Competition can lead to unexpected patterns in tropical ant communities

Ecological communities are structured by competitive, predatory, mutualistic and parasitic interactions combined with chance events. Separating deterministic from stochastic processes is possible, but finding statistical evidence for specific biological interactions is challenging. We attempt to sol...

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Bibliographic Details
Published in:Acta oecologica (Montrouge) 2016-08, Vol.75, p.24-34
Main Authors: Ellwood, M.D. Farnon, Blüthgen, Nico, Fayle, Tom M., Foster, William A., Menzel, Florian
Format: Article
Language:English
Subjects:
Ant mosaics
Asplenium nidus
Assembly rules
birds
Co-occurrence patterns
Community assembly
Competitive exclusion
epiphytes
ferns and fern allies
Formicidae
Limiting similarity
nesting
nests
rain forests
stochastic processes
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Summary:Ecological communities are structured by competitive, predatory, mutualistic and parasitic interactions combined with chance events. Separating deterministic from stochastic processes is possible, but finding statistical evidence for specific biological interactions is challenging. We attempt to solve this problem for ant communities nesting in epiphytic bird’s nest ferns (Asplenium nidus) in Borneo’s lowland rainforest. By recording the frequencies with which each and every single ant species occurred together, we were able to test statistically for patterns associated with interspecific competition. We found evidence for competition, but the resulting co-occurrence pattern was the opposite of what we expected. Rather than detecting species segregation—the classical hallmark of competition—we found species aggregation. Moreover, our approach of testing individual pairwise interactions mostly revealed spatially positive rather than negative associations. Significant negative interactions were only detected among large ants, and among species of the subfamily Ponerinae. Remarkably, the results from this study, and from a corroborating analysis of ant communities known to be structured by competition, suggest that competition within the ants leads to species aggregation rather than segregation. We believe this unexpected result is linked with the displacement of species following asymmetric competition. We conclude that analysing co-occurrence frequencies across complete species assemblages, separately for each species, and for each unique pairwise combination of species, represents a subtle yet powerful way of detecting structure and compartmentalisation in ecological communities. •Competition and stochastic processes jointly structure ecological communities.•A new statistical method allows to disentangle these and other processes.•In tropical ants, competition led to species aggregation rather than segregation.•This is due to asymmetric competition between species.•Competitive exclusion among species was restricted to specific ant guilds.
ISSN:1146-609X
1873-6238
DOI:10.1016/j.actao.2016.06.001