AI Article Synopsis
- Ants interact with other invertebrates, and epiphytic bromeliads may enhance ant populations in tree canopies.
- A study surveyed orange trees with and without bromeliads, revealing a correlation between bromeliad presence and increased ant diversity and numbers, particularly of Solenopsis ants.
- The removal of bromeliads did not significantly impact ant abundance or composition, indicating potential seasonal effects and highlighting the role of bromeliads in supporting ant populations, which could aid biological control in agriculture.
Article Abstract
Ants often interact with other invertebrates as predators or mutualists. Epiphytic bromeliads provide nesting sites for ants, and could increase ant abundances in the tree canopy. We surveyed ants in the foliage of orange trees that either hosted bromeliads or did not. To determine if observed associations between bromeliads and tree ants were causal, we removed bromeliads from half of the trees, and resurveyed ants six weeks later. Our results show that bromeliad presence is correlated with higher ant abundances and different species of ants on orange trees during the dry season. This increase in ant abundance was driven primarily by Solenopsis ants, which were both numerous and found to facultatively nest in bromeliads. Bromeliad removal did not affect either ant abundance or composition, potentially because this manipulation coincided with the transition from dry to wet season. Other ant species were never encountered nesting in bromeliads, and the abundances of such ants on tree leaves were unaffected by bromeliad presence or removal. Considering the importance of ants in herbivore regulation, our findings suggest that bromeliads-through their association with ants-could indirectly be associated with biological control in agricultural systems.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9258856 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0271040 | PLOS |
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