Impact of commercial pollinators in native species – introgression patterns and parasite prevalence in bumblebees

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Assessing genotype-phenotype associations in three dorsal colour morphs in the meadow spittlebug Philaenus spumarius (L.) (Hemiptera: Aphrophoridae) using genomic and transcriptomic resources

Publication . Rodrigues, Ana S. B.; Silva, Sara E.; Pina-Martins, Francisco; Loureiro, João; Castro, Mariana; Gharbi, Karim; Johnson, Kevin P.; Dietrich, Christopher H.; Borges, P.A.V.; Quartau, J. A.; Jiggins, Chris D.; Paulo, Octávio S.; Seabra, Sofia G.

Colour polymorphisms are common among animal species. When combined with genetic and ecological data, these polymorphisms can be excellent systems in which to understand adaptation and the molecular changes underlying phenotypic evolution. The meadow spittlebug, Philaenus spumarius (L.) (Hemiptera, Aphrophoridae), a widespread insect species in the Holarctic region, exhibits a striking dorsal colour/pattern balanced polymorphism. Although experimental crosses have revealed the Mendelian inheritance of this trait, its genetic basis remains unknown. In this study we aimed to identify candidate genomic regions associated with the colour balanced polymorphism in this species.

2016-11-15Journal article

Open access

Predictable phenotypic, but not karyotypic, evolution of populations with contrasting initial history

Publication . Simões, Pedro; De mendonça fragata almeida, Inês; Seabra, Sofia G.; Faria, Gonçalo S.; Santos, Marta A.; Rose, Michael R.; Santos, Mauro; Matos, Margarida

The relative impact of selection, chance and history will determine the predictability of evolution. There is a lack of empirical research on this subject, particularly in sexual organisms. Here we use experimental evolution to test the predictability of evolution. We analyse the real-time evolution of Drosophila subobscura populations derived from contrasting European latitudes placed in a novel laboratory environment. Each natural population was sampled twice within a three-year interval. We study evolutionary responses at both phenotypic (life-history, morphological and physiological traits) and karyotypic levels for around 30 generations of laboratory culture. Our results show (1) repeatable historical effects between years in the initial state, at both phenotypic and karyotypic levels; (2) predictable phenotypic evolution with general convergence except for body size; and (3) unpredictable karyotypic evolution. We conclude that the predictability of evolution is contingent on the trait and level of organization, highlighting the importance of studying multiple biological levels with respect to evolutionary patterns.

2017-04Journal article

Open access