Final Report Summary - HYBRID-GENES (The Repeatability of Genetic Architecture)
We have collected population samples, and ecological and morphological data to evaluate how introgression shapes genomic regions affecting ecological factors and morphological traits. We have also tested prezygotic reproductive barriers between allopatric and parapatric populations, obtained a hybrid pedigree in the laboratory and genetic data (genotyping and RAD-sequencing) for the inference of SNPs and genotypes.
We are currently analysing introgression levels in natural populations; and 2) the genetic architecture of speciation and adaptation. We will identify genes responsible for reproductive isolation, and selective sweeps; and I will investigate if certain genomic regions (chromosomal blocks) are repeatedly inherited from the same parental species, the size of genomic linkage islands, and if these differ between populations.
This project will contribute to Europeans excellence and competitiveness from multiple perspectives. First, it will provide new insights into the evolutionary puzzle of insect speciation by understanding the processes leading to the origin of reproductive barriers. Secondly, it will provide new insights of the genomic patterns of introgression. Over the past decade, European research has played an extensive role in identifying and assessing global change as a major tools to gain insights into the genetic consequences. Only with this knowledge is it possible to approach decision makers to formulate conservation plans for European species. This highlighted benefit from my project should not be underestimated as this scenario is unfortunately highly realistic for many populations in rapidly changing and fragmented habitats, and is therefore of major concern for conserving biodiversity on the global scale.