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1. Rural selection drives the evolution of an urban–rural cline in coat color in gray squirrels

   https://doi.org/10.1002/ece3.10544  

   Cosentino, Bradley_J; Vanek, John_P; Gibbs, James_P (October 2023, Ecology and Evolution)

   Abstract Phenotypic differences between urban and rural populations are well‐documented, but the evolutionary processes driving trait variation along urbanization gradients are often unclear. We combined spatial data on abundance, trait variation, and measurements of fitness to understand cline structure and test for natural selection on heritable coat color morphs (melanic, gray) of eastern gray squirrels (Sciurus carolinensis) along an urbanization gradient. Population surveys using remote cameras and visual counts at 76 sites along the urbanization gradient revealed a significant cline in melanism, decreasing from 48% in the city center to <5% in rural woodlands. Among 76 squirrels translocated to test for phenotypic selection, survival was lower for the melanic than gray morph in rural woodlands, whereas there was no difference in survival between color morphs in the city. These results suggest the urban–rural cline in melanism is explained by natural selection favoring the gray morph in rural woodlands combined with relaxed selection in the city. Our study illustrates how trait variation between urban and rural populations can emerge from selection primarily in rural populations rather than adaptation to novel features of the urban environment. 

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2. Urban refuge? Squirrel pigmentation clines maintained by strong natural selection beyond city limits

   https://doi.org/10.21203/rs.3.rs-6967993/v1  

   Bonar, Maegwin; Blumenfeld, Alexander; Fusco, Nicole; Campagna, Leonardo; Timpson, Adrian; Thomas, Mark; Cosentino, Bradley; Gibbs, James; Caccone, Adalgisa (July 2025, Research Square)

   Abstract Urbanization creates heterogeneous selective landscapes that cause the evolution of urban-rural clines in phenotypic traits. Although cities can introduce novel selection pressures, little attention has been paid to the role of selection outside the city in maintaining urban-rural clines. We integrate whole genome sequencing, demographic modeling, and complementary models of selection to test how natural selection in both urban and rural environments shapes the evolution of an urban-rural cline in coat color in eastern gray squirrels (Sciurus carolinensis). Coat color polymorphism in this species, which presents as either gray or melanic, is primarily determined by a 24-bp deletion in the melanocortin-1 receptor gene (Mc1R). Melanic squirrels are more prevalent in urban environments but rare or absent in rural forests. Whole genome sequencing and demographic modeling revealed substantially greater urban-rural divergence at Mc1R than the genomic background, suggesting urban-rural clines in melanism are maintained by selection. We applied three separate approaches leveraging demographic and genomic data to estimate the selection coefficient against Mc1R alleles in each habitat, producing a surprising, yet consistent finding: strong selection against the melanic morph in the rural environment and near neutrality in the city. Our findings demonstrate that selection outside the city can be sufficient to maintain urban-rural clines, and urban environments can maintain genetic diversity that would otherwise be lost in rural landscapes. This study provides a rare opportunity to unravel both the spatial dynamics and the selective pressures shaping trait variation in a widespread vertebrate species, highlighting the complex and sometimes protective role of urban landscapes in evolutionary processes. 

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3. Road Mortality Contributes to the Evolution of an Urban–Rural Cline in Squirrel Coat Color

   https://doi.org/10.1111/eva.70109  

   Parlin, Adam_F; Cosentino, Bradley_J; Lehtinen, Richard_M; McDonald, John_E; Sinclair, Emma_C_C; Gibbs, James_P (May 2025, Evolutionary Applications)

   ABSTRACT Cities impose unique selection pressures on wildlife and generate clines in phenotypic traits along urban–rural gradients. Roads are a widespread feature of human‐dominated landscapes and are known to cause direct wildlife mortality; however, whether they act as a selective force influencing phenotypic trait variation along urban–rural gradients remains unclear. This study tested the hypothesis that roads influence natural selection of coat color in the eastern gray squirrel (Sciurus carolinensis), a species with two distinct coat colors: a gray morph that is common in all areas and a melanic morph more prevalent in urban areas than in rural ones. Vehicular collisions are a significant cause of mortality in eastern gray squirrels, with the melanic morph more visually conspicuous on roads and more easily detected and avoided by drivers than the gray morph. Standardized road cruise surveys along an urbanization gradient in Syracuse, New York, USA, revealed that the prevalence of melanism among living squirrels in Syracuse was negatively related to distance from the city center, whereas there was no urban–rural cline in melanism among road‐killed individuals, with the melanic morph underrepresented among road‐killed squirrels by up to 30% along the urbanization gradient. An examination of the prevalence of each color morph on and off road surfaces in a range‐wide compilation of > 100,000 photographs ofS. carolinensisalso indicated that the melanic morph was underrepresented among road‐killed squirrels imaged. Our study highlights vehicular collisions as an important source of natural selection on phenotypic traits, suggesting a potential role in shaping patterns of urban evolution and contributing to the maintenance of urban–rural clines. 

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4. Genome-wide parallelism underlies contemporary adaptation in urban lizards

   https://doi.org/10.1073/pnas.2216789120  

   Winchell, Kristin M.; Campbell-Staton, Shane C.; Losos, Jonathan B.; Revell, Liam J.; Verrelli, Brian C.; Geneva, Anthony J. (January 2023, Proceedings of the National Academy of Sciences)

   Urbanization drastically transforms landscapes, resulting in fragmentation, degradation, and the loss of local biodiversity. Yet, urban environments also offer opportunities to observe rapid evolutionary change in wild populations that survive and even thrive in these novel habitats. In many ways, cities represent replicated “natural experiments” in which geographically separated populations adaptively respond to similar selection pressures over rapid evolutionary timescales. Little is known, however, about the genetic basis of adaptive phenotypic differentiation in urban populations nor the extent to which phenotypic parallelism is reflected at the genomic level with signatures of parallel selection. Here, we analyzed the genomic underpinnings of parallel urban-associated phenotypic change in Anolis cristatellus , a small-bodied neotropical lizard found abundantly in both urbanized and forested environments. We show that phenotypic parallelism in response to parallel urban environmental change is underlain by genomic parallelism and identify candidate loci across the Anolis genome associated with this adaptive morphological divergence. Our findings point to polygenic selection on standing genetic variation as a key process to effectuate rapid morphological adaptation. Identified candidate loci represent several functions associated with skeletomuscular development, morphology, and human disease. Taken together, these results shed light on the genomic basis of complex morphological adaptations, provide insight into the role of contingency and determinism in adaptation to novel environments, and underscore the value of urban environments to address fundamental evolutionary questions. 

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5. Does urbanisation lead to parallel demographic shifts across the world in a cosmopolitan plant?

   https://doi.org/10.1111/mec.17311  

   Caizergues, Aude E; Santangelo, James S; Ness, Rob W; Angeoletto, Fabio; Anstett, Daniel N; Anstett, Julia; Baena‐Diaz, Fernanda; Carlen, Elizabeth J; Chaves, Jaime A; Comerford, Mattheau S; et al (April 2024, Molecular Ecology)

   Abstract Urbanisation is occurring globally, leading to dramatic environmental changes that are altering the ecology and evolution of species. In particular, the expansion of human infrastructure and the loss and fragmentation of natural habitats in cities is predicted to increase genetic drift and reduce gene flow by reducing the size and connectivity of populations. Alternatively, the ‘urban facilitation model’ suggests that some species will have greater gene flow into and within cities leading to higher diversity and lower differentiation in urban populations. These alternative hypotheses have not been contrasted across multiple cities. Here, we used the genomic data from the GLobal Urban Evolution project (GLUE), to study the effects of urbanisation on non‐adaptive evolutionary processes of white clover (Trifolium repens) at a global scale. We found that white clover populations presented high genetic diversity and no evidence of reducedN_elinked to urbanisation. On the contrary, we found that urban populations were less likely to experience a recent decrease in effective population size than rural ones. In addition, we found little genetic structure among populations both globally and between urban and rural populations, which showed extensive gene flow between habitats. Interestingly, white clover displayed overall higher gene flow within urban areas than within rural habitats. Our study provides the largest comprehensive test of the demographic effects of urbanisation. Our results contrast with the common perception that heavily altered and fragmented urban environments will reduce the effective population size and genetic diversity of populations and contribute to their isolation. 

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