Abstract
Biological invasions can have various impacts on the diversity of important microbial mutualists such as mycorrhizal fungi, but few studies have tested whether the effects of invasions on mycorrhizal diversity are consistent across spatial gradients. Furthermore, few of these studies have taken place in tropical ecosystems that experience an inordinate rate of invasions into native habitats. Here, we examined the effects of plant invasions dominated by non-native tree species on the diversity of arbuscular mycorrhizal (AM) fungi in Hawaii. To test the hypothesis that invasions result in consistent changes in AM fungal diversity across spatial gradients relative to native forest habitats, we sampled soil in paired native and invaded sites from three watersheds and used amplicon sequencing to characterize AM fungal communities. Whether our analyses considered phylogenetic relatedness or not, we found that invasions consistently increased the richness of AM fungi. However, AM fungal species composition was not related to invasion status of the vegetation nor local environment, but stratified by watershed. Our results suggest that while invasions can lead to an overall increase in the diversity of microbial mutualists, the effects of plant host identity or geographic structuring potentially outweigh those of invasive species in determining the community membership of AM fungi. Thus, host specificity and spatial factors such as dispersal need to be taken into consideration when examining the effects of biological invasions on symbiotic microbes.
Highlights
A large number of studies have examined the direct effects of biological invasions on the diversity of invaded communities (Vitousek et al 1996; Sax and Gaines 2008; Vilaet al. 2011)
Our results suggest that while invasions can lead to an overall increase in the diversity of microbial mutualists, the effects of plant host identity or geographic structuring potentially outweigh those of invasive species in determining the community membership of arbuscular mycorrhizal (AM) fungi
We explore the effects of tree-dominated invasions on AM fungal diversity on the island of Oahu in the Hawaiian archipelago, which is one of the invasion capitals of the world (Vitousek et al 1996)
Summary
A large number of studies have examined the direct effects of biological invasions on the diversity of invaded communities (Vitousek et al 1996; Sax and Gaines 2008; Vilaet al. 2011). A large number of studies have examined the direct effects of biological invasions on the diversity of invaded communities Because mutualisms underlie ecosystem functioning, productivity and stability (Klironomos et al 2000; Renker et al 2004; van der Putten et al 2009; Wagg et al 2011) and can strongly influence plant invasions (Simberloff and Von Holle 1999; Richardson et al 2000; Lekberg et al 2013), the impact of biological invasions on mutualist communities is of both theoretical and practical importance. Conceptual frameworks for invasion processes and outcomes based on the direct interactions of invasive species with their native counterparts cannot necessarily be assumed to apply to mutualistic organisms (Richardson et al 2000; Callaway et al 2004)
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