Exposing the complex and flexible genetic basis to polygenic adaptation: integrating population and quantitative genomic approaches. Using leading-edge genomic approaches, the project will dissect the genetic basis to adaptation across an entire species range. The results will highlight the complex nature of adaptation to environmental change and will deliver new approaches to study it in natural populations.
Discovery Early Career Researcher Award - Grant ID: DE120102575
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Exploring new territory in climatic adaptation research: integrating molecular genetics with species' thermal tolerance limits. Predicting species' responses to environmental change requires mechanistic links between whole-organism physiological stress responses and underlying cellular mechanics. This project integrates cutting-edge methods in molecular and evolutionary genetics to probe species' responses to environmental change in the context of a warming environment.
The evolution of phenotypic plasticity during a biological invasion. The project seeks to unravel the mechanisms by which a species responds to challenges such as pollution, invasive species and climate change. Organisms can deal with challenges by changing their phenotypes in response to environmental cues (plasticity) and/or by longer-term changes in gene frequencies within a population (adaptation). Plasticity itself can be adaptive; so how does it evolve? Invasive species offer a unique oppo ....The evolution of phenotypic plasticity during a biological invasion. The project seeks to unravel the mechanisms by which a species responds to challenges such as pollution, invasive species and climate change. Organisms can deal with challenges by changing their phenotypes in response to environmental cues (plasticity) and/or by longer-term changes in gene frequencies within a population (adaptation). Plasticity itself can be adaptive; so how does it evolve? Invasive species offer a unique opportunity to answer that question, because a founding population (with modest genetic variation) must deal with myriad challenges in its new home. Using Australia’s cane toad invasion as the model system, the project aims to tease apart the roles of epigenetic and genetic modifications, and the interplay between them, as drivers for the toads’ success and rapid evolution in Australia.Read moreRead less