These pages are associated with the Interaction Biology group at the School of Biological Sciences, University of Bristol, headed by Dr Sean Rands. This group studies the behavioural and evolutionary ecology of interactions within biological systems, focu
Welcome to the Messer lab in the Department of Biological Statistics and Computational Biology at Cornell University. We are interested in a broad range of topics in evolutionary biology and population genetics. A particular focus of the lab lies in study
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
Our research explores connections between biological evolution and Earth history in all organisms and time periods. Because time itself is of great utility in drawing these connections, we often use molecular clocks in combination with morphology, phyloge
In the Burns lab, we use genetic data to investigate the systematics and population genetics of birds. The phylogenies and analyses of population history we generate are used to study the evolution of morphology, plumage, behavior, ecology, and biogeogra