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Echinobase
ECB-ART-46499
Proc Biol Sci 2018 Jul 25;2851883:. doi: 10.1098/rspb.2018.0553.
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Sudden collapse of a mesopredator reveals its complementary role in mediating rocky reef regime shifts.

Burt JM , Tinker MT , Okamoto DK , Demes KW , Holmes K , Salomon AK .


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While changes in the abundance of keystone predators can have cascading effects resulting in regime shifts, the role of mesopredators in these processes remains underexplored. We conducted annual surveys of rocky reef communities that varied in the recovery of a keystone predator (sea otter, Enhydra lutris) and the mass mortality of a mesopredator (sunflower sea star, Pycnopodia helianthoides) due to an infectious wasting disease. By fitting a population model to empirical data, we show that sea otters had the greatest impact on the mortality of large sea urchins, but that Pycnopodia decline corresponded to a 311% increase in medium urchins and a 30% decline in kelp densities. Our results reveal that predator complementarity in size-selective prey consumption strengthens top-down control on urchins, affecting the resilience of alternative reef states by reinforcing the resilience of kelp forests and eroding the resilience of urchin barrens. We reveal previously underappreciated species interactions within a ''classic'' trophic cascade and regime shift, highlighting the critical role of middle-level predators in mediating rocky reef state transitions.

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Genes referenced: impact LOC100887844 LOC115925415

References [+] :
Bonaviri, Warmer temperatures reduce the influence of an important keystone predator. 2017, Pubmed, Echinobase