Parasites can manipulate host behavior to increase their fitness while decreasing host fitness, a phenomenon known as an extended phenotype. Nucleopolyhedroviruses (NPVs), baculoviruses that infect Lepidopteran larvae, have been found to induce vertical climbing behavior and hyperactivity in exposed larvae. We quantified variation in the horizontal wandering behavior induced by different naturally-occurring pathogen isolates in the NPV that infects Dione (Agraulis) vanillae Linnaeus (Lepidoptera: Nymphalidae). Lab-raised larvae were infected with a constant dose of one of five different field-collected NPV isolates or a water control (n=98 larvae total), and placed in mazes to measure the horizontal distance wandered away from a food source. Virus-exposed larvae exhibited increased maximum distance of horizontal movement compared to the control, but did not significantly differ in the probability of wandering versus no movement. We also found variation in the distance wandered among the five virus isolates. However, grouping the five isolates into two previously-described viral strains or genogroups did not improve predicted differences in movement, perhaps due to the presence of within-strain genetic variation among isolates in the viral genes involved in controlling host behavior. Further work is needed to determine whether the observed between-isolate variation is the result of adaptive evolution. These results suggest that the NPV infecting D. vanillae manipulates larval behavior to increase horizontal wandering, which could lead to higher pathogen fitness by increasing long-distance dispersal of the virus across the landscape.
Bresnan, T. A., Lizaola, K. M., Fleming-Davies, A.
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