摘要
I assessed the long-term effects of seasonal inter-habitat movements for a common rodent, Microtus californicus, using matrix models tailored to demographic data obtained on populations living at the marsh–grassland ecotone. Three stochastic models were used to simulate the seasonal and spatial dynamics of this system, with the purpose of determining: (1) the growth rates of populations living in single versus a two-habitat landscape; and (2) if the amount, direction, and seasonality of rodent movements between the two habitats may impact these growth rates. The results indicated that grassland populations could be self-sustaining, but that isolated marsh populations would rapidly decline. Importantly, 98 % of the two-habitat simulations yielded growth rates greater than those seen in the grassland model, with populations benefiting the most by movements from marsh into grassland at the end of the dry season. This study demonstrated that movements between marsh ‘sink’ and grassland ‘source’ habitats can potentially increase long-term population growth due to seasonal, inter-habitat differences in resource availability.