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Morphological patterns and community organization in leaf‐litter ant assemblages
Author(s) -
Silva Rogério R.,
Brandão Carlos Roberto F.
Publication year - 2010
Publication title -
ecological monographs
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 4.254
H-Index - 156
eISSN - 1557-7015
pISSN - 0012-9615
DOI - 10.1890/08-1298.1
Subject(s) - guild , biology , ecology , plant litter , foraging , fauna , null model , ant , litter , community structure , ecosystem , habitat
We present a new approach to determine the number and composition of guilds, using the hyperdiverse leaf‐litter ant fauna as a model, based on appropriate morphological variables and species co‐occurrence null models to describe the complex assemblages of interacting species community structure at the 1‐m 2 scale. We obtained 18 linear morphometric measures from 949 workers of 171 leaf‐litter ant species (18 762 measurements) surveyed in four Atlantic Forest localities to test whether the assemblages are morphologically structured; the morphological characters were selected to indicate diet and foraging habits. Principal components analysis was used to characterize the morphospace and to describe the guild structure (number of species and composition). The guild proportionality assembly rule (significant tendency toward constant proportion of species in guilds) was assessed at the 1‐m 2 scale. Our analysis indicates that the division of leaf‐litter ants into guilds is based mainly on microhabitat distribution in the leaf‐litter, body size and shape, eye size, and phylogeny. The same guild scheme applied to four more sites shows that different Atlantic Forest areas have the same leaf‐litter ant guilds. The guild proportionality assembly rule was confirmed for most guilds, suggesting that there are guild‐specific limitations on species coexistence within assemblages; on the other hand, in a few cases the variance in guild proportion was greater than expected under the null assumptions. Other studies on ant functional group classification are partially supported by our quantitative morphological analysis. Our results, however, imply that there are more compartments than indicated in previous models, particularly among cryptic species (confined to soil and litter) and tropical climate specialists. We argue that a general null model for the analysis of species association based on morphology can reveal objectively defined groups and may thus contribute to a robust theory to explain community structure in general and have important consequences on studies of litter ant community ecology in particular.