Abstract
Some nest predators visually assess parental activities to locate a prey nest, whereas parents modify fitness-related traits to reduce the probability of nest predation, and/or nestlings fledge early to escape the risky nest environment. Here, we experimentally tested if the parental and fledging behaviours of oriental tits (Parus minor) that bred in the nest-box varied with cavity conditions associated with nest predation risk during the nestling period. The entrance of experimental nest-boxes was enlarged to create a long-term risk soon after clutch competition. A short-term risk, using simulated playbacks with a coexisting control bird and avian nest predator sound, was simultaneously applied to the nest-boxes whether or not the long-term risk existed. We found that the parents reduced their hourly feeding trips, and the nestlings fledged early with the long-term risk, although the nest mortality of the two nest-box types was low and did not differ. While this study presents a portion of prey–predator interactions with the associated uncertainties, our results highlight that the entrance size of cavities for small hole-nesting birds may play an important role in determining their fitness-related traits depending upon the degree of perceived risk of nest predation.
Highlights
The main goal of the present study was to examine the response of cavity-nesting oriental tits (Parus minor) to manipulated risks of nest predation during the post-hatching period
Differences in parental feeding behaviour and nestling period of oriental tits with similar brood sizes were found in the presence of long-term risk, but no effect of short-term risk was observed (Fig. 2)
Our results support in part the hypothesis that the parents modified fitness-related traits to reduce the probability of nest detection (Fig. 2), and the nestling period was shortened in the risky nest-box with an enlarged entrance (Fig. 3)[7]
Summary
The main goal of the present study was to examine the response of cavity-nesting oriental tits (Parus minor) to manipulated risks of nest predation during the post-hatching period. We simultaneously applied two types of nest predation risk: “short-term” (simulation of predator presence) versus “long-term” (manipulation of cavity entrance condition; Fig. 1). The short-term risk may become less effective in the presence of high predator activity, whereas the long-term risk may be less crucial when the degree of predator activity is low[27,28]. The effect of short-term risk has been tested more frequent than that of long-term risk[29,30,31]
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