4.5 Article

Snake life history traits and their association with urban habitat use in a tropical city

Journal

URBAN ECOSYSTEMS
Volume 26, Issue 2, Pages 433-445

Publisher

SPRINGER
DOI: 10.1007/s11252-023-01327-x

Keywords

Australia; Wildlife management; Human-wildlife conflict; Ecological niche; Distribution; Urban ecology

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Urbanisation alters landscapes, simplifying natural ecosystems and introducing new environments. Generalist species with broader habitat and dietary preferences, as well as a preference for arboreality, are more successful in urban environments and have larger urban niche hypervolumes and more frequent human-snake interactions. Colubrid snakes have significantly larger urban niche hypervolumes than elapid species. These findings contribute to understanding wildlife persistence and adaptation in urban ecosystems and have implications for landscape design and conservation management.
Urbanisation changes landscapes, often simplifying and homogenising natural ecosystems while introducing novel environments. Although this transformation often adversely impacts native wildlife, generalist species that exhibit broad dietary and habitat requirements can persist and take advantage of urban environments. To understand which life history traits most influence the occurrence of a diverse snake assemblage in an urban environment, we leveraged a dataset of 5102 detection records for 12 snake species in the tropical city of Darwin, Australia. By building ecological niche models, calculating urban niche hypervolume, and compiling life history data, we analysed the diversity of environments occupied by each species and determined which landscape components were most associated with occurrence data. In keeping with our hypothesis that generalist species would be more successful, we found that species with broader habitat and dietary preferences, as well as a penchant for arboreality, were associated with larger urban niche hypervolumes and more frequent human-snake interactions. Additionally, we found that colubrid snakes had significantly larger urban niche hypervolumes than elapid species. These findings contribute to understanding how life history traits aid wildlife persistence in, and adaptation to, urban ecosystems, and have implications for landscape design and conservation management.

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