, J. 1971. A revision of the Japanese gall midges (Diptera: Cecidomyiidae). Memoirs of the Faculty of Agriculture, Kagoshima University, 8: 1203.Google Scholar
Yukawa, J. 2014. Family Cecidomyiidae, pp. 126160. In Catalogue of the insects of Japan, volume 8 Diptera, part 1 Nematocera-Brachycera Aschiza. Edited by Editorial Committee of Catalogue of the Insects of Japan, Entomological Society of Japan, Touka Shobo, Fukuoka, Japan. [In Japanese].Google Scholar
Yukawa, J. and Masuda, H. 1996. Insect and mite galls in Japan in color. Zenkoku Nôson Kyôiku Kyôkai, Tokyo, Japan. [In Japanese with English explanations for color plates].Google Scholar