) Karst and Douglas fir Pseudotsuga menzienzii (Mirb.) Franco) plantations, 30 species in even-aged oak, and 24 species in mixed regenerated conifer-oak stands ( de Warnaffe and Lebrun, 2004). The carabid species richness we observed at Donglingshan is also only marginally lower than that of assemblages in one of the few remaining primary temperate forest ecosystems of northern China, Changbai Mountain, where 47 species were encountered in mature forest habitats along an altitudinal gradient from 700 to 2000 m, while only 20 of these species were found between 1100 and 1500 m in native mature mixed coniferous forest which corresponds to the altitudinal
range of our site ( Zou et al., 2014). Our recording of 18
species within secondary mixed selleck chemicals llc forest might therefore suggest that these forests support a considerable proportion of the native forest carabid fauna, although a comparison with the species composition reported from Changbai Mountain shows considerable faunal differences, which might suggest that a substantial proportion of the Donglingshan carabid fauna consists of more generalist species. In contrast both to studies from North America and Europe that report www.selleckchem.com/products/BMS-754807.html highest carabid α-diversity in native deciduous woodlands relative to plantations (Fahy and Gormally, 1998, Elek et al., 2001, Magura et al., 2003 and Finch, 2005), and to Yu et al. (2010) who report significantly higher diversity in oak forests than in pine plantations in northern China, our results suggest that the native oak-dominated forest harbours a similar diversity to pine plantations, while carabid species richness in these habitats was clearly surpassed by the mixed
forests. Despite the natural dominance of oak in the study area, mature pristine forests in this region generally contain a mixture of tree species; high beetle diversity in mixed forest may therefore be a consequence of greater habitat similarity with natural forest that formerly covered the area. Mixed forests also represent a low contrast matrix among other forest types, providing heterogeneous ground cover Diflunisal and leaf litter conditions that can provide microhabitats suitable for a wide variety of carabid species, including species using them chiefly as corridors. We suggest that the strong differences in canopy cover among forest types is an important factor explaining observed differences in beetle species richness and composition. Canopy cover influences ground beetles indirectly through changes in microclimatic and soil moisture conditions, as well as shaping the density and composition of the understory vegetation layer (Fuller et al., 2008).