Additive multiple predator effects increase prey mortality under experimental warming in a rocky intertidal food web

Abstract

Climate warming is expected to alter species interactions, which are shaped by components of individual foraging behavior. Yet few studies examine species' behavioral responses to inform predictions about how species interactions will be affected by warming. Multiple predator effects (MPEs) may be mediated by climatic warming, especially in highly diverse coastal ecosystems that are prone to extreme warming events. In a laboratory experiment, we quantified the effects of elevated sea water temperature on mortality rates of mussels (Mytilus californianus, Conrad, 1837), and the behavioral responses of their predators: crabs (Romaleon antennarium, Stimpson, 1856) and sea stars (Pisaster ochraceus, Brandt, 1835), to understand how warming affects MPEs and if predators' behavioral responses to warming are indicative of the outcome of MPEs. Sea star effects on mussel mortality did not vary with temperature, but declined threefold in the presence of crabs, due to behavioral avoidance of physical contact with crabs. In contrast, the effect of crabs on mussel mortality was ten times higher under elevated temperature, but was unaffected by sea stars. In mixed predator treatments, crabs caused significant mussel mortality, but sea stars had weaker impacts, regardless of temperature. Consequently, multiple predators had effects that did not differ from those of the more effective crab predator. Increasing temperature in the eastern North Pacific may create locations where crabs become the dominant predator of mussels, with warming increasing predation risk for mussels in this region. Field studies should examine the effects of warming on crab predation on mussels in this system.