Feather corticosterone levels in the southern lapwing revealed no association with the degree of urbanization

Verónica Quirici ^1* Denyelle Kilgour ² Elfego Cuevas ¹ Susan Fletcher ¹ Carlos Sarmiento ¹ Cesar Gonzalez ³ L. Michael Romero ²

• ¹ Andres Bello University, Santiago, Chile
• ² Tufts University, Medford, Massachusetts, United States
• ³ Facultad de Artes Liberales, Universidad Adolfo Ibáñez, Santiago, Santiago Metropolitan Region (RM), Chile

The urbanization process modifies the environment in which wildlife lives. On the one hand, it modifies the biotic and abiotic elements and introduces new stress factors like light pollution, noise pollution, and chemical pollution. These modifications to natural elements and the introduction of new ones could induce stress in organisms and lead to the release of glucocorticoids. One taxonomic group that lives in cities and is highly sensitive to changes in habitat and human population density is birds. Most of the studies about stress and urbanization have measured glucocorticoids (GCs) circulating in the blood, which offer only a “snapshot” of an animal’s current state, and it is affected by the capture procedure. An alternative is to measure GCs in samples that are not altered by the capture procedure, like feathers. In this study we compared levels of corticosterone in feather (CortFeather) of the southern lapwing (Vanellus chilensis) in four locations in the Metropolitan Region (RM) of Santiago de Chile. To accurately measure urbanization, we employed four distinct land cover typologies to illustrate the variations in structural characteristics. A 500-meter buffer zone was created around each of the four collection sites where feathers were gathered, creating an “Urbanization score”. We observed a statistically significant variation in the median CortFeather values across the four studied localities. Contrary to our expectation, the observed differences in CortFeather concentrations were identified not among the highly urbanized populations but rather between two populations characterized by lower urbanization scores. In the same line, we observed the absence of correlation between the “Urbanization score” and CortFeather levels. Our findings indicate that factors beyond those captured in the satellite images may contribute to the elevated levels of this hormone in a low urbanized wetland in the Santiago Metropolitan region of Chile. For instance, the prevalence of feral dogs in the vicinity, including within the wetland, could be a significant contributing factor.