An evolutionary biology lab at the School of Biodiversity, One Health & Veterinary Medicine (University of Glasgow)
team lead: Prof. Kathryn R Elmer
lecture at Mondsee
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On May 16 2013, Kathryn is invited to give a research seminar in Austria at the Research Institute for Limnology, Mondsee (University of Innsbruck)
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Popular posts from this blog
in a collaboration with Amelie Crespel and Shaun Killen, we brought some genomics to an applied evolutionary question - is there evolutionary response to fisheries harvesting? We suspected that forces like size-selective harvest can have impact but what about environmental or demographic context? Open access paper here ! Crespel A, Schneider K, Miller T, Rácz A, Jacobs A, Lindström J, Elmer KR, Killen SS (2021) Genomic basis of fishing-associated selection varies with population density. Proc Natl Acad Sci U S A, 118, e2020833118. Significance: Fisheries-associated selection is recognized as one of the strongest potential human drivers of contemporary evolution in natural populations. The results of this study show that while simulated commercial fishing techniques consistently remove fish with traits associated with growth, metabolism, and social behavior, the specific genes under fishing selection differ depending on the density of the targeted population. This finding suggest
We welcome two new lab members for autumn 2021 - postdoc Morgane Bonade and PhD student Nic Strowbridge. Morgane is working on the project 'do common lizards break Dollo's Law' by reversing back to oviparity? This is a NERC funded project that tests functionally - using genetic crosses, RNAseq, and phylogeny - some hypotheses put forward in our phylogenomic reconstruction that suggested reversal (open access paper here in MPE ). Nic is an IAPETUS2 doctoral training programme student working on convergent evolution of colouration and toxicity defence in salamanders, in collaboration with Mike Ritchie at St Andrews.
Our paper on the genetic basis of parity mode is now published. The functional genetic architecture of egg-laying and live-bearing reproduction in common lizards H. Recknagel, M. Carruthers, A. Yurchenko, M. Nokhbatolfoghahai, N.A. Kamenos, M.M. Bain, K.R. Elmer Nature Ecology and Evolution 2021 SharedIt link: https://rdcu.be/cy5S2 All amniotes reproduce either by egg-laying (oviparity), which is ancestral to vertebrates, or by live-bearing (viviparity), which has evolved many times independently. However, the genetic basis of these parity modes has never been resolved and consequently its convergence across evolutionary scales is currently unknown. Here we leveraged natural hybridisations between oviparous and viviparous common lizards (Zootoca vivipara) to describe the functional genes and genetic architecture of parity mode and its key traits, eggshell and gestation length, and compared our findings across vertebrates. In these lizards, parity trait genes were associated with prog