Abstract
AbstractAimThis study aims to quantify the patterns in compositional turnover of native and exotic ants on small islands in two oceans, and to explore whether such patterns are driven by similar environmental, geographical and potentially biotic variables.LocationPacific and Atlantic islands.Time periodPresent.Major taxa studiedAnts.MethodsWe applied Multi‐Site Generalised Dissimilarity Modelling (MS‐GDM), which relates zeta diversity, the number of species shared by a given number of islands, to differences in environmental, geographical and biotic drivers. The use of zeta diversity enabled us to differentiate the contribution of rare species (shared by few islands) from those of widespread ones (shared by multiple islands) to compositional turnover. For completion, we also related species richness of insular ants per island with the same set of explanatory variables using Generalised Additive Models (GAM).ResultsPacific and Atlantic islands have similar patterns of ant species turnover and richness, albeit partly driven by different drivers. Native and exotic species turnover are mostly explained by the same set of variables in the Pacific (annual precipitation and distance to the nearest island), but not in the Atlantic (annual precipitation is a good predictor of native species turnover, but none of the variables considered in our study explained exotic species turnover). No signal of biotic interactions was detected at the insular community level.Main conclusionsSuccessful invasion strategies may depend on a combination of factors specific to the region in question. In the Pacific, milder environments and the absence of natives on certain islands enable exotic ants to select the same types of environment as native ants. In the harsher Atlantic Ocean, however, native ant species are likely to be well adapted to local environmental conditions, making it harder for exotics to become established. Exotic ant species, therefore, potentially rely on other attributes to establish, such as a combination of tolerance to a wide range of environmental conditions and human‐mediated colonization.
Highlights
For more than 50 years, islands have offered an invaluable context to study the organization of biodiversity
Given the acceleration in the human‐mediated introduction and spread of exotic species into novel environments (Hui & Richardson, 2017), many have looked upon island ecosystems for additional insights into invasion ecology (Moser et al, 2018; Santos, Field, & Ricklefs, 2016)
Stud‐ ies on insular biological invasions have mostly focused on under‐ standing the relationship between island characteristics and insular community structure, such as species richness (Blackburn, Delean, Pyšek, & Cassey, 2016; Kalmar & Currie, 2006; Moser et al, 2018), endemism (Rosindell & Phillimore, 2011) and species–area relation‐ ships (Matthews, Guilhaumon, Triantis, Borregaard, & Whittaker, 2016)
Summary
For more than 50 years, islands have offered an invaluable context to study the organization of biodiversity. Stud‐ ies on insular biological invasions have mostly focused on under‐ standing the relationship between island characteristics and insular community structure, such as species richness (Blackburn, Delean, Pyšek, & Cassey, 2016; Kalmar & Currie, 2006; Moser et al, 2018), endemism (Rosindell & Phillimore, 2011) and species–area relation‐ ships (Matthews, Guilhaumon, Triantis, Borregaard, & Whittaker, 2016). Such studies ignore the compositional variation in species assemblages across different islands. That is, knowing which species are present (species composition and turnover) is more informative than knowing how many species are present (species richness; Hillebrand et al, 2018)
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