Responses to environmental stressors in an estuarine fish: Interacting stressors and the impacts of local adaptation

Common killifish, Fundulus heteroclitus, are found in marshes and estuaries along the Atlantic coast of North America from Newfoundland to Florida. Although these habitats are highly productive, they are also characterized by variation in a number of abiotic stressors, including temperature, salinity, oxygen, and anthropogenic toxicants, which vary substantially in both space and time. In order to survive in these habitats, killifish must be able to cope with these stressors, both individually and in combination. There is substantial evidence to suggest that populations of F. heteroclitus have undergone local adaptation to multiple abiotic stressors, including temperature, salinity, and toxicants, but most studies have examined the effects of single stressors in isolation. Here I review some of the studies on local adaptation in F. heteroclitus, focusing on the molecular basis of local adaptation to abiotic stressors, and the acute responses to these stressors both singly and in combination. This work demonstrates that there are substantial interactions between the responses to both natural and anthropogenic stressors at the cellular level.