Effects of shortened host life span on the evolution of parasite life history and virulence in a microbial host-parasite system

摘要

BACKGROUND: Ecological factors play an important role in the evolution of parasite exploitation strategies. A common prediction is that, as shorter host life span reduces future opportunities of transmission, parasites compensate with an evolutionary shift towards earlier transmission. They may grow more rapidly within the host, have a shorter latency time and, consequently, be more virulent. Thus, increased extrinsic (i.e., not caused by the parasite) host mortality leads to the evolution of more virulent parasites. To test these predictions, we performed a serial transfer experiment, using the protozoan and its bacterial parasite . We simulated variation in host life span by killing hosts after 11 ( killing) or 14 ( killing) days post inoculation; after killing, parasite transmission stages were collected and used for a new infection cycle.RESULTS: After 13 cycles (˜ 300 generations), parasites from the treatment were less infectious, but had shorter latency time and higher virulence than those from the treatment. Overall, shorter latency time was associated with higher parasite loads and thus presumably with more rapid within-host replication. CONCLUSION: The analysis of the means of the two treatments is thus consistent with theory, and suggests that evolution is constrained by trade-offs between virulence, transmission and within-host growth. In contrast, we found little evidence for such trade-offs across parasite selection lines within treatments; thus, to some extent, these traits may evolve independently. This study illustrates how environmental variation (experienced by the host) can lead to the evolution of distinct parasite strategies.