Sex-dependent spatial structure of telomere length in a wild long-lived scavenger

LAURA GANGOSO; LAMBERTUCCI, SERGIO A; SONIA CABEZAS; ALARCÓN, PABLO A E; GUILLERMO WIEMEYER; SANCHEZ-ZAPATA, JOSÉ A; BLANCO, GUILLERMO; HIRALDO, FERNANDO; DONÁZAR, JOSÉ A

ECOSPHERE

WILEY ONLINE LIBRARY

Año: 2016 vol. 10

2150-8925

Sex-related divergences in many phenotypic traits, such as morphology, physiology, and behavior, have widely been described in animals. These asymmetries may adapt the sexes to different subniches, but also may produce sex-specific optima for life-history traits, as well as different costs. In birds, long movements in search of food and intraspecific competition may entail important metabolic costs that can be predicted to be unequal if both sexes perform somehow differently. However, the extent to which sex-specificindividual movements, foraging strategies and social dominance relationships are correlated with physiological costs has rarely been evaluated. The effects of prolonged exposure to stressors can be mirrored in accelerated cellular damage and aging as well as in the by-products resulting from the activation of the stress response machinery. Both indicators, measured as telomere length and the concentration of feather corticosterone (CORTf), respectively, would reflect physiological costs at different time frames. Here, on the basis of information provided by GPS-tagged Andean condors, a sexually dimorphic scavenger with a highly despotic social system, we determined whether sex-specific movement patterns correlated to variation in telomere length and CORTf levels. We found a striking pattern of spatial structure of telomere length that was, in addition, sex-specific; males breeding farther from feeding grounds exhibited longer telomeres, while the opposite pattern was found in females. Nevertheless, telomere length was not related to the range of movements performed by condors. We also found that females displayed higher CORTf values than males, regardless of the location of their nests, which is likely related to social dominancehierarchy and sexual size dimorphism. Sex-specific optima for trade-offsassociated with ecological factors might underlie the fact that populations are spatially structured from a telomere-length perspective, which has never been described before.