Abstract
AbstractAimWe test whether urbanization drives biotic homogenization. We hypothesize that declines in abundance and species diversity of aerial insects are exacerbated by the urbanization‐driven loss of species with low habitat generalism, mobility and warm‐adaptedness. We predict this homogenization to be more pronounced for nocturnal taxa, and at wider scales for mobile taxa.LocationBelgium.Time periodSummers 2014–2015.Major taxa studiedLepidoptera.MethodsWe compare communities along urbanization gradients using a shared, replicated and nested sampling design, in which butterflies were counted within 81 grassland and macro‐moths light‐trapped in 12 woodland sites. We quantify taxonomic and functional community composition, the latter via community‐weighted means and variation of species‐specific traits related to specialization, mobility and thermophily. Using linear regression models, variables are analysed in relation to site‐specific urbanization values quantified at seven scales (50–3,200 m radii). At best‐fitting scales, we test for taxonomic homogenization.ResultsWith increasing urbanization, abundance, species richness and Shannon diversity severely declined, with butterfly and macro‐moth declines due to local‐ versus landscape‐scale urbanization (200 vs. 800–3,200 m radii, respectively). While taxonomic homogenization was absent for butterflies, urban macro‐moth communities displayed higher nestedness than non‐urban communities. Overall, communities showed mean shifts towards generalist, mobile and thermophilous species, displaying trait convergence too. These functional trait models consistently fit best with urbanization quantified at local scales (100–200 m radii) for butterfly communities, and at local to wider landscape scales (200–800 m radii) for macro‐moth communities.Main conclusionsUrban communities display functional homogenization that follows urbanization at scales linked to taxon‐specific mobility. Light pollution may explain why homogenization was more pronounced for the nocturnal taxon. We discuss that urbanization is likely to impact flying insect communities across the globe, but also that impacts on their ecosystem functions and services could be mitigated via multi‐scale implementation of urban green infrastructure.
Highlights
Urbanisation is a prominent case of human-induced rapid environmental change, with our planet currently urbanizing rapidly (Seto, Güneralp, & Hutyra, 2012)
Are towns and cities typified by extensive loss and fragmentation ofnatural habitats, they are characterised by higher ambient temperatures (i.e. the urban-heat-island (UHI) effect) and higher levels of artificial light at night (ALAN) than surrounding rural and natural areas (Parris, 2016)
When contrasting sites that differed by 25% built-up cover (BUC), the modelled extent of these declines –based on the modelled intercept and slope and at the spatial scale of the best-fitting model– amounted to -84% in abundance, -59% in species richness and -26% in diversity of butterflies
Summary
Urbanisation is a prominent case of human-induced rapid environmental change, with our planet currently urbanizing rapidly (Seto, Güneralp, & Hutyra, 2012). Are towns and cities typified by extensive loss and fragmentation of (semi)natural habitats, they are characterised by higher ambient temperatures (i.e. the urban-heat-island (UHI) effect) and higher levels of artificial light at night (ALAN) than surrounding rural and natural areas (Parris, 2016). These effects of habitat fragmentation, UHI, and ALAN get stronger with increasing built-up cover (BUC) (Sutton, 2003; Merckx, Souffreau et al, 2018). Functional homogenisation reflects a convergence of biotas over time associated with the establishment of species with similar functional ‘roles’ in the ecosystem
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