Jingxin Wang’s research while affiliated with Guangdong Academy of Forestry and other places

The Chinese pangolin (Manis pentadactyla Linnaeus) is a critically endangered species that feeds on ants and termites. In 2022–2024, we observed two rescued pangolins being attacked by Solenopsis invicta Buren while in captivity. Clusters of pustules and erythema were found on the face, abdomen and limbs of the pangolin. Histopathological examination of the blistered tissue showed epithelial hyperplasia and hyperkeratosis of the skin tissue with surface crusting. In addition, we found remnants of S. invicta heads in the faeces of stung pangolins, suggesting that pangolins would feed on S. invicta. Currently, most of southern China has been invaded by S. invicta, so we conducted two S. invicta invasion surveys in pangolin habitats in Guangdong, and the results indicated that pangolin habitats in China have been invaded by S. invicta. Therefore, we suggest that S. invicta should be taken into account when developing conservation strategies for pangolins.

The excavation of Chinese pangolin ( Manis pentadactyla ) is expected to alter habitat heterogeneity and thus affect the functioning and structure of forest ecosystems. In this study, the bioturbation of Chinese pangolin on forest soils in three regions (Heping, Tianjingshan, and Wuqinzhang) across Guangdong province was quantified. Overall, a mean of 2.66 m ³ ·ha ⁻¹ and 83.1 m ² ·ha ⁻¹ of burrows and bare mounds, respectively, was excavated by Chinese pangolin; the disturbed soils had significantly lower water content and P, C, available N concentrations, but higher bulk density, pH, and microbial abundance than those undisturbed soils. The unevenness of habitat heterogeneity improvement was mainly ascribed to the stronger soil disturbance caused in resting burrows by pangolins. Patterns of altering habitat heterogeneity were site‐specific, with high‐intensity soil disturbance occurring most in shrubs, meadows, steep habitats at high elevations, and mountain tops in Heping, while in broad‐leaved, coniferous and mixed coniferous and broad‐leaved forests away from human settlements in Tianjingshan and upper mountains at high elevations far away from roads and human settlements in Wuqinzhang. Road networks are the main interference for the burrow distribution in Heping and Wuqinzhang and should be programmed.

Unprotected areas with endangered species generally face severe human disturbance. Domestic dogs are a special form of human disturbance and are sympatrically distributed with critically endangered Chinese pangolins in remote mountainous regions of Guangdong, China. Conflicts in habitat utilization between domestic dogs and Chinese pangolins have rarely been evaluated, yet these conflicts might result in a decline in population viability in the wild. To address how domestic dogs affect Chinese pangolins (Manis pentadactyla) in spatiotemporal niches, we used camera traps to obtain information on the distribution and activity of Chinese pangolins and GPS collars to track free-ranging domestic dog activity in the Wuqinzhang and Pengzhai forest areas of Guangdong, China. Combined with environmental variables, we used individual and cave locations to predict a potentially suitable habitat for Chinese pangolins with Maxent. We used the minimum convex polygon method (MCP) to obtain the home ranges of the domestic dogs. Then, we calculated the overlap between the potentially suitable habitat for Chinese pangolins and the home ranges of free-ranging domestic dogs. In the temporal niche, we compared the daily activity rhythms between domestic dogs and Chinese pangolins and assessed the influences of domestic dogs on Chinese pangolins through avoidance–attraction ratios (AARs). Our results show that the potentially suitable habitat of the Chinese pangolin comprises only approximately 24% of the Wuqinzhang forest area and 12% of the Pengzhai forest area. The percentages of habitat overlap were approximately 48% and 71% in the Wuqinzhang and Pengzhai forest areas, respectively. There was less overlap in the temporal niche between Chinese pangolins and free-ranging domestic dogs, but their AAR was significant. Our results reveal that the Chinese pangolin is facing severe disturbances from free-ranging domestic dogs in spatial niches in unprotected areas. We suggest that assessments of Chinese pangolins’ survival status should be conducted as soon as possible, especially in unprotected areas. To expand and optimize established nature reserves for the Chinese pangolin, further strengthening of domestic dog management is necessary.