Abstract
The world is changing at a pace that has forced us to reevaluate the capabilities and rate of the evolutionary process. As industrial development continues to increase and as we improve analytical environmental chemistry methods, we have observed a growing number of contaminated environments. This increasing pressure from chronically released and persistent contaminants has amplified the importance of evolutionary toxicology. In this chapter, we aim to convey the principles of this relatively young field through a review of evolutionary adaptation in Atlantic and Gulf killifish (Fundulus heteroclitus and F. grandis). Killifish have been widely studied with regard to evolutionary toxicology and anthropogenic adaptation. In the past 20 years, researchers have identified multiple populations of both F. heteroclitus and F. grandis, which have adapted to resist high levels of various classes of industrial contaminants, including polychlorinated biphenyls (PCBs), polycyclic aromatic hydrocarbons (PAHs), and polychlorinated dibenzo-p-dioxins and furans (PCDD/Fs). Heritability of resistance has been confirmed, with offspring showing a similar capacity to resist the cardiovascular teratogenesis associated with early life stage exposures to dioxin-like compounds (DLCs). As more populations have been discovered and studied, different aspects of the acquired resistance have been revealed, but also unique attributes of the independently adapted populations have been identified. Populations adapted to PAHs exhibit high resistance to many classes of contaminants, while populations adapted to PCB contamination are only partially resistant to PAHs. PAH-adapted populations of F. heteroclitus and PCB-adapted populations of F. grandis are more tolerant to oxidative stress, while PCB-adapted populations of F. heteroclitus are more sensitive. Even geographically close adapted populations in F. grandis differ in their levels of cross-resistance to pesticides. These are only some of the ways in which populations of Fundulus with phenotypically similar genetic adaptations create a much more varied and intricate story to be explored in evolutionary toxicology. Here we summarize considerations in the field of evolutionary toxicology through a case study of anthropogenic adaptation in Fundulus, including its environmental and evolutionary relevance.
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Oziolor, E.M., Matson, C.W. (2018). Adaptation in Polluted Waters: Lessons from Killifish. In: Burggren, W., Dubansky, B. (eds) Development and Environment. Springer, Cham. https://doi.org/10.1007/978-3-319-75935-7_14
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