Affiliation:
1. Hebei Key Laboratory of Animal Physiology, Biochemistry and Molecular Biology, College of Life Sciences Hebei Normal University Shijiazhuang China
2. Hebei Collaborative Innovation Center for Eco‐Environment Hebei Normal University Shijiazhuang China
3. Key Laboratory for Conserving Wildlife with Small Populations in Yunnan, Faculty of Biodiversity and Conservation Southwest Forestry University Kunming China
4. Ocean College Hebei Agricultural University Qinhuangdao China
Abstract
AbstractHuman commensal species take advantage of anthropogenic conditions that are less likely to be challenged by the selective pressures of natural environments. Their morphological and physiological phenotypes can therefore dissociate from habitat characteristics. Understanding how these species adjust their morphological and physiological traits across latitudinal gradients is fundamental to uncovering the eco‐physiological strategies underlying coping mechanisms. Here, we studied morphological traits in breeding Eurasian tree sparrows (ETSs; Passer montanus) among low‐latitude (Yunnan and Hunan) and middle‐latitude (Hebei) localities in China. We then compared body mass; lengths of bill, tarsometatarsus, wing, total body, and tail feather; and baseline and capture stress‐induced levels of plasma corticosterone (CORT) and the metabolites including glucose (Glu), total triglyceride (TG), free fatty acid (FFA), total protein, and uric acid (UA). None of the measured morphological parameters varied with latitude except in the Hunan population, which demonstrated longer bills than those in other populations. Stress‐induced CORT levels significantly exceeded baseline levels and decreased with increasing latitude, but total integrated CORT levels did not vary with latitude. Capture stress‐induced significantly increased Glu levels and decreased TG levels, independent of site. However, the Hunan population had significantly higher baseline CORT, baseline and stress‐induced FFA levels, but lower UA levels, which differed from other populations. Our results suggest that rather than morphological adjustments, physiological adjustments are mainly involved in coping mechanisms for middle‐latitude adaptation in ETSs. It is worth investigating whether other avian species also exhibit such dissociation from external morphological designs while depending on physiological adjustments.
Subject
Animal Science and Zoology
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