Developmental Thermal Conditioning Regulates Oxidative State and Beak Coloration in Response to Thermal Stressors in Adulthood.

Abstract

AbstractAt certain intensities and durations, environmental stressors during development can result in changes in physiology that prepare organisms for future stressful conditions. Such plasticity can allow organisms to maintain good condition when confronted with a poor environment, potentially conferring an advantage in fitness. However, the physiological changes underlying these adaptive phenotypic adjustments are understudied. Using captive male zebra finches (Taeniopygia castanotis), we tested whether exposure to a prolonged mild stressor during development would adaptively modify their antioxidant enzyme expression, reducing oxidative damage when exposed to a high-intensity stressor in adulthood and allowing the maintenance of a secondary sexual trait. To do this, we exposed juvenile finches to either a prolonged mild heat stressor treatment (38°C) or a control temperature treatment (22°C). As adults, these finches were then exposed to either an acute high-intensity heat stressor treatment (42°C) or control temperature treatment (22°C). The beak color of males-a sexually selected trait-was quantified, as were oxidative stress parameters in the testes and liver tissues. We saw that the mild-heat-conditioned males had beaks with higher saturation and lower brightness at baseline in adulthood but that the changes in beak color in response to the high heat stressor varied. After exposure to the high heat stressor as adults, finches had higher levels of superoxide dismutase 1 and 2 in the testes and lower levels of lipid damage in the liver if they were also exposed to the mild heat conditioning as juveniles, indicating an adaptive phenotypic change.