Clonal yet different: Understanding the causes of genomic heterogeneity in microbial species and impacts on public health

Why are members of a microbial species not the same? They may be clonal, but microbial populations are often composed of multiple cocirculating lineages distinguished by large phenotypic and genetic differences. Species and the mechanisms of speciation have been notoriously challenging to study in microbes owing to pervasive horizontal gene flow, widespread geographical distribution, and cryptic ecological niches that structure microbial populations. Understanding the origins of genomic variation in microbial species and populations is fundamental to questions critical to society and public health, such as “Are emerging diseases new species or variants of existing ones?,” “What makes a resistant strain successful?,” and “How will a pathogen respond to selective pressures?” To explore these questions, I use whole-genome sequencing of closely related strains to understand the evolutionary, ecological, and epidemiological dynamics of bacterial pathogens to inform effective, more precisely targeted public health interventions.