Abstract
As a mammal with unique ecological habits, the Chinese pangolin, Manis pentadactyla, exhibits nocturnal behavior and has a hidden, cave-dwelling lifestyle. Severe habitat degradation and fragmentation have led to a rapid decline in its wild population. Moreover, the immature state of artificial breeding technology restricts the availability of research samples, particularly with regard to behavioral and ecological data. This makes it extremely difficult to continuously monitor the pangolin's ecological habits and population dynamics for a long time. The comprehensive research archive is yet to be established, greatly limiting the in-depth understanding of this species' ecological behavior. To mitigate this data shortage, this study installed GPS positioning and accelerometer technology devices on five Chinese pangolins that were rescued from Zhejiang and released into the wild. Activity rhythms and home ranges were then analyzed based on the collected data. The results showed that all the five released Chinese pangolins were active in the wild and survived throughout the tracking period (21-72 days). The pangolins were mainly active at night, with activity starting after 18:00 and being mainly concentrated between 22:00 and 4:00. The home range of the Chinese pangolins based on MCP was 777.41 ± 426.26 hm(2), and the core range based on KDE was 596.21 ± 265.58 hm(2) (50% KDE). This result confirms that high-frequency GPS positioning combined with accelerometer data can effectively determine the home range sizes, habitat utilization, and fine-scale activity rhythms of wild-released pangolins.