Behavioral responses across a mosaic of ecosystem states restructure a sea otter–urchin trophic cascade
Joshua G. Smith, Joseph A. Tomoleoni, Michelle M. Staedler, Sophia Lyon, Jessica A. Fujii, M. Tim Tinker
Abstract
) specializing on urchin prey, a population-level increase in urchin consumption, and an increase in sea otter survivorship. We further show that the spatial distribution of sea otter foraging efforts for urchin prey was not directly linked to high prey density but rather was predicted by the distribution of energetically profitable prey. Therefore, we infer that spatially explicit sea otter foraging enhances the resistance of remnant forests to overgrazing but does not directly contribute to the resilience (recovery) of forests. These results highlight the role of consumer and predator trait-mediated responses to resource mosaics that are common throughout natural ecosystems and enhance understanding of reciprocal feedbacks between top-down and bottom-up forcing on the regional stability of ecosystems.