Kuruppath, S. V.; Chatterjee, N.; Krishnamurthy, R.

Background: Free-ranging dogs are widely considered to potentially have negative impacts on wildlife in shared landscapes. Understanding their use of these landscapes is therefore essential to develop effective management strategies in wildlife-adjacent regions. In this study, we investigated the movement patterns of free-ranging dogs in the protected area matrix of Mudumalai Tiger Reserve (MTR) in Southern India. Methods: Fifteen dogs were collared from two adjacent villages with different levels of human habitation. We hypothesized that increased settlement cover would provide dogs with a greater human shield effect, allowing them more freedom of movement. We estimated dog activity ranges using autocorrelated kernel density estimates (AKDE) and characterized broad-scale movement through metrics including intensity of space use and mean distance from home. We then compared these metrics with respect to different variables to clarify underlying drivers of movement patterns. Lastly, we analysed fine-scale habitat selection using integrated step selection analysis (iSSA). Results: We found that free-ranging dogs in MTR have small activity ranges, with the mean AKDE activity range being 9.88 ha (median = 6.09 ha, SD = 7.69 ha, range 3.28-26.16 ha), and primarily utilise the area within 500m of their homes. No movement metric varied significantly with respect to any variable apart from intensity of use, which varied significantly between villages, indicating the dogs in the village with less human settlement restricted their movement more. iSSA revealed that dogs did not select for any specific habitat type other than human settlements and mostly moved within human settled or human-modified spaces, moving significantly faster in forest land than in any other habitat. Conclusions: These findings support the human shield hypothesis and highlight the role of human land use in shaping the movement of domestic dogs, in turn mediating potential effects of dogs on wildlife. Our study shows that dogs show plasticity in space use even at fine scales of 5km or less, which has important implications for management strategies that aim to curb dog movement.