PS 66-108 - Deer mice encounter rates, Sin nombre virus prevalence and species diversity: Testing mechanisms of the Dilution Effect

Thursday, August 6, 2009
Exhibit Hall NE & SE, Albuquerque Convention Center
Christine A. Clay, Biology and Environmental Studies, Westminster College, Salt Lake City, UT, Erin M. Lehmer, Biology, Fort Lewis College, Durango, CO and M. Denise Dearing, Biology, University of Utah, Salt Lake City, UT
Background/Question/Methods

Species diversity has been correlated with decreased prevalence of disease in a variety of host-pathogen systems, in a phenomenon termed the Dilution Effect. Several mechanisms have been proposed by which diversity may decrease prevalence, though few have been tested in natural host-pathogen systems. We investigated two potential mechanisms by which diversity influenced the prevalence of Sin Nombre virus (SNV), a directly transmitted virus in deer mice (Peromyscus maniculatus): 1) reduced frequency of encounters between deer mice or, 2) reduced duration of contacts between deer mice. Using foraging arenas, we monitored both intra and interspecific encounters of deer mice at five sites in the Great Basin desert with disparate levels of species diversity. We also investigated the relationship between deer mouse density and these mechanisms, as density is often predicted to influence both inter and intraspecific encounters.

Results/Conclusions

Results of our study indicate that frequency of intraspecific interactions between deer mice was reduced with increased diversity. Species diversity did not impact average duration of encounters. Density was correlated with absolute, but not relative rates of encounters between deer mice, suggesting that encounters may be influenced by factors other than density. Our study indicates that species diversity influences the dynamics of SNV by reducing encounters between deer mice by altering their behavior and by creating a trade-off between intra and interspecific interactions.

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