Spatial and Temporal Overlap of Nilgai (Boselaphus tragocamelus) and Cattle (Bos taurus) and Its Implications for Parasite Burden and Prevalence

Abstract

Humans have depended on domesticated animals and plants since the origin of agriculture, and forests and grasslands have provided essential resources such as grazing and forest products. But there is greater overlap today between livestock and wildlife as a result of greater deforestation and growing human activity, and this has implications for the transmission of disease at these interfaces. In this dissertation, the impacts of spatial overlap, environmental variables, and animal behavior are investigated for their influence on patterns and drivers of gastrointestinal parasite load in nilgai (Boselaphus tragocamelus) and cattle, a commensal wild ungulate of the Indian peninsula. During December 2024 to March 2025, the study was conducted in the Darra enclosure of Mukundra Hill National Park. In addition to spatial information regarding animal locations with respect to villages, water points, and livestock distribution, field measurements were collected on parasitic burden, which was expressed as eggs per gram (EPG) in fecal samples. The research attempted to determine the impacts of spatial overlap among livestock and wildlife and proximity to these attributes on parasite intensity and prevalence. Statistical tests revealed no substantial relationship between the parasitic load of cattle and their proximity to villages or water points, contrary to preliminary hypotheses. All individuals sampled carried high EPG values consistently, revealing an overall parasite burden. Widespread parasite exposure regardless of spatial gradients due to common grazing, minimal pasture rotation, and homogenous environmental conditions are most likely the primary reasons for such a pattern. The research explored whether temporal and spatial coincidences with livestock, in this case cattle, can be channels of parasite transmission for nilgai. The findings indicate that the impact of spatial proximity can be overcome by aggregating at shared resources and chronic exposure to soiled environments and that it consistently yields high infection rates in domestic and wild ungulates. These results underscore the importance of considering environmental context, grazing management, and animal behavior when designing parasite control strategies. Instead of simply considering physical distance to villages or water sources, interventions taking into account pasture management and resource allocation may be more effective. The research presents valuable information for the prevention of disease, management of wildlife, and conservation of India's domestic and wild ungulates.