Abstract
Urban areas may support high densities of wild carnivores, and pathogens can strongly influence carnivore populations. Red foxes (Vulpes vulpes) are hosts of sarcoptic mange (Sarcoptes scabiei), which infects numerous species, and transmission can be density dependent. In Great Britain, urban red foxes (Vulpes vulpes) have recently increased in population density and undergone range expansions. Here we investigate corresponding changes in urban fox mange prevalence. We predicted a higher prevalence closer to historic epi/enzootics and lower prevalence where urban features reduce fox density and movements, i.e. large areas of public green space, and fragmented habitat, as measured by road length and urban perimeter shape complexity. We visually assessed mange symptoms from georeferenced images of urban foxes submitted online by the public, thus surveying private land on a national scale. We measured the proportion of foxes apparently showing mange and used SATSCAN to identify spatial clusters of high infection risk. Landscape features were extracted from urban layers in GIS to determine associations. Although mange was widespread, we identified a single cluster of high prevalence (37.1%) in Northwest and Central England, which exceeded double mean prevalence overall (15.1%) and mirrors the northward expansion of urban fox distribution. Prevalence was positively correlated with perimeter shape complexity and negatively correlated with distance to the nearest city with mange, although the latter association was weak. Our findings show that citizen science can effectively monitor diseases with highly visible symptoms and suggest that fox movements are influential in explaining spatial patterns of prevalence.
Highlights
Land-use changes associated with increasing global urbanization typically lead to detrimental effects on biodiversity (McKinney 2008)
Photographic images were collected during April and May 2012, as part of a citizen science recruitment initiative to collate urban red fox sightings records for assessing distribution
Mange spatial distribution was non-uniform, and the high-risk hotspot identified in Northwest and Centralwest England is partially consistent with predictions based on recent shifts in urban fox distribution and historical epizooty
Summary
Land-use changes associated with increasing global urbanization typically lead to detrimental effects on biodiversity (McKinney 2008). Some wild species such as the red fox (Vulpes vulpes) are urban exploiters and may reach higher population densities in towns and cities than in rural areas (Smith and Wilkinson 2003; Baker and Harris 2007; Soulsbury and White 2015). Rising wildlife densities can heighten the risk of transmission of pathogens, which can affect wild host populations dynamics (Tompkins et al 2002), increase transmission risk to other host species, and create knock-on-effects on sympatric predators and prey (Lindström et al 1994). Red foxes are major hosts of several serious diseases in Europe and globally, some of which are increasing in prevalence (Baker and Harris 2007; Kauhala et al 2016). Zoonoses transmitted by foxes include rabies (Lyssavirus sp.)
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