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Thirsty mothers pay extra costs to reproduce
Reproduction exposes females to many obstacles to their health and survival. For instance, female vertebrates usually face major morphological rearrangements and severe physiological stressors during pregnancy. These costs of reproduction shape the reproductive tactics of all species. A universal cost of reproduction involves the alteration of the balance between attack by free radicals and antioxidant defences, which is defined as oxidative stress. In this study, we determined if and how pregnancy, thirst and thermal stress affect doxidative stress in female lizards. Oxidative stress was quantified in the blood (plasma) of lizards from 12 natural populations exposed to different temperature and water conditions. Using a robust experimental design, we then examined how controlled thirst jointly influenced both female oxidative balance and offspring performance. In both studies, despite boosted defensive capacity, females exhibited similar levels of oxidative attack compared to males, suggesting that they protected themselves against this oxidative cost of reproduction. Furthermore, the concentrations of oxidative markers in pregnant females depended on the number of their developing embryos and were increased under water-restricted conditions. Interestingly, these immediate changes in mothers impacted their offspring, hence illustrating new insights into mother-offspring relationships. Specifically, mothers with a greater capacity to defend themselves against oxidative attacks had a higher proportionof viable offspring, and offspring that faced stronger oxidative attacks during their foetal development had lower survival the following year. These results confirm that thirsty females with higher fecundity have to pay an extra cost of reproduction and suggest inter-generational consequences of maternal oxidative stress on offspring performance. In this regard, costs of reproduction in wild lizards are predicted to increase as summer droughts increase in frequency.
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Last Updated ( mardi, 17 décembre 2019 )
When water meets temperature
A potentially novel mechanism of sex determination
The evolution of sex determination is complex and yet crucial in our understanding of population stability. In ectotherms, sex determination involves a variety of mechanisms including genetic determination (GSD), environment determination (ESD), but also interactions between the two via sex reversal. In this study, we investigated whether water deprivation during pregnancy could override GSD in two heterogametic squamate reptiles. We demonstrated that water restriction in early gestation induced a male‐biased secondary sex ratio in both species, which could be explained by water sex reversal as the more likely mechanism. We further monitored some long‐term fitness estimates of offspring, which suggested that water sex determination (WSD) represented a compensatory strategy producing the rarest sex according to Fisher's assumptions of frequency‐dependent selection models. This study provides new insights into sex determination modes and calls for a general investigation of mechanisms behind WSD and to examine the evolutionary implications.
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