The costs of evolving resistance in heterogeneous parasite environments

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Abstract

The evolution of host resistance to parasites, shaped by associated fitness costs, is crucial for epidemiology and maintenance of genetic diversity. Selection imposed by multiple parasites could be a particularly strong constraint, as hosts either accumulate costs of multiple specific resistances or evolve a more costly general resistance mechanism.We used experimental evolution to test how parasite heterogeneity influences the evolution of host resistance.We show that bacterial host populations evolved specific resistance to local bacteriophage parasites, regardless of whether they were in single or multiple-phage environments, and that hosts evolving with multiple phages were no more resistant to novel phages than those evolving with single phages. However, hosts from multiple-phage environments paid a higher cost, in terms of population growth in the absence of phage, for their evolved specific resistances than those from single-phage environments. Given that in nature host populations face selection pressures from multiple parasite strains and species, our results suggest that costs may be even more critical in shaping the evolution of resistance than previously thought. Furthermore, our results highlight that a better understanding of resistance costs under combined control strategies could lead to a more 'evolution-resistant' treatment of disease. © 2011 The Royal Society.

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Koskella, B., Lin, D. M., Buckling, A., & Thompson, J. N. (2012). The costs of evolving resistance in heterogeneous parasite environments. Proceedings of the Royal Society B: Biological Sciences, 279(1735), 1896–1903. https://doi.org/10.1098/rspb.2011.2259

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