Models of Experimentally Derived Competitive Effects Predict Biogeographical Differences in the Abundance of Invasive and Native Plant Species
Authored by Ragan M Callaway, Sa Xiao, Guangyan Ni
Date Published: 2013
DOI: 10.1371/journal.pone.0078625
Sponsors:
Chinese National Natural Science Foundation
United States National Science Foundation (NSF)
Platforms:
NetLogo
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Mono-dominance by invasive species provides opportunities to explore
determinants of plant distributions and abundance; however, linking
mechanistic results from small scale experiments to patterns in nature
is difficult. We used experimentally derived competitive effects of an
invader in North America, Acroptilon repens, on species with which it
co-occurs in its native range of Uzbekistan and on species with which it
occurs in its non-native ranges in North America, in individual-based
models. We found that competitive effects yielded relative abundances of
Acroptilon and other species in models that were qualitatively similar
to those observed in the field in the two ranges. In its non-native
range, Acroptilon can occur in nearly pure monocultures at local scales, whereas such nearly pure stands of Acroptilon appear to be much less
common in its native range. Experimentally derived competitive effects
of Acroptilon on other species predicted Acroptilon to be 4-9 times more
proportionally abundant than natives in the North American models, but
proportionally equal to or less than the abundance of natives in the
Eurasian models. Our results suggest a novel way to integrate complex
combinations of interactions simultaneously, and that biogeographical
differences in the competitive effects of an invader correspond well
with biogeographical differences in abundance and impact.
Tags
Diversity
Facilitation
Community
Recruitment
Impact
Field
Acroptilon-repens l.
Salt-marsh
Relative importance
Interplay