Data from: Reproductive trade-offs in a long-lived bird species: condition-dependent reproductive allocation maintains female survival and offspring quality
Griesser, Michael, University of Zurich
Wagner, Gretchen F., University of Zurich
Drobniak, Szymon M., University of Zurich
Ekman, Jan, Uppsala University
Published Jan 31, 2017 on Dryad.
Cite this dataset
Griesser, Michael; Wagner, Gretchen F.; Drobniak, Szymon M.; Ekman, Jan (2017). Data from: Reproductive trade-offs in a long-lived bird species: condition-dependent reproductive allocation maintains female survival and offspring quality [Dataset]. Dryad. https://doi.org/10.5061/dryad.755jp
Life-history theory is an essential framework to understand the evolution of reproductive allocation. It predicts that individuals of long-lived species favour their own survival over current reproduction, leading individuals to refrain from reproducing under harsh conditions. Here we test this prediction in a long-lived bird species, the Siberian jay Perisoreus infaustus. Long-term data revealed that females rarely refrain from breeding, but lay smaller clutches in unfavourable years. Neither offspring body size, female survival nor offspring survival until the next year was influenced by annual condition, habitat quality, clutch size, female age, or female phenotype. Given that many nests failed due to nest predation, the variance in the number of fledglings was higher than the variance in the number of eggs and female survival. An experimental challenge with a novel pathogen before egg-laying largely replicated these patterns in two consecutive years with contrasting conditions. Challenged females refrained from breeding only in the unfavourable year, but no downstream effects were found in either year. Taken together, these findings demonstrate that condition-dependent reproductive allocation may serve to maintain female survival and offspring quality, supporting patterns found in long-lived mammals. We discuss avenues to develop life-history theory concerning strategies to offset reproductive costs.
Data on juvenile body size (PC), feather quality (PC), and juvenile survival. Observe that the ring and territory identity does not match other datasets.
Number of fledglings
Number of fledglings. Observe that the territory identifier does not match other datasets.
number of eggs
Number of eggs. Observe that the territory identity does not match other datasets.
Female survival. Observe that the territory identity does not match other datasets.