Abstract
AbstractManaging for simultaneous recovery of interacting species, particularly top predators and their prey, is a longstanding challenge in applied ecology and conservation. The effects of sea otters (Enhydra lutris kenyoni) on abalone (Haliotis spp.) is a salient example along North America's west coast where sea otters are recovering from 18th‐ and 19th‐century fur trade while efforts are being made to recover abalone from more recent overfishing. To understand the direct and indirect effects of sea otters on northern abalone (H. kamtschatkana) and the relative influence of biotic and abiotic conditions, we surveyed subtidal rocky reef sites varying in otter occupation time in three regions of British Columbia, Canada. Sites occupied by sea otters for over 30 years had 16 times lower densities of exposed abalone than sites where otters have yet to recover (0.46 ± 0.08/20 m2 vs. 7.56 ± 0.98/20 m2), but they also had higher densities of cryptic abalone (2.17 ± 1.31/20 m2 vs. 1.31 ± 0.20/20 m2). Abalone densities were greater in deeper vs. shallower habitats at sites with sea otters compared to sites without otters. Sea otter effects on exposed abalone density were three times greater in magnitude than those of any other factor, whereas substrate and wave exposure effects on cryptic abalone were six times greater than those of sea otters. While higher substrate complexity may benefit abalone by providing refugia from sea otter predation, laboratory experiments revealed that it may also lead to higher capture efficiency by sunflower stars (Pycnopodia helianthoides), a ubiquitous mesopredator, compared to habitat with lower complexity. Sea otter recovery indirectly benefitted abalone by decreasing biomass of predatory sunflower stars and competitive grazing sea urchins, while increasing stipe density and depth of kelp that provides food and protective habitat. Importantly, abalone persisted in the face of sea otter recovery, albeit at lower densities of smaller and more cryptic individuals. We provide empirical evidence of how complex ecological interactions influence the effects of recovering predators on their recovering prey. This ecosystem‐based understanding can inform conservation trade‐offs when balancing multifaceted ecological, cultural, and socio‐economic objectives for species at risk.
Highlights
Disentangling the direct and indirect effects of predators on their prey, and how these effects are mediated by environmental conditions, is a longstanding challenge in ecology
We examined the ecological factors that mediate the interaction between endangered northern abalone (Haliotis kamtschatkana) and recovering sea otter (Enhydra lutris kenyoni) populations along the west coast of British Columbia (BC)
We found strong evidence that the non-linear decay curve best fit the effect of sea otter occupation time on proportion of exposed abalone, while the linear model best described the proportion of cryptic abalone; for covered abalone, all models were within ΔAICc < 2 indicating no best model (Table 2)
Summary
Disentangling the direct and indirect effects of predators on their prey, and how these effects are mediated by environmental conditions, is a longstanding challenge in ecology. As predator populations recover, prey depletion through time varies as a function of predator per capita attack rates including search time and handling time (Holling 1959), and prey behavioral response to changes in predation risk. Prey can reduce their risk of predation by becoming increasingly cryptic (hiding in refugia), reducing the proportion of time they spend out in the open (exposed) to acquire food (Sih 1980, Lima 1998, Preisser et al 2005). Predators themselves can mediate outcomes of predator–prey interactions when they affect the abundance of alternate predators and/or indirectly increase food availability, habitat quality, and/or refugia for their prey
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