Hybridization between endemic and widespread butterflies

Project: Research funding

Project Details

Abstract

Hybridization is an important evolutionary force. Climate warming is likely to change butterflies' emergence times and distributions, and could consequently lead to increased hybridization between sibling species that are now geographically separated. On the Mediterranean island of Sardinia we find the extraordinary situation that the widespread Meadow Brown butterfly Maniola jurtina overlaps distributionally with the endemic M. nurag. In the areas of overlap the two species hybridize. The genus Maniola includes two other island endemics, M. chia on the Greek island of Chios, and M. cypricola on Cyprus. These are not known to hybridize with M. jurtina. Females of all three endemics and the southern M. jurtina conduct a summer diapause. Successful oviposition after the diapause is crucial for the persistence of the respective population.
The proposed study will investigate (I) Which factors limit hybridization between endemic and widespread Maniola? (II) Are endemic Maniola species ecologically more specialized than the widespread M. jurtina? (III) Which influence has climate warming on the summer diapause and survival of Maniola butterflies?
Methodologically, the assessment of within-population genetic variation and admixture in the F1-generation will include the use of molecular markers like microsatellites and mtDNA sequences. Laboratory crosses will be carried out to experimentally investigate the degree of hybridization and the ecological factors differentiating the species. Chemical composition of pheromones will be analyzed to understand in how far pheromone-communication between species prevents hybridization. Breeding experiments will test the effect of temperature increase on the summer diapause and reproductive success of the butterflies.
The proposed project builds on results obtained during the doctorate thesis of the applicant, and would be a continuation and deepening of the most intriguing questions that came up in earlier research. The study system, where endemic species and a widespread congeneric are separated, on the one hand along an ecological gradient, and on the other hand through isolation on islands, is quite unique. It promises to further our understanding of firstly species' differentiation despite hybridization, and secondly the effects of global warming on summer diapausing butterflies.
StatusFinished
Effective start/end date1/04/1128/02/17

Keywords

  • climate change
  • chemical ecology
  • speciation
  • butterflies
  • Sardinia
  • population genetics