Abstract
The impacts invasive species have on biodiversity and ecosystem function globally have been linked to the higher abundances they often obtain in their introduced compared to native ranges. Higher abundances of invaders in the introduced range are often explained by a reduction in negative species interactions in that range, although results are equivocal. The role of positive interactions in explaining differences in the abundance of invaders between native and invasive ranges has not been tested. Using biogeographic surveys, we showed that the rocky shore porcelain crab, Petrolisthes elongatus, was ~4 times more abundant in its introduced (Tasmania, Australia) compared to its native (New Zealand) range. The habitat of these crabs in the invaded range (underside of intertidal boulders) was extensively covered with the habitat-forming tubeworm Galeolaria caespitosa. We tested whether the habitat provided by the tubeworm facilitates a higher abundance of the invasive crab by creating mimics of boulders with and without the tubeworm physical structure and measured crab colonisation into these habitats at three sites in both Tasmania and New Zealand. Adding the tubeworm structure increased crab abundance by an average of 85% across all sites in both ranges. Our intercontinental biogeographic survey and experiment demonstrate that native species can facilitate invader abundance and that positive interactions can be important drivers of invasion success.
Highlights
The impacts invasive species have on biodiversity and ecosystem function globally have been linked to the higher abundances they often obtain in their introduced compared to native ranges
Native terrestrial plants can facilitate invasive plants[25] while native marine mussels, seaweed and saltmarsh facilitate invasive seaweeds and mobile invertebrates[26,27,28,29]. These studies have focussed on positive interactions in the new range only, and whether changes in positive interactions – either in their frequency or intensity – between native and introduced ranges explains higher abundances of invaders in their introduced range remains unexplored. To address this knowledge gap, we conducted biogeographic-scale surveys and an experiment to determine the mechanisms underpinning the abundance of the invasive porcelain crab Petrolisthes elongatus in both its native (New Zealand) and introduced (Tasmania, Australia) ranges
Biogeographic surveys show that P. elongatus is more abundant in its invaded compared to native range[34]
Summary
Survey of crab abundances and habitat-characteristics in Tasmania and New Zealand. The abundance of P. elongatus and habitat-characteristics were determined at six sites in both New Zealand and Tasmania (Fig. 1). Total underside boulder surface area per quadrat and maximum boulder size were contrasted between the native and introduced range with linear mixed models with origin as a fixed factor and site as a random factor. Mean underside boulder size and total underside tubeworm cover per quadrat were contrasted between the native and introduced range with generalised linear mixed models with origin as a fixed factor, site as a random factor and a negative binomial error distribution. The number of crabs per boulder was contrasted among treatments with a generalised linear mixed model with origin and boulder treatment (with and without the tubeworm matrix) as fixed factors, site as a random factor and a Poisson error distribution. We found a significant site x boulder treatment interaction (P < 0.001; Table 2) and used generalised linear models to contrast treatments separately within each site, using a Bonferroni correction for multiple comparisons
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