Programme description

Understanding the ecology and evolution of life on Earth is a fundamental research challenge and of central importance for most areas of the environmental sciences. For example, our researchers use ecology and evolutionary biology techniques for conservation biology and informing wildlife management.

We use ecological approaches to study organisms ranging from the smallest microorganisms to the largest plants and animals. In particular, we research how plants grow, how the environment affects plants, and how they interact with the soil ecosystems. Our research is contributing to growing understanding of the impacts of human activities on natural communities and on how we can improve the productivity and sustainability of agriculture. Furthermore, we study the ecology of microbial communities, which is critical the function of all ecosystems.

The principles of evolutionary biology allow us to understand biodiversity, disease outbreaks and competition of invasive species. Research in evolutionary biology employs a range of theoretical, computational and experimental approaches to understand and predict the structure and behaviour of biological systems. A particular focus is on metabolic responses to environmental change, the role of genetic mutations in microevolutionary processes and the impacts of natural and sexual selection on the morphology and behaviour of organisms. Our research involves evolutionary genetics and genomics, phyologenetics, molecular and genome evolution, organismal and behavioural evolution, and population genetics.