Boloria

Abstract: Species-level phylogeny of the Butterfly tribe Argynnini is established based on 141 characters derived from wing and genitalia morphology of both sexes. The Argynnini can be divided into three subtribes; Yrameina comprising Yramea and Boloria s.l., Argynnina comprising Prokuekenthaliella, Issoria, Brenthis, and all the ‘large fritillary’ species joined in the genus Argynnis s.l. and a new subtribe Euptoietina comprising only the genus Euptoieta. The classical genus Issoria s.l. is polyphyletic regarding Yramea and possibly paraphyletic regarding the two Afrotropic species baumanni and hanningtoni; these two species are tentatively transferred to the old genus/subgenus Prokuekenthaliella. Surprisingly, one Afrotropic species, Issoria smaragdifera is closely related to the East Palaearctic Issoria species. A revised classification of Argynnini is proposed based on the obtained phylogeny. Studies of larval host plants based on the obtained phylogeny suggest that the ancestral Argynnini used Passiflora and Violaceae, but already the ancestor of Yrameina + Argynnina was probably specialized on Violaceae. Whereas the Boloria species have turned to other food plants such as Dryas, Vaccinium and Salix on several occasions, only Brenthis among the Argynnina use other host plants than Viola (mainly Rosaceae). The habit of laying eggs away from the food plant has probably evolved twice within Argynnina. © 2006 The Linnean Society of London, Biological Journal of the Linnean Society, 2006, 89, 627–673.

Abstract: Allozymes were assayed at 20 presumptive loci in increasingly isolated populations of alpine butterflies in the Boloria improba species-group including the endangered Boloria acrocnema. Populations of this Holarctic group were sampled along the Rocky Mountain Cordillera from the Yukon Territory to Colorado. Samples from a more widely distributed and generalist butterfly, Boloria titania, were assayed at 18 presumptive loci for comparative purposes. Estimates of heterozygosity, percent polymorphic loci, mean number of alleles per locus, genetic identity, and distribution of regional and private alleles indicated that the current distribution of butterflies in the B. improba group is the result of a vicariance event. During the last Wisconsin glacial maximum (20 000 to 18 000 years BP) the range of ancestral B. improba was split into Alaskan refugial populations and southern glacial-margin populations. Subsequent dispersal into an ice-free corridor 12 000 to 10 000 years BP from the Alaskan refugial populat...