Abstract
Production cycles in birds are proposed as prime cases of indirect interactions in food webs. They are thought to be driven by predators switching from rodents to bird nests in the crash phase of rodent population cycles. Although rodent cycles are geographically widespread and found in different rodent taxa, bird production cycles appear to be most profound in the high Arctic where lemmings dominate. We hypothesized that this may be due to arctic lemmings inducing stronger predator responses than boreal voles. We tested this hypothesis by estimating predation rates in dummy bird nests during a rodent cycle in low-Arctic tundra. Here, the rodent community consists of a spatially variable mix of one lemming (Lemmus lemmus) and two vole species (Myodes rufocanus and Microtus oeconomus) with similar abundances. In consistence with our hypothesis, lemming peak abundances predicted well crash-phase nest predation rates, whereas the vole abundances had no predictive ability. Corvids were found to be the most important nest predators. Lemmings appear to be accessible to the whole predator community which makes them particularly powerful drivers of food web dynamics.
Highlights
Multiannual production cycles in birds are classic cases of indirect food web interactions driven by predator–prey dynamics [1,2]
The focal indirect interaction is mediated by an ‘alternative prey-mechanism’, whereby predators becoming abundant after abundance peaks in cyclic rodent populations shift their predation to bird nests during the subsequent crash phase [3,4]
As bird production cycles are most profound in high-Arctic tundra, we hypothesized that lemmings are prone to drive strong indirect interactions with ground nesting birds
Summary
Multiannual production cycles in birds are classic cases of indirect food web interactions driven by predator–prey dynamics [1,2]. The focal indirect interaction is mediated by an ‘alternative prey-mechanism’, whereby predators becoming abundant after abundance peaks in cyclic rodent populations (main prey) shift their predation to bird nests (alternative prey) during the subsequent crash phase [3,4]. Such rodent-driven interaction cycles have been demonstrated in different ecosystems [3,4,5,6]. As bird production cycles are most profound in high-Arctic tundra, we hypothesized that lemmings are prone to drive strong indirect interactions with ground nesting birds
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