Journal
COMMUNITY ECOLOGY
Volume 23, Issue 3, Pages 289-299Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s42974-022-00104-8
Keywords
Altitudinal gradients; Species richness; Eulipotyphla; Species assemblages; Rodentia
Categories
Funding
- Universita degli Studi di Sassari within the CRUI-CARE Agreement
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This study investigated the small mammal community above the treeline in the Western Dolomites of the Italian Alps using live traps and camera trapping. The results showed that species richness was related to elevation, steepness, and vegetation cover, while the taxonomic distinctness of ground-dwelling arthropods indicated the importance of habitat complexity. The availability of shelters and underground burrows was also found to be crucial for the captured individuals. Additionally, the study detected a negative impact of sub-surface ground temperature on small mammal abundance, confirming their altitudinal shift due to ongoing climate change.
An increasing number of studies have investigated spatial and temporal patterns in species richness and assemblage composition in mountain ecosystems along altitudinal gradients. Small mammals have been successfully used as indicators of environmental health and as proxies of biodiversity. However, information about the composition and distribution of species assemblages in the mosaic of habitat and rocky landform types at a high altitude is still lacking for most of the mountain regions. Through the use of live traps and camera trapping, we described the small mammal community living above the treeline of the Western Dolomites (Italian Alps), investigating the species richness, abundance of individuals and community composition in relation to topographic, micrometeorological, mesohabitat, and biological correlates. A total of five species and 50 individuals were sampled, analysed, and released. At the extremes of the analysed altitudinal range (i.e. 1900 vs 2900 m a.s.l.), community composition was completely different and species richness was related to elevation, steepness, and vegetation cover. At the same time, the taxonomic distinctness of ground-dwelling arthropods (namely carabid beetles and spiders), a proxy of habitat complexity, showed higher values in areas with a greater small mammal species richness. We found a positive effect of steepness and rocky landform type carsism on the number of captured individuals, showing the importance of the availability of shelters and underground burrows for the sampled species. As a confirmation of the altitudinal shift for these species in relation to the ongoing climate change, we detected a negative impact of sub-surface ground temperature on small mammal abundance during the monitoring period. In conclusion, small mammals represent an excellent model for understanding the evolutionary processes of ecosystems, population dynamics under changing environmental conditions, and habitat vulnerabilities.
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