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Diurnal foraging ant–tree co‐occurrence networks are similar between canopy and understorey in a Neotropical rain forest
Author(s) -
Antoniazzi Reuber,
GarcíaFranco Jose,
Janda Milan,
Leponce Maurice,
Dáttilo Wesley
Publication year - 2020
Publication title -
biotropica
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.813
H-Index - 96
eISSN - 1744-7429
pISSN - 0006-3606
DOI - 10.1111/btp.12773
Subject(s) - understory , nestedness , canopy , ecology , arboreal locomotion , rainforest , habitat , biology , tree canopy , forest floor , foraging , pheidole , ant , ecosystem
Abstract Discussion of the vertical stratification of organisms in tropical forests has traditionally focused on species distribution. Most studies have shown that, due to differences in abiotic conditions and resource distribution, species can be distributed along the vertical gradient according to their ecophysiological needs. However, the network structure between distinct vertical strata remains little‐explored. To fill this gap in knowledge, we used baits to sample ants in the canopy and understorey trees of a Mexican tropical rain forest to record the ant–tree co‐occurrences. We examined the ant–tree co‐occurrences in the canopy and understorey using complementary network metrics (i.e., specialization, interaction diversity, modularity, and nestedness). In addition, we evaluated co‐occurrence patterns between ant species on trees, using C‐score analysis. In general, we found no differences in the network structure, although the interaction diversity was greater in the understorey than in the canopy networks. We also observed that co‐occurrence networks of each vertical stratum featured four ant species in the central core of highly co‐occurring species, with three species unique to each stratum. Moreover, we found a similar trend toward ant species segregation in the both strata. These findings reveal a similar pattern of ant–ant co‐occurrences in both vertical strata, probably due to the presence of arboreal‐nesting ants in the understorey. Overall, we showed that despite the marked differences in species composition and environmental conditions between understorey and canopy strata, ant–tree co‐occurrences in these habitats could be governed by similar mechanisms, related to dominance and resource monopolization by ants. Abstract in Spanish is available with online material.

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