Are evolutionary refugia traps for endemic species? This project aims to determine whether species that have small geographic ranges and which live in historically stable refugia have evolved narrow climatic tolerances. The project will compare such species with more widespread, related species living in the same areas and combine field- and lab-based estimates of physiological tolerances with genomic estimates of population history and diversity. The expected outcome is to test the prediction f ....Are evolutionary refugia traps for endemic species? This project aims to determine whether species that have small geographic ranges and which live in historically stable refugia have evolved narrow climatic tolerances. The project will compare such species with more widespread, related species living in the same areas and combine field- and lab-based estimates of physiological tolerances with genomic estimates of population history and diversity. The expected outcome is to test the prediction from evolutionary theory that small-range, refugial species are intrinsically more sensitive to climatic change. The project expects to provide improved guidance for ecological management of biodiversity hotspots.Read moreRead less
Unifying the mechanisms that drive spatial patterns in biological traits. The project aims to resolve the mechanisms that generate spatial variation in biological traits. This project expects to overcome several significant shortcomings of previous investigations by using mechanistic modelling, field-based ecophysiological studies, and macroecological analyses to develop a single, integrated approach to investigating geographic variation in size, colour, life history and reproduction. The expect ....Unifying the mechanisms that drive spatial patterns in biological traits. The project aims to resolve the mechanisms that generate spatial variation in biological traits. This project expects to overcome several significant shortcomings of previous investigations by using mechanistic modelling, field-based ecophysiological studies, and macroecological analyses to develop a single, integrated approach to investigating geographic variation in size, colour, life history and reproduction. The expected outcomes are a comprehensive empirical test of a unified mechanism for spatial trait variation, using a diverse terrestrial vertebrate lineage as a model system. The results of this study should provide a powerful framework for predicting future patterns of biological trait variation under anthropogenic climate change.Read moreRead less