Abstract
The dynamics and consequences of host–parasite coevolution depend on the nature of host genotype-by-parasite genotype interactions (G × G) for host and parasite fitness. G × G with crossing reaction norms can yield cyclic dynamics of allele frequencies (“Red Queen” dynamics) while G × G where the variance among host genotypes differs between parasite genotypes results in selective sweeps (“arms race” dynamics). Here, we investigate the relative potential for arms race and Red Queen coevolution in a protist host–parasite system, the dinoflagellate Alexandrium minutum and its parasite Parvilucifera sinerae. We challenged nine different clones of A. minutum with 10 clones of P. sinerae in a fully factorial design and measured infection success and host and parasite fitness. Each host genotype was successfully infected by four to ten of the parasite genotypes. There were strong G × Gs for infection success, as well as both host and parasite fitness. About three quarters of the G × G variance components for host and parasite fitness were due to crossing reaction norms. There were no general costs of resistance or infectivity. We conclude that there is high potential for Red Queen dynamics in this host–parasite system.
Highlights
Hosts and parasites are by definition in conflict with each other
The two types of coevolution have radically different consequences; arms races lead to rapid evolution of the genes involved but generally low levels of standing genetic variation, whereas Red Queen dynamics result in balanced polymorphisms with deep coalescence times (Bergelson et al 2001)
We found a strong G 9 G for infection success, which translated into G 9 Gs for both host and parasite fitness
Summary
Parasites can be expected to impose selection for host resistance, while hosts should select for enhanced infectivity of parasites This reciprocal selection can result in coevolution, with continuous changes of both host resistance and parasite infectivity. Only Red Queen dynamics favor recombination and sexual reproduction (Parker 1994; Agrawal and Lively 2002; Morran et al 2011). It would be of great interest to understand the relative importance of these two modes of coevolution in nature
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