Short-term fitness consequences of parasitism depend on host genotype and within-host parasite community

Evolution. 2023 Jul 27;77(8):1806-1817. doi: 10.1093/evolut/qpad090.

Abstract

Multiparasite communities inhabiting individual hosts are common and often consist of parasites from multiple taxa. The effects of parasite community composition and complexity on host fitness are critical for understanding how host-parasite coevolution is affected by parasite diversity. To test how naturally occurring parasites affect host fitness of multiple host genotypes, we performed a common-garden experiment where we inoculated four genotypes of host plant Plantago lanceolata with six microbial parasite treatments: three single-parasite treatments, a fungal mixture, a viral mixture, and a cross-kingdom treatment. Seed production was affected by both host genotype and parasite treatment, and their interaction jointly determined the growth of the hosts. Fungal parasites had more consistent negative effects than viruses in both single- and mixed-parasite treatments. These results demonstrate that parasite communities have the potential to affect the evolution and ecology of host populations through their effects on host growth and reproduction. Moreover, the results highlight the importance of accounting for the diversity of parasites as well as host genotypes when aiming to predict the consequences of parasites for epidemics as the effects of multiparasitism are not necessarily additive of single-parasite effects, nor uniform across all host genotypes.

Keywords: Plantago lanceolata; cross-kingdom parasite interactions; host genotype effect; multiparasitism; parasite community; plant viruses.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Animals
  • Genotype
  • Host-Parasite Interactions
  • Parasites*
  • Reproduction
  • Symbiosis

Associated data

  • Dryad/10.5061/dryad.rjdfn2zhc