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Parasite spread in experimental metapopulations: resistance,tolerance and host competence
Authors:Christina P. Tadiri  Gregor F. Fussmann  Marilyn E. Scott
Affiliation:1. Dept of Biology, McGill Univ., Montreal, QC, Canada;2. Dept of Biology, McGill Univ., Montreal, QC, Canada

Contribution: Conceptualization (equal), Writing - review & editing (equal);3. Inst. of Parasitology, McGill Univ., Ste. Anne-de-Bellevue, QC, Canada

Contribution: Conceptualization (equal), Writing - review & editing (equal)

Abstract:Host competence, defined as the likelihood that a host will transmit infection, may be affected by an individual's resistance to infection and its ability to withstand damage caused by infection (tolerance). Host competence may therefore be one of the most important factors to impact host–parasite dynamics, yet the relationships among resistance, tolerance and competence are poorly understood. The objective of the present study was to determine whether individual host resistance (ability to resist or minimize infection) and/or tolerance (ability to withstand or minimize reduction in fitness due to infection) contributed to the competence (ability to spread infection) of hosts using guppies infected with the ectoparasite, Gyrodactylus turnbulli. This individual-fish level analysis used data collected from a previous metapopulation experiment that had tracked host–parasite dynamics at the metapopulation scale using individually marked guppies that were moved among experimental tanks within replicate metapopulations. Fish tolerance was measured as the residual from a fish's expected survival post-infection for a given parasite burden. Fish resistance was measured as the peak parasite load (– log-transformed). Host competence was measured as the incidence (number of new infections over two days after the arrival of a fish to a tank) weighted by the density of available uninfected fish in the tank. In contrast to the assumption of a trade-off between resistance and tolerance, individual fish tolerance and resistance were both negatively associated with competence. Connectivity (the number of fish with which an individual came into contact) was not associated with competence. Our results indicate that resistance and tolerance are both important to disease spread. These findings highlight the importance of understanding how individual defence against parasites may contribute to its competence as a host, and therefore impact metapopulation-level dynamics.
Keywords:guppies  Gyrodactylus  host defence  parasite transmission
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