Cécilia Houdelier scite author profile

Individual phenotypic characteristics of many species are influenced by non-genetic maternal effects. Female birds can influence the development of their offspring before birth via the yolk steroid content of their eggs. We investigated this prenatal maternal effect by analysing the influence of laying females' social environment on their eggs' hormonal content and on their offspring's development. Social instability was applied to groups of laying Japanese quail females. We evaluated the impact of this procedure on laying females, on yolk steroid levels and on the general development of chicks. Agonistic interactions were more frequent between females kept in an unstable social environment (unstable females) than between females kept in a stable social environment (stable females). Testosterone concentrations were higher in unstable females' eggs than in those of stable females. Unstable females' chicks hatched later and developed more slowly during their first weeks of life than those of stable females. The emotional reactivity of unstable females' chicks was higher than that of stable females' chicks. In conclusion, our study showed that social instability applied to laying females affected, in a non-genetic way, their offspring's development, thus stressing the fact that females' living conditions during laying can have transgenerational effects.

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Unpredictable mild stressors on laying females influence the composition of Japanese quail eggs and offspring's phenotype

Guibert

Richard‐Yris

Lumineau

et al. 2011

Applied Animal Behaviour Science

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Social influences on circadian behavioural rhythms in vertebrates

et al. 2009

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Higher inherent fearfulness potentiates the effects of chronic stress in the Japanese quail

Calandreau

Favreau-Peigné

Bertin

et al. 2011

Behavioural Brain Research

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Maternal styles in a precocial bird

et al. 2014

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International audienceCare provided by females of many mammal species varies naturally between individuals; these differences in turn influence the phenotypic development of their offspring. When individual maternal behavioural traits are consistent over a number of breeding periods, maternal styles can be defined. These styles have been studied in a large range of mammalian species. Nevertheless, mammals rarely offer the possibility to dissociate mothers' behavioural influence from their genetic influence or their physiological influence via lactation. Here, we provide, for the first time, evidence of the existence of a precocial bird species' maternal styles. By using an adoption procedure we evaluated how maternal style affected the behaviour of Japanese quail, Coturnix coturnix japonica, chicks, via exclusively nongenomic mechanisms. As well as evidence for the existence of maternal styles in this species, we also found correlations between females' temperaments, maternal styles and their fostered chicks' development. Our findings indicate that maternal styles are key features that help understand nongenomic transmission of behavioural characteristics whose vectors have remained poorly understood. (C) 2013 The Association for the Study of Animal Behaviour. Published by Elsevier Ltd. All rights reserved

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Maternal Epigenetic Transmission of Social Motivation in Birds

Formanek¹,

Houdelier²,

Lumineau³

et al. 2008

Ethology

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Behavioural development is a complex phenomenon involving interactions between genetic constraints and environmental influences. One of the most potent environmental influences during the ontogeny of the behavioural characteristics of young is played by mothers. In particular, mammalian mothers modulate the social competences of their young, influencing all their future social life. Here, we investigated the influence of the social characteristics of adoptive mother birds (Coturnix coturnix japonica) on the social motivation (origin of every social relationship) of the young they reared. We characterized the social behaviour of standard stock chicks reared by female quail, genetically selected either for low (LSR) or high (HSR) levels of social reinstatement (index of treadmill behaviour which combined the tendency to run towards conspecifics with the tendency to move away from them), to investigate epigenetic transmission of social motivation. Our results show that HSR and LSR adoptive mothers partially transmitted their social characteristics to their young: chicks reared by HSR females presented higher levels of social motivation than chicks reared by LSR females. This maternal influence appeared much clearer in young males than in young females. Our study reveals that, as in mammals, bird mothers influence epigenetically the development of the social behaviour of their young.

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Incubation temperature affects the expression of young precocial birds’ fear-related behaviours and neuroendocrine correlates

Bertin¹,

Calandreau²,

Meurisse³

et al. 2018

Sci Rep

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The influence of embryonic microclimate on the behavioural development of birds remains unexplored. In this study, we experimentally tested whether chronic exposure to suboptimal temperatures engendered plasticity in the expression of fear-related behaviours and in the expression of the corticotropin-releasing factor in the brains of domestic chicks (Gallus g. domesticus). We compared the neurobehavioural phenotypes of a control group of chicks incubated in an optimal thermal environment (37.8 °C) with those of a group of experimental chicks exposed chronically in ovo to suboptimal temperatures (27.2 °C for 1 hour twice a day). Chronic exposure to a suboptimal temperature delayed hatching and decreased growth rate and experimental chicks had higher neophobic responses than controls in novel food and novel environment tests. In addition, experimental chicks showed higher expression of corticotropin-releasing factor than did controls in nuclei of the amygdala, a structure involved in the regulation of fear-related behaviours. In this study, we report the first evidence of the strong but underappreciated role of incubation microclimate on the development of birds’ behaviour and its neurobiological correlates.

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