Abstract:
Asiatic wild ass, or kulan, (Equus hemionus kulan) were once a key species of the Eurasian steppes. In Kazakhstan they went extinct by the 1930s. Early reintroductions have reestablished the species in two protected areas, but the species has reclaimed <1% of their former range and remained absent from the steppes of central Kazakhstan. To initiate restoration in this vast region, we captured and transported a first group of nine wild kulan to a large pre-release enclosure on the Torgai steppe in 2017, and two more in 2019. We used direct observations and post-release movement data of four kulan equipped with GPS-Iridium collars to document their adaptation process in a vast novel habitat without conspecifics. For comparison with movements in the source populations, we additionally equipped two kulan in Altyn Emel National Park and six in Barsa Kelmes State Nature Reserve. The nine transported kulan formed a cohesive group with very high movement correlation in the enclosure. After release, the group initially stayed tightly together but started to break up by mid-May and with all kulan travelling independently by mid-August. With 48,680 – 136,953 km2, the 95% Autocorrelated Kernel Density Estimation ranges of the reintroduced kulan were huge and about 10-100 times larger than those in the source populations. The reintroduced mares never reconnected, there was no evidence of successful reproduction, and two of the four collared mares were killed be poachers and one died of natural causes. The fate of the uncollared animals remains unclear. We speculate that the fission-fusion dynamics and low movement correlation of kulan societies harbours the risk that animals released into a novel environment lose contact with each other. This risk is likely enhanced in steppe habitats where movement constraining factors such as steep terrain and limited water availability are absent. Further kulan reintroductions to the steppes of central Kazakhstan should aim to release larger groups and built up the freeranging population as quickly as possible to reach a critical mass, increasing the chance of kulan encountering conspecifics to successfully breed and increase their chance of survival.