Systematics and evolution of gall formation in the plant‐associated genera of the wasp subfamily Doryctinae (Hymenoptera: Braconidae) |
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Authors: | ALEJANDRO ZALDÍVAR‐RIVERÓN JUAN J. MARTÍNEZ SERGEY A. BELOKOBYLSKIJ CARLOS PEDRAZA‐LARA SCOTT R. SHAW PAUL E. HANSON FERNANDO VARELA‐HERNÁNDEZ |
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Affiliation: | 1. Colección Nacional de Insectos, Instituto de Biología, Universidad Nacional Autónoma de México, , Coyoacán, México;2. División Entomología, Museo Argentino de Ciencias Naturales ‘Bernardino Rivadavia’, CONICET, , Buenos Aires, Argentina;3. Museum and Institute of Zoology, Polish Academy of Sciences, , Warsaw, Poland;4. Department of Ecosystem Science and Management (3354), University of Wyoming, , Laramie, WY, U.S.A.;5. Escuela de Biología, Universidad de Costa Rica, , San Pedro de Montes de Oca, Costa Rica |
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Abstract: | Gall formation is a specialised form of phytophagy that consists of abnormal growth of host plant tissue induced by other organisms, principally insects and mites. In the mainly parasitoid wasp subfamily Doryctinae, gall association, represented by gall inducers, inquilines and their parasitoids, is known for species of seven genera. Previous molecular studies recovered few species of six of these genera as monophyletic despite their disparate morphologies. Here, we reconstructed the evolutionary relationships among 47 species belonging to six gall‐associated doryctine genera based on two mitochondrial and two nuclear gene markers. Most of the Bayesian analyses, performed with different levels of incomplete taxa and characters, supported the monophyly of gall‐associated doryctines, with Heterospilus (Heterospilini) as sister group. Percnobracon Kieffer and Jörgensen and Monitoriella Hedqvist were consistently recovered as monophyletic, and the validity of the monotypic Mononeuron was confirmed with respect to Allorhogas Gahan. A nonmonophyletic Allorhogas was recovered, although without significant support. The relationships obtained and the gathered morphological and biological information led us to erect three new genera originally assigned to Psenobolus: Ficobolus gen.n. (F. paniaguai sp.n. and F. jaliscoi sp.n. ), Plesiopsenobolus gen.n. (Pl. mesoamericanus sp.n. , Pl. plesiomorphus van Achterberg and Marsh comb.n. , and Pl. tico sp.n. ), and Sabinita gen.n. (S. mexicana sp.n. ). The origin of the gall‐associated doryctine clade was estimated to have occurred during the middle Miocene to early Oligocene, 16.33–30.55 Ma. Our results support the origin of true gall induction in the Doryctinae from parasitoidism of other gall‐forming insects. Moreover, adaptations to attack different gall‐forming taxa on various unrelated plant families probably triggered species diversification in the main Allorhogas clade and may also have promoted the independent origin of gall formation on at least three plant groups. Species diversification in the remaining doryctine taxa was probably a result of host shifts within a particular plant taxon and shifts to different plant organs. This published work has been registered in ZooBank, http://zoobank.org/urn:lsid:zoobank.org:pub:0021F253‐4ABA‐4EAA‐A7A9‐FC0AD1932EA3 |
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