Importance of Patches in Maintaining Forest Landscape Connectivity: A Case Study of Barluk, Xinjiang, China

Habitat loss and fragmentation are two main threats to biodiversity. Forest landscape connectivity can directly affect many ecological processes, such as plant seed dispersal and animal migration, and is an important framework for determining strategic priorities for biodiversity conservation. This study examines the Barluk Mountain Nature Reserve in Xinjiang as a case study to evaluate changes in connectivity at different diffusion distances based on graph theory. Our results showed that Barluk consists predominantly (62%) of small patches (<1 hm2) and a relatively limited number (7%) of large patches (>10 hm2). By simulating a forest loss scenario and assessing the importance of individual patches, we found that large patches played an important role in maintaining connectivity. Further, by calculating the delta number of components (dNC), we found that not all small patches contribute to maintaining connectivity, and small patches (with dNC < 0 and area < 1 hm2) that act as "stepping stones" within large patches should also be prioritized for protection. Therefore, priority identification of patches that contribute the most to connectivity will provide effective forest management strategies, help enhance the functioning of forest ecosystems, and protect fragmented ecosystems.