Habitat Occupancy of the Critically Endangered Chinese Pangolin ( Manis pentadactyla) Under Human Disturbance in an Urban Environment: Implications for Conservation

Globally, urban expansion has led to habitat fragmentation and altered resource availability, thus posing significant challenges for wildlife. The Chinese pangolin ( Manis pentadactyla ) is a critically endangered species experiencing population decline due to illegal trade and habitat degradation. This study analyzed variables affecting habitat occupancy of Chinese pangolins using a single‐season occupancy model across 134 study grids (600 m × 600 m) in peri‐urban areas of Dharan Sub‐Metropolitan City, eastern Nepal. We identified termite mounds as a significant key factor (top model with AICwt = 1) in the detection probability of Chinese pangolin burrows ( β _{Termite mounds} = 1.48, 95% CI = 1.07 to 1.89). Additionally, the Human Disturbance Index (HDI) emerged as the key variable for habitat use occupancy (AIC = 231.96, AICwt = 0.309), indicating a significant negative impact ( β _HDI = −6.555, 95% CI = −11.324 to −1.7723). We observed a mean HDI of 0.475 ± 0.04 in the grids where Chinese pangolins were detected, with higher HDI values correlating with reduced Chinese pangolin occupancy. For the long‐term conservation of Chinese pangolins in urban landscapes, it is crucial to reduce anthropogenic activities and implement conservation measures to protect suitable habitats with abundant termite mounds.

This study analyzed detection probability and habitat occupancy of Chinese Pangolin using single‐season occupancy modeling. The number of termites mounds increases detection probability, while Human Disturbance Index (HDI) decreases the habitat occupancy. The findings emphasize the need for targeted conservation efforts, considering the fine‐scale ecological and anthropogenic factors impacting Chinese pangolins in urban and peri‐urban areas.