Abstract
Community saturation can help to explain why biological invasions fail. However, previous research has documented inconsistent relationships between failed invasions (i.e., an invasive species colonizes but goes extinct) and the number of species present in the invaded community. We use data from bird communities of the Hawaiian island of Oahu, which supports a community of 38 successfully established introduced birds and where 37 species were introduced but went extinct (failed invasions). We develop a modified approach to evaluate the effects of community saturation on invasion failure. Our method accounts (1) for the number of species present (NSP) when the species goes extinct rather than during its introduction; and (2) scaling patterns in bird body mass distributions that accounts for the hierarchical organization of ecosystems and the fact that interaction strength amongst species varies with scale. We found that when using NSP at the time of extinction, NSP was higher for failed introductions as compared to successful introductions, supporting the idea that increasing species richness and putative community saturation mediate invasion resistance. Accounting for scale-specific patterns in body size distributions further improved the relationship between NSP and introduction failure. Results show that a better understanding of invasion outcomes can be obtained when scale-specific community structure is accounted for in the analysis.
Highlights
Biological invasions provide an opportunity for testing ecological theory, including assessments of the role of competition in community assembly and structure
Previous analysis used the numbers of invasive species present (NSP) as a surrogate of potential community saturation and compared NSP for failed versus successful introductions [4,5]
Supporting the idea that the structure of the existing community influences the relative success of invasions, Moulton [4] found higher NSP values for failed introductions in the lowland avifauna of the Hawaiian island of Oahu
Summary
Biological invasions provide an opportunity for testing ecological theory, including assessments of the role of competition in community assembly and structure. Previous analysis used the numbers of invasive species present (NSP) as a surrogate of potential community saturation and compared NSP for failed versus successful introductions [4,5]. A higher failure rate for introductions when more introduced species were present suggested that the bird community was approaching saturation. NSP values were significantly higher for failed introductions on Oahu only for introductions up to the year 1960, but when the species list was updated through 1981 [4], NSP values were not-significantly (p < 0.235) higher for failed introductions, despite the number of invasive species having increased This finding is counterintuitive because if competition and invasion resistance increase as communities become saturated, differences in NSP between failed and successful introductions should be even more pronounced following additional introductions. We test the hypothesis that relationships between introduction success and failures as a function of NSP become better discernable in analyses that account for scale versus approaches that do not
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