John Stinchcombe


John Stinchcombe
Earth Science Centre, ESC 2077

Fully understanding the complexity of natural communities, and the relative importance of ecological, genetic, and evolutionary forces governing their dynamics, requires approaches that can integrate across multiple biological levels of organization from the genome to the community and ecosystem. Moreover, our ability to take advantage of the explosion of genomic data that will be available within the next decade will depend on whether these data can be fully integrated into an evolutionary and ecological context.

Research in my lab has two complementary aims: First, uncovering how ecological factors such as climate, abiotic resources, competitors and natural enemies shape the ecological and evolutionary dynamics of plant traits and populations; and, second, determining how these ecological and evolutionary patterns are constrained, modified, or facilitated by functional genetic variation (i.e., sequence variation), genetic trade-offs, polymorphism at regulatory genes, and epistasis. We use an integrative approach, and attack problems from multiple perspectives, utilizing ideas and tools from usually distinct areas of biology, including community and population ecology, quantitative genetics, evolutionary biology, and genomics.

Stinchcombe lab website

Personal tools
MediaWiki Appliance - Powered by TurnKey Linux