VIRALPHYLOGEOGRAPHY

To identify the causal mechanisms leading to disease emergence, endemic maintenance and epidemic expansion, epidemiologists would benefit tremendously from a full characterization of pathogen spread in space and time. The extensive sequencing efforts for the ongoing swine-origin H1N1 influenza A epidemic testify that analyses of pathogen genetic data are becoming increasingly important source of information in epidemiology. The new era of metagenomics promises to harvest such data in unprecedented quantities with remarkable rapidity. With the objective to assist in designing effective intervention and prevention strategies, we propose to develop a comprehensive statistical framework for uncovering the spatial and temporal dynamics of pathogen genomes. To this aim, we will design and extend a series of computationally tractable models that use the rapidly proliferating viral genome data to their full potential, nect molecular evolution to underlying spatial processes, and pave the path to rigorous and powerful phylogeographic hypothesis testing approaches. Armed with these tools, we will investigate how genetic variation within important viral pathogens, such as influenza, rabies and HIV, arises and persists across a diverse range of hosts and environments.