Topography‐derived variables provide insight into habitat occupancy of a cryptic snake, Bitis atropos

Understanding species’ habitat use is fundamental for conservation and management. However, quantifying habitat use for small cryptic species is limited by imperfect detection during field surveys and the lack of habitat data at meaningful spatial scales. Topographically‐derived habitat variables from digital elevation models (DEMs) have the potential to overcome these limitations. Here we used DEM‐derived topographic variables as fine‐scale proxies for abiotic conditions to study site‐occupancy patterns of the berg adder ( Bitis atropos ), a small‐bodied cryptic viper. We carried out seven repeated field surveys across 219 hectares in a mountainous protected area in north‐eastern South Africa to estimate snake detection probability and occupancy using maximum likelihood methods. Although snakes occurred across a third of the surveyed habitat, they were only detected 40% of the time during the springtime when detection was highest. Results showed that these snakes preferred north‐west facing, mid and upper slopes, which are exposed to afternoon sun and presumably higher ambient energy. Our results demonstrate the value of using DEM‐derived topographic variables for ecological studies where habitat data are either unavailable or inappropriate, thereby providing valuable insights into habitat use of cryptic and difficult to detect species.