1. Incubation Temperature Alters Temperature-Dependent Oxygen Consumption in Northern Bobwhite Quail Hatchlings (Colinus virginianus)
- Author
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Christopher Marks, Natalie E. Nickles, Spiro Mavroidis, and Tom Wise
- Subjects
animal structures ,Physiology ,Acclimatization ,Ontogeny ,chemistry.chemical_element ,Context (language use) ,Quail ,Biochemistry ,Oxygen ,Oxygen Consumption ,Animal science ,biology.animal ,Animals ,Incubation ,Hatchling ,Ovum ,biology ,Ecology ,Temperature ,Colinus ,biology.organism_classification ,Animals, Newborn ,chemistry ,Animal Science and Zoology ,Bobwhite quail ,Body Temperature Regulation - Abstract
This study investigated the effect of mismatching incubation and posthatch temperatures in northern bobwhite quail hatchlings. Quail embryos were incubated at 35.5° or 37.5°C. Metabolic rates were then measured in hatchlings acclimated to either the same or the opposite temperature treatment. While hatchlings expressed higher oxygen consumption when posthatch temperature did not match incubation temperature, the effect of mismatching temperatures was significant only when posthatch temperature was higher than incubation temperature. Our data suggest that bobwhite quail hatchlings may express increased metabolism due to mismatches between incubation and posthatch temperatures. More specifically, the nature or direction of the mismatch can determine the magnitude of the metabolic effect. These findings highlight the importance of considering the context of specific conditions experienced throughout ontogeny when observing phenotypic outcomes.
- Published
- 2017
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