Predator‐induced changes in population structure and individual quality of Microtus voles: a large‐scale field experiment

Abstract

In small mammal populations with multiannual oscillations in density, observational data have revealed cyclic changes in population structure, reproduction, and individual quality, but mechanisms inducing these changes have remained an open question. We analysed data collected during a 3‐year predator reduction experiment to find out the effects of predators on population structure, reproductive parameters, and individual quality of Microtus voles (the field vole M. agrestis and the sibling vole M. rossiaemeridionalis) in western Finland. Voles were collected by snap trapping in April, June, August, and October during 1997–1999. The yearly reduction of predators from April to October had a clear positive effect on the abundance of sibling voles but did not significantly affect the densities of field voles. Predator reduction apparently also affected the age ratio and mean body size in late summer, as well as pancreatic weights of voles. However, all observed differences between predator reduction and control areas, except those in abundance, were small and may mainly reflect a generally higher survival leading to higher densities of voles in predator reduction areas. Our results also indicated a relative lack of high quality food at population peaks but not because of reduced foraging activity in the presence of predators. We conclude that the indirect effects of vole‐eating predators on the population growth of main prey are small compared to the detrimental direct effects on prey survival. In the case of less preferred prey, indirect effects of predation through reduced interspecific competition may play a role at high densities.