Article

Environmental change and long-term body mass declines in an alpine mammal

Details

Citation

Mason THE, Apollonio M, Chirichella R, Willis SG & Stephens PA (2014) Environmental change and long-term body mass declines in an alpine mammal. Frontiers in Zoology, 11 (1), Art. No.: 69. https://doi.org/10.1186/s12983-014-0069-6

Abstract
Introduction:  Climate and environmental change have driven widespread changes in body size, particularly declines, across a range of taxonomic groups in recent decades. Size declines could substantially impact on the functioning of ecosystems. To date, most studies suggest that temporal trends in size have resulted indirectly from climate change modifying resource availability and quality, affecting the ability of individuals to acquire resources and grow.  Results:  Here, we investigate striking long-term body mass declines in juvenile Alpine chamois (Rupicapra rupicapra), within three neighbouring populations in the Italian Alps. We find strong evidence that increasing population density and warming temperatures during spring and summer are linked to the mass declines. We find no evidence that the timing or productivity of resources have been altered during this period.  Conclusions:  We conclude that it is unlikely that environmental change has driven body size change indirectly via effects on resource productivity or phenology. Instead, we propose that environmental change has limited the ability of individuals to acquire resources. This could be due to increases in the intensity of competition and decreases in time spent foraging, owing to high temperatures. Our findings add weight to a growing body of evidence for long-term body size reductions and provide considerable insight into the potential drivers of such trends. Furthermore, we highlight the potential for appropriate management, for instance increases in harvest size, to counteract the impacts of climate change on body mass. © 2014 Mason et al.; licensee BioMed Central Ltd.

Keywords
Body size; Body mass; Chamois; Climate change; Environmental change; Hunting; NDVI; Population density; Temperature; Ungulate

Journal
Frontiers in Zoology: Volume 11, Issue 1

StatusPublished
Publication date27/09/2014
Publication date online27/09/2014
Date accepted by journal18/09/2014
URLhttp://hdl.handle.net/1893/25127
PublisherBioMed Central
eISSN1742-9994

Files (1)