Abstract
Biodiversity is challenged worldwide by exploitation, global warming, changes in land use and increasing urbanization. It is hypothesized that communities in urban areas should consist primarily of generalist species with broad niches that are able to cope with novel, variable, fragmented, warmer and unpredictable environments shaped by human pressures. We surveyed moth communities in three cities in northern Europe and compared them with neighbouring moth assemblages constituting species pools of potential colonizers. We found that urban moth communities consisted of multi-dimensional generalist species that had larger distribution ranges, more variable colour patterns, longer reproductive seasons, broader diets, were more likely to overwinter as an egg, more thermophilic, and occupied more habitat types compared with moth communities in surrounding areas. When body size was analysed separately, results indicated that city occupancy was associated with larger size, but this effect disappeared when body size was analysed together with the other traits. Our findings indicate that urbanization imposes a spatial filtering process in favour of thermophilic species characterized by high intraspecific diversity and multi-dimensional generalist lifestyles over specialized species with narrow niches.
Highlights
Earth is urbanizing rapidly, and this results in human-influenced environmental changes that can modify the conditions for life, and the patterns of biodiversity in urban as opposed to rural areas
Of the 858 moth species recorded in the combined species pool, 392 species were caught in at least one of the cities, 196 species were caught in one city only and 90 species were caught in all three cities
We explored whether moth communities in urban areas primarily included generalist species with broad niches that are able to cope with more novel, variable, fragmented, warmer and unpredictable environments shaped by human activities
Summary
This results in human-influenced environmental changes that can modify the conditions for life, and the patterns of biodiversity in urban as opposed to rural (non-urban) areas. Based on predictions from theory and previous empirical findings on how species traits impact colonization and establishment, we expected that communities in urban environments were dominated by multi-dimensional generalist moth species characterized by large distribution ranges, varied habitat preferences, broad diets, variable colour patterns and a long reproductive season [3,7,13,15,16,18,19,20,21,22]. To evaluate the consequences of ecological filtering, we compared the community composition and species traits of moths collected in the three urban environments with the moth assemblages of potential colonizers, as based on previous observations in the corresponding regions. The NMDS was performed with the R package vegan [50] using the Bray–Curtis dissimilarity measure
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