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Dryad

Data from: Diet and provisioning rate differ predictably between dispersing and philopatric pied flycatchers

Cite this dataset

Nicolaus, Marion; Barrault, Solange C.Y.; Both, Christiaan; Barrault, Solange C Y (2018). Data from: Diet and provisioning rate differ predictably between dispersing and philopatric pied flycatchers [Dataset]. Dryad. https://doi.org/10.5061/dryad.n3m2qh2

Abstract

Dispersal is an essential process for most animal populations to persist in changing environments. Dispersers are often a non-random sample of the population, and differ consistently from non-dispersers in a suite of correlated phenotypic traits (‘dispersal syndromes’). This phenotypic integration is thought to be adaptive. Here, we investigate whether dispersal tendency of individual pied flycatchers (Ficedula hypoleuca) covaries with a set of repeatable behaviors that should confer advantages for surviving and reproducing in novel environments. We specifically focus on the link between dispersal, foraging behavior and aggressiveness because selection on foraging tactics or social behaviors likely differs between individuals staying in familiar or dispersing to novel environments. Using repeated measures of nestling provisioning data of pied flycatcher parents in one year, we tested if immigrants and philopatric individuals (local recruits and experienced breeders) differed in diet specialization, provisioning rates, levels of aggression and reproductive success. Results show that individuals differed consistently in their foraging behavior, with immigrants having a more generalist diet and higher feeding rates than philopatric birds, but not in aggressiveness. More generalist males fledged more young. Our findings suggest that prior local knowledge facilitates diet specialization, and that more generalist diets could be adaptive for immigrants breeding in unknown environments. Aggressiveness was not part of the dispersal syndrome in our population, perhaps because high aggression levels are too costly to maintain in high density populations. Understanding the proximate causes and ultimate consequences of variation in dispersal syndromes requires now experimental manipulations of individual dispersal decisions.

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