Functional traits explain non-native plant species richness and occupancy on northern New Zealand islands


Journal article


F. Mologni, P. Bellingham, E. K. Cameron, K. Dinh, A. Wright, K. Burns
Biological Invasions, 2022

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APA   Click to copy
Mologni, F., Bellingham, P., Cameron, E. K., Dinh, K., Wright, A., & Burns, K. (2022). Functional traits explain non-native plant species richness and occupancy on northern New Zealand islands. Biological Invasions.


Chicago/Turabian   Click to copy
Mologni, F., P. Bellingham, E. K. Cameron, K. Dinh, A. Wright, and K. Burns. “Functional Traits Explain Non-Native Plant Species Richness and Occupancy on Northern New Zealand Islands.” Biological Invasions (2022).


MLA   Click to copy
Mologni, F., et al. “Functional Traits Explain Non-Native Plant Species Richness and Occupancy on Northern New Zealand Islands.” Biological Invasions, 2022.


BibTeX   Click to copy

@article{f2022a,
  title = {Functional traits explain non-native plant species richness and occupancy on northern New Zealand islands},
  year = {2022},
  journal = {Biological Invasions},
  author = {Mologni, F. and Bellingham, P. and Cameron, E. K. and Dinh, K. and Wright, A. and Burns, K.}
}

Abstract

Plant functional traits can greatly influence invasion success on islands. However, interrelationships between traits and invasion success are rarely integrated with the island biogeography theory. Here, we explored relations between functional traits and plant distributions to assess which traits are associated with invasion success (i.e. high island occupancy), test whether non-native richness and seed mass of species with distinct growth forms and dispersal modes vary differently with island characteristics (e.g. area, isolation, exposure to ocean-borne disturbances, distance from the nearest urban area, and whether islands were managed for conservation), and whether results differ from native species. We assembled a database of 264 northern New Zealand offshore islands, amalgamating species lists from field surveys and previously published data, and comprising 822 native and 855 non-native species. Non-native graminoids occurred on islands more frequently than forbs and woody species, and long-distance dispersal modes (wind, animal, unspecialized) more than species with short-distance dispersal modes. Most differences among trait categories of non-native species were associated with human-related variables (i.e. distance from the nearest urban area, and whether islands were conservation areas). Non-native plant species with high island occupancy were less commonly associated with human-related variables than non-native species with low island occupancy. Instead, they were more similar in their distributional patterns to native species within the same trait category, suggesting comparable processes regulate both sets of species. Our results illustrate that integrating trait-based approaches in the island biogeography framework can be a useful tool in understanding and predicting plant invasions.