Evolution and Ecology of Haloarchaea

Although we recognize names of microorganisms like Escherichia coli and Bacillus subtilis, our ability to classify strains into “natural kinds” is rigorously tested by the observation that genetic variation is frequently shuttled across so-called species boundaries. Also, much of what we know about species comes from well-studied pathogenic bacteria, which are often classified by the disease that they cause (e.g., Bacillus anthracis or Neisseria gonorrhoeae). This is important to doctors and their patients but the Earth’s biomass and diversity is comprised mainly of prokaryotes, the vast majority of which do not cause disease. Combined, these observations suggest that our understanding of species evolution is relatively shallow and that our current standards of classification are biased and difficult to apply to most microbes. The main goal of our research is to use evolution and ecology theory in combination with approaches like genomics, metagenomics and population genetics to investigate intra and inter species variation, gene flow and genetic relationships for non-pathogenic (e.g., environmental) prokaryotes. We concentrate on hypersaline adapted Archea (Haloarchaea) as model organisms because they live in island-like habitats which aid in simplifying or sorting the evolutionary forces that effect their distributions, adaptations and variation.