The Distribution and Diversity of Insular Ants: Do Exotic Species Play By

The Distribution and Diversity of Insular Ants: Do Exotic Species Play By

Global Ecology and Biogeography, (Global Ecol. Biogeogr.) (2016) 25, 642–654 RESEARCH The distribution and diversity of insular PAPER ants: do exotic species play by different rules? Nuria Roura-Pascual1,2, Nathan J. Sanders3 and Cang Hui4,5 1Department de Cie`ncies Ambientals, ABSTRACT Facultat de Cie`ncies, Universitat de Girona, Aim To examine the relationship between island characteristics (area, distance Girona, Catalonia, Spain, 2Centre Tecnologic Forestal de Catalunya, Ctra. Sant Llorenc¸de to the nearest continent, climate and human population size) and ant species Morunys km 2, Solsona, Catalonia, Spain, richness, as well as the factors underlying global geographical clustering of 3Center for Macroecology, Evolution, and native and exotic ant composition on islands. Climate, University of Copenhagen, Location One hundred and two islands from 20 island groups around the Copenhagen, 2100, Denmark, 4Centre for world. Invasions Biology, Department of Mathematical Sciences, Stellenbosch Methods We used spatial linear models that consider the spatial structure of University, Matieland 7602, South Africa, islands to examine patterns of ant species richness. We also performed 5 Mathematical and Physical Biosciences, modularity analyses to identify clusters of islands hosting a similar suite of African Institute for Mathematical Sciences, species and constructed conditional inference trees to assess the characteristics Muizenberg, 7945, South Africa of islands that explain the formation of these island–ant groups. Results Island area was the best predictor of ant species richness. However, distance to the nearest continent was an important predictor of native ant species richness, as was human population size for exotic species richness. Native species appear slightly more modulated (i.e. well grouped in species assemblages that are present over a distinct cluster of islands) than are exotic species. Exotic species, while still exhibiting some modularity, tended to be widely distributed among island groups. Interestingly, ocean currents accounted for most of the variation in modularity and thus species composition for both native and exotic ant species. Main conclusions Contrary to previous work, both native and exotic species appeared to be confined to particular island regions, and patterns in the distribution of both native and exotic species were limited by a similar suite of factors. However, the distribution of exotic ant species appeared to be more influenced by human-related variables and less structured relative to those of native ant species, perhaps due to the long-term (and increasing) influence of human-mediated dispersal that favours exotic species. *Correspondence: Nuria Roura-Pascual, Departament de Cie`ncies Ambientals, Facultat Keywords de Cie`ncies, Universitat de Girona, Campus Montilivi, 17071 Girona, Catalonia, Spain. Biodiversity, biological invasions, Hymenoptera: Formicidae, insular bio- E-mail: [email protected] geography, invasiveness, nativeness, spatial distribution, species richness INTRODUCTION Simberloff & Wilson (1969) went on to test its fundamental tenets experimentally. Indeed, over the last several decades Oceanic islands have been test beds for biogeographical biogeographers have taken diverse approaches to understand theory, at least since MacArthur & Wilson (1963, 1967) first why some islands have more species than others. Concurrent elucidated the dynamic theory of island biogeography and with the increased understanding of insular biodiversity has DOI: 10.1111/geb.12442 642 VC 2016 John Wiley & Sons Ltd http://wileyonlinelibrary.com/journal/geb Native-exotic ant biogeography been the increasing spread of exotic species among island global patterns of species composition and the processes that systems, some of which may become dominant competitors shape them – some in line with traditional island biogeogra- (Borges et al., 2006; Blackburn et al., 2008; Traveset et al., phy theory and others reflecting anthropogenic processes that 2014; Whittaker et al., 2014). These natural biogeographical potentially govern these clustered groups of native and exotic experiments have resulted in novel combinations of native ants world-wide. Exotic ants constitute a diverse group of and exotic species, sometimes increasing but at other times species that have become established across many islands decreasing local diversity; however, it is not yet clear what world-wide. They have overcome biogeographical barriers rules (or key processes) govern the structure and dynamics associated with human-mediated transport pathways, and of island assemblages (Whittaker et al., 2014). some species are responsible for causing a significant dis- The theory of island biogeography (MacArthur & Wilson, placement of native fauna and altering the functioning of 1967) posits that island size and isolation drive speciation, ecosystems (Rizali et al., 2010; Morrison, 2014). While colonization and extinction, which ultimately limit the num- numerous studies have examined ant diversity on islands and ber of indigenous species on oceanic islands. But do exotic archipelagos in many corners of the globe (see Appendix 1), species adhere to the principles of island biogeography none have elucidated the relationship between native and theory? Or do they simply increase diversity on islands or exotic ants globally, nor have they identified the potential decrease it when they are dominant competitors or preda- drivers of such relationships. Therefore, to the best of our tors? The size of islands and their geographical complexity knowledge, ours is the first study to examine the biogeogra- influence habitat diversity, and therefore the number of spe- phy of exotic insular ants at a global scale. cies that can persist on an island. Habitat diversity affects both exotic and native species, whether endemic or not, such METHODS that islands with a high habitat diversity are likely to sustain Data a rich biota of both native and exotic species (Levine & D’Antonio, 1999; Stohlgren et al., 2003). The occurrences of native and exotic ants on islands were Isolated islands can often have a unique native biota rela- extracted from existing literature. We limited the search to tive to the biota of the nearest mainland (Sadler, 1999). species checklists on small islands (area < 1000 km2) and However, island isolation is more likely to influence collec- extended this by combining literature reviews with field work tions of native species rather than exotic species, in part conducted after 1995 to increase the probability of complete because the distribution and dispersal of exotic species is so sampling of all island habitats (Appendix 1). By doing so, we closely tied to humans (Bartomeus et al., 2012). Humans limited the analyses to studies where information on species facilitate both the introduction (by removing the barriers presence was not only obtained from a compilation of pub- that confine species to certain areas) and the establishment lished records but also from a recent field survey where both (by increasing propagule pressure) of exotic species (William- native and exotic species were identified. Many of the studies son, 1996). Assemblages on islands shaped by anthropogenic conducted prior to 1995 did not include field surveys and/or forces seem to be randomly structured but biased by histori- excluded exotic species from their lists (Morrison, 2014). cal trading and human settlement (Helmus et al., 2014). Prior to our formal statistical analysis, we explored the com- Therefore, if the diversity of native species on islands is pleteness of the dataset by constructing species accumulation driven solely by the fundamental processes that lie at the curves and the zeta-diversity index. Zeta diversity depicts the heart of the theory of island biogeography, then the predic- number of species shared by multiple sites and either declines tion would be that native species, rather than exotic species, with the number of sites exponentially, indicating stochastic should show stronger signals of matching between their niche assembly processes, or follows a power law, suggesting habitat requirements and the characteristics of islands because they differentiation among species (Hui & McGeoch, 2014). have evolved in association with those islands. In addition to The independent variables considered were related to envi- traditional island biogeography analyses of species richness, ronmental heterogeneity and natural isolation, but also to one way to test this prediction would be to ask whether biotic diversity and human alteration (Appendix S1 in Sup- native species on islands belong to distinct functional clusters porting Information). Variables related to environmental het- (or modules), with species matching the habitat within a erogeneity were island area and climatic variables (mean geographically clustered group of islands. In contrast, exotic annual temperature and mean annual precipitation; Hijmans species should exhibit a weaker match because many exotic et al., 2005), while variables related to natural isolation were species are dispersed by humans, with no regard to whether represented by longitude and latitude, distance to the nearest the niche requirements of the species match the characteris- continent, distance to the nearest island, number of islands tics of the island (Hui et al., 2013). within a radius of 300 km and a series of biogeographical Here, we use data on the occurrences of ant species on elements [such as biogeographical

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