Hatching order and size-dependent mortality in relation to brood sex ratio composition in chinstrap penguins

The differential environmental sensitivity of the sexes has strong implications in the evolutionary history of species as it can alter sexual size dimorphism, population sex ratios, and the faculty of parents to manipulate offspring sex in relation to environmental conditions. We studied sexual diff...

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Bibliographic Details
Published in:Behavioral Ecology
Main Authors: Fargallo, Juan A, Polo, Vicente, De Neve, Liesbeth, Martins, José, Davila, Jose A, Soler, Manuel
Format: Article in Journal/Newspaper
Language:English
Published: 2006
Subjects:
Biology and Life Sciences
PYGOSCELIS-ANTARCTICA
SIBLING COMPETITION
Pygoscelis antarctica
KESTRELS FALCO-SPARVERIUS
nestling survival
hatching period
hatching asynchrony
egg size
NESTLING GROWTH
LAYING SEQUENCE
LARUS-RIDIBUNDUS
BIASED MORTALITY
BLACK-HEADED GULL
CELL-MEDIATED-IMMUNITY
Antarc*
Antarctica
Chinstrap penguin
Black-headed Gull
Larus ridibundus
Online Access:https://biblio.ugent.be/publication/1233211
http://hdl.handle.net/1854/LU-1233211
https://doi.org/10.1093/beheco/arl007
Description
Summary:The differential environmental sensitivity of the sexes has strong implications in the evolutionary history of species as it can alter sexual size dimorphism, population sex ratios, and the faculty of parents to manipulate offspring sex in relation to environmental conditions. We studied sexual differences in hatching patterns and evaluated sex- and size-related mortality in relation to hatching order and brood sex ratios in the chinstrap penguin Pygoscelis antarctica, a moderately size-dimorphic species, with a modal clutch size of 2 eggs. We found that male, second-hatched, and large eggs showed shorter hatching periods than female, first-hatched, and small eggs. We also found a male-biased mortality of nestlings in the colony. However, male mortality patterns differed depending on the brood sex ratio composition. Mortality of male chicks in all-male broods was higher than in mixed broods and higher than female mortality in all-female broods. Contrary, females from mixed brood showed higher mortality than their male nest mates and higher too than females in all-female broods. Second-hatched chicks also suffered from higher mortality than first-hatched chicks. Our results indicate that both the superior competitive capacity and the higher energy demand of the larger sex constitute 2 causal factors explaining patterns of sex-biased mortality. Both factors occur in the same species and in different situations of sibling competition shaped by brood sex ratio composition. This study constitutes a good example of how patterns of sex-related mortality can vary depending on nest environmental circumstances. Furthermore, our study suggests that hatching period can be a mechanism underlying sexual differences in the embryonic period of birds.

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