Urbanization Factors Shaping Spatial Distribution of Native and Invasive Ants Are Species-Specific

Urbanization Factors Shaping Spatial Distribution of Native and Invasive Ants Are Species-Specific

Urban Ecosyst DOI 10.1007/s11252-016-0576-7 I’m not like everybody else: urbanization factors shaping spatial distribution of native and invasive ants are species-specific Jérôme M. W. Gippet1 & Nathalie Mondy1 & Julita Diallo-Dudek2 & Arnaud Bellec1,2 & Adeline Dumet1 & Lubiana Mistler1 & Bernard Kaufmann 1 # Springer Science+Business Media New York 2016 Abstract Urbanization is a major global change inducing embankments along roads. We found that, even at this reduced complex and multiple modifications of landscapes and eco- spatial scale, climatic effects influenced most species and systems. The spatial distributions of organisms experiencing interacted with urbanization factors. these modifications will likely shift specifically, depending on each species’ response to each environmental modification Keywords Urbanization . Global change . Species induced by urbanization. We sampled two ant genera distribution . Biological invasions . Formicidae . Lasius (Lasius and Tetramorium) at 1248 locations along an urbani- neglectus zation gradient in Lyon, France and used high resolution spa- tial layers for 18 spatial (e.g., open habitat fragmentation, bio- climatic data and surface temperatures) and temporal (e.g., Introduction comparison of Normalized Difference Vegetation Index be- tween 1986 and 2015) environmental variables associated The pace of urbanization has dramatically accelerated over the with urbanization. Coupling two different analytical methods past decades to become a major concern, severely impacting (Outlying Mean Index and Boosted Regression Trees), we biodiversity dynamics, ecosystems functioning, as well as hu- showed that each species’ distribution was influenced by its man well-being (Grimm et al. 2008a). Urbanization can be own combination of environmental factors. Two morpholog- defined as the modification of an ecosystem to support dense ically cryptic Tetramorium species (T.sp.EandT.sp.U2)were human populations and their activities (Gaston 2010). In ur- both highly abundant but with opposite responses to urbani- ban areas, original plant communities are partially or totally zation: while T. sp.E was favored by urbanized habitat, replaced by impervious surfaces (e.g., roads, concrete and T. sp.U2 avoided urbanized areas. Among Lasius species, building), exotic plant species and bare ground (Heterick we detected 63 occurrences of the invasive ant Lasius et al. 2013). Outside of cities, the agricultural area necessary neglectus, the distribution of which was favored only by to feed urban populations is growing with the pace of urban- ization, replacing diverse native plant communities by culti- vated monospecific patches (Flinn and Vellend 2005). These Electronic supplementary material The online version of this article (doi:10.1007/s11252-016-0576-7) contains supplementary material, land cover changes are responsible for habitat fragmentation which is available to authorized users. (Jenerette and Potere 2010) and for an increase in open- vegetation patches (typically lawns) to the detriment of forests * Jérôme M. W. Gippet (James and Bound 2009,Smithetal.2015). Land cover [email protected] changes are also characterized by spatial and temporal dynam- ics as they follow the development of cities. Among the direct 1 Université de Lyon, UMR5023 Ecologie des Hydrosystèmes consequences of land use changes are the alteration of physi- Naturels et Anthropisés, ENTPE, CNRS, Université Lyon 1, cal characteristics of surfaces, i.e. emissivity, albedo, and ther- Villeurbanne, F-69622 Lyon, France mal conductivity. Furthermore, removing plant cover reduces 2 UMR5600 Environnement Ville Société, Université Lyon 3, CNRS, evaporative cooling and modifies radiative fluxes in urban Université de Lyon, 86 rue Pasteur, 69365, Cedex 07 Lyon, France areas. These changes induce warmer surface and air Urban Ecosyst temperature in urban areas, particularly at night-time, a phe- consequences of urbanization on biodiversity. To this end, nomenon termed Urban Heat Island (UHI) effect (Dousset Arthropods have recently been pointed out as highly relevant et al. 2011). Urban areas are also subjected to heavier organisms, and among them, ants (Stringer et al. 2009;Menke air, soil and water pollution than surrounding rural areas et al. 2011;BangandFaeth2011, Ślipińskietal.2012; (Grimm et al. 2008a). Heterick et al. 2013), because they are among the few taxa In addition, urban areas are exposed to frequent introduc- able to establish stable populations in densely urbanized hab- tions of exotic species through national and international com- itat such as big city cores (Pećarević et al. 2010; Guénard et al. mercial exchanges, as well as to the secondary spread of in- 2015;Savageetal.2015). Ants have also been identified as vasive species. Secondary spread is exacerbated by recurrent effective city scavengers (Youngsteadt et al. 2014) and several human-mediated transport facilitating dispersal (Hodkinson invasive ant species are known to be dominant in urban hab- and Thompson 1997,Kingetal.2009) and by increased hab- itats (Ward 1987;Suarezetal.1998; Buczkowski and Bennett itat invasibility associated with disturbed landscapes, which 2008). Community ecology studies have shown that ant spe- facilitate establishment (Alpert et al. 2000;With2002; cies richness and community composition differ along urban Vonshak and Gordon 2015). to rural gradients (Ślipiński et al. 2012;Hetericketal.2013) Changes associated with urbanization therefore constitute but most of them focused on forested habitat and urban parks new environmental filters for biodiversity, modifying species’ (e.g., Yamaguchi 2005; Clarke et al. 2008; Carpintero and distribution patterns and affecting community composition Reyes-López 2014) while lawns and open-vegetation green along the urbanization gradient (Van Nuland and Whitlow spaces, the most common habitat type in urbanized land- 2014). Several studies have already shown that assemblage scapes, have been neglected (but see Uno et al. 2010). These parameters such as native and invasive species richness and habitats are, however, likely to host rich ant communities as abundance are affected by urbanization for a wide range of many ant species are open and edge habitat specialists. taxa (Hansen et al. 2005). While urban environments are often Among these, the genera Lasius and Tetramorium are partic- described as species-poor ecosystems (Niemelä and Kotze ularly well represented: they are known to be both highly 2009, but see Pećarević et al. 2010), several studies have species diverse and exhibit broad spatial distributions ranging shown that suburban areas can display high species richness over most of continental Europe. Both contain species that and diversity because of greater habitat heterogeneity, inter- invasive in Europe, such as Lasius neglectus (Ugelvig et al. mediate disturbance regime and invasive species enrichment 2008), or in North America, such as Lasius alienus, (Angold et al. 2006; Vonshak and Gordon 2015, Menke et al. Tetramorium sp.E and Tetramorium tsushimae (Steiner et al. 2011). Further studies have shown that community responses 2008), as well as species highly tolerant to urban conditions vary depending on the taxonomic group considered (Croci such as Lasius niger (Vepsäläinen et al. 2008). et al. 2008; McKinney 2008; Vergnes et al. 2012). Since We conducted surveys of Lasius and Tetramorium ants in Blair’s classification of species responses to urbanization the landscape of the urban area of Lyon, which is the second (Blair 1996), several authors categorized species into urban largest in France. The aims of our study were (i) to describe exploiters, urban tolerant and urban avoiders (McIntyre Lasius and Tetramorium responses to environmental changes 2000;Karketal.2007). However, this characterization has associated with urbanization and (ii) to identify landscape- been criticized as over-simplistic and prone to masking nu- scale factors shaping the spatial distributions of species. Our anced or complex species responses to urbanized landscapes main hypothesis was to find species-specific response patterns (Conole 2014). While urban-rural gradient approaches have to urbanization: as species’ ecological niches are characterized been widely used to describe species and community re- by unique combinations of environmental optima, therefore sponses to urbanization (McDonnell and Hahs 2008), precise- each species should be affected by a particular set of environ- ly identifying which environmental factors are implicated has mental features and have its own response pattern along the become a major issue of urban biodiversity studies (Philpott urbanization gradient. Additionally, we predicted that the oc- et al. 2014, Turrini and Knop 2015). As the environmental currence of invasive species should be associated with factors changes induced by urbanization depend on the interactions related to the intensity of human activities. between multiple environmental factors and species biological traits (Poff 1997; Brown et al. 2009; Verberk et al. 2013), species responses to urbanization are likely to be specific Methods and to depend on the local environmental background, which includes climate or social and economic activities (Grimm Study area and sampling et al. 2008b;Olesonetal.2015). Consequently, clearly iden- tifying environmental factors associated with urbanization and The study was conducted in the urban area of Lyon, France understanding their impacts on ecological dynamics should (Fig. 1), and

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