Forestry seems to have a significant impact on the diversity and composition of forest small mammal communities. Coppicing is one of the most widely adopted silvicultural systems in Europe and its effect on the entire small mammals community remains unclear. Thus, our study aimed to preliminary assess the stand-level effect of different coppice woodland elements on community richness, focusing on forest small mammal species. Furthermore, a second aim was to assess the effect of these woodland stand elements on different small mammal taxonomic groups to evaluate possible differential responses within the community. We identified three different coppice age classes, and selected a total of 15 coppice-with-standards forest stands. Additionally, we collected data about understory shrub structure and composition. Fur samples were collected using the hair tube sampling method. We found a significant effect of the coppice age on the number of species detected in communities. Furthermore, we found a differential response between glirid and murid families, with glirid being positively affected by a higher shrub abundance, which is instead severely reduced by coppicing
Martini, M., Patelli, S., Cassola, F.M., Iaria, J., Livornese, M., Prandelli, S., et al. (2024). A case study on the impact of coppicing on small mammal diversity: First evidence from the high Agri Valley in the Basilicata Region, Italy. JOURNAL FOR NATURE CONSERVATION, 82(126732), 1-7 [10.1016/j.jnc.2024.126732].
A case study on the impact of coppicing on small mammal diversity: First evidence from the high Agri Valley in the Basilicata Region, Italy
Martini, Matilde;Cassola, Francesca Maura;Iaria, Jacopo;Livornese, Martina;Prandelli, Sofia;Rocchini, Duccio;Muraro, Martina;Miraglia, Giuseppe;Cazzolla Gatti, Roberto
2024
Abstract
Forestry seems to have a significant impact on the diversity and composition of forest small mammal communities. Coppicing is one of the most widely adopted silvicultural systems in Europe and its effect on the entire small mammals community remains unclear. Thus, our study aimed to preliminary assess the stand-level effect of different coppice woodland elements on community richness, focusing on forest small mammal species. Furthermore, a second aim was to assess the effect of these woodland stand elements on different small mammal taxonomic groups to evaluate possible differential responses within the community. We identified three different coppice age classes, and selected a total of 15 coppice-with-standards forest stands. Additionally, we collected data about understory shrub structure and composition. Fur samples were collected using the hair tube sampling method. We found a significant effect of the coppice age on the number of species detected in communities. Furthermore, we found a differential response between glirid and murid families, with glirid being positively affected by a higher shrub abundance, which is instead severely reduced by coppicingI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
