Search Results (3)

We examined three decades of changes in the mammal fauna of Estonia, Latvia, and Lithuania in the context of climate variability, land use transformation, and anthropogenic pressures. We compiled distributional, abundance, and status data from publications, atlases, official game statistics, and long-term monitoring programs, and we evaluated trends using compound annual growth rates or temporal indices. Our review identified losses such as regional extinctions of garden dormice and European mink, declines in small insectivores (e.g., pond bats and shrews) and herbivores (e.g., Microtus voles), and the contraction of boreal specialists (e.g., Siberian flying squirrels). However, we also identified gains, including increases in ungulate numbers (e.g., roe deer, red deer, fallow deer, moose, and wild boars before African swine fewer outbreak) and the recovery of large carnivores (e.g., wolves and lynxes). Invasions by non-native species (e.g., American mink, raccoon dog, and raccoon) and episodic disturbances, such as African swine fever and the “anthropause” caused by the SARS-CoV-2 pandemic, have further reshaped community composition. The drivers encompass climatic warming, post-socialist forest succession, intensified hunting management, and rewilding policies, with dispersal capacity mediating the responses of species. Our results underscore the dual legacy of historical land use and contemporary climate forcing in structuring the fauna dynamics of Baltic mammal communities in the face of declining specialists and invasive taxa. Full article

Urban expansion leads to changes in land use, and the resulting habitat fragmentation increases the risk of species extinction. Therefore, strategies to connect fragmented habitats for wildlife conservation are required, but past research has focused mainly on large mammals and specific species, and there has been a lack of research on habitat connectivity in Korea. In the present study, we sought to design an ecological network for the conservation of endangered forest wildlife (leopard cat, yellow-throated marten, and Siberian flying squirrel) in Pyeongchang, Gangwon State, Korea. The InVEST habitat quality and MaxEnt models were used to predict forest areas with excellent habitat quality and a high probability of the occurrence of endangered wildlife. We then used Linkage Mapper to identify corridors and bottlenecks that connect fragmented habitats within the study area. The quality of these corridors and the environmental features of the pinch points were also analyzed. The results showed that the area outside of Pyeongchang is the most likely area for endangered forest wildlife habitats and occurrence. A total of seven core areas were identified, and 12 corridors connecting the core areas were identified. The highest quality corridors were those connecting forest areas outside of Pyeongchang because they had a high habitat quality with alternative paths of least resistance. We also identified sections with high pinch points in all corridors, and these points tended to have high elevation, a southern aspect, a long distance from agricultural land and water bodies, low traffic density, and low building density. ANOVA revealed that the environmental variables associated with high pinch points, least-cost paths, and Pyeongchang in general exhibited statistically significant differences. These results demonstrate that the proposed conservation planning model can be applied to multiple species using a corridor-integrated mapping approach and produces quantitative figures for the targeted improvement of ecological connectivity in forests according to local characteristics, including biodiversity. As such, this approach can be utilized as the basis for the selection and management of protected forest areas and for environmental impact assessment. However, because this study had data limitations, field surveys and the monitoring of target species are needed. Once these limitations are addressed, a quantitative conservation plan can be established based on the ecological characteristics of endangered forest wildlife. Full article

Conservation measures or management guidelines must be based on species’ ecological data. The home range of the target species was studied to understand its spatial ecology, in order to protect it. The Siberian flying squirrel is the only flying squirrel species present and is considered as a protected species in South Korea. In this study, we investigated the home range, habitat use, and daily movement of Siberian flying squirrels from February 2015 to June 2016 at Mt. Baekwoon, Gangwon Province, South Korea. We tracked 21 flying squirrels using radio transmitters and analyzed the home range of 12 individuals. Flying squirrels appeared to have an overall mean home range of 18.92 ± 14.80 ha with a core area of 3.54 ha ± 3.88 ha. Movement activity peaked between 18:00–19:00 with the longest distance traveled, coinciding with sunset. In addition, we observed the preference of Siberian flying squirrels to the old deciduous forest with dense crowns. The results of the present study indicate that it is important to manage their habitat; for instance, preserving an appropriate size of mature deciduous forest is essential for Siberian flying squirrels. While our study provides needed baseline information on the spatial activity of the species, further research on topics such as the national distribution, behavior, and population dynamics of Siberian flying squirrels is needed in South Korea. Full article