Akademik Veri Yönetim Sistemi
Sumarski List, cilt.148, sa.5-6, ss.261-272, 2024 (SCI-Expanded)
The brown bear has a large body and it is described as the largest carnivore in Europe. While the brown bear can move safely and comfortably in its own habitat thanks to its large size, it is challenging for it to travel to different habitats over long distances. Therefore, negative changes that may occur with global warming may cause the ex-isting brown bear populations and their habitats to be restricted, reduced, or destroyed. The aim of this study was to reveal the effect of Chelsa climate envelope models for current and future years on brown bear habitats in Eu-rope. For this purpose, the MaxEnt method was used, which is frequently used in wildlife species distribution modelling. The current habitat suitability model of the brown bear was in the “good model” category with the training data set ROC value of 0.834 and the test data set ROC value of 0.828. The variables contributing to the current model are annual range of temperature (48.2%), mean monthly precipitation amount of the warmest quar-ter (22.1%), temperature seasonality (18.2%) and annual precipitation amount (11.5%), respectively. When the mapping results using the variables contributed to the brown bear current habitat suitability model are compared with the IUCN inventory results, the current brown bear habitats in Europe will change regionally. However, it was determined that brown bear habitats will shrink according to the SSP126 Chelsa climate scenario for the year 2100, and these habitats will fragment according to the SSP370 scenario, as well as that brown bear habitats will disappear in some regions in the SSP585 scenario.