Habitat Complexity Facilitates Coexistence in a Tropical Ant Community

• Published in: Oecologia Vol. 149; no. 3; pp. 465 - 473
• Main Authors: Sarty, M., Abbott, K. L., Lester, P. J.
• Format: Journal Article
• Language: English
• Published: Berlin Springer 01.09.2006; Springer Nature B.V
• Subjects: Animal and plant ecology; Animal behavior; Animal, plant and microbial ecology; Animals; Anoplolepis; Ants; Ants - anatomy & histology; Ants - growth & development; Ants - physiology; Atolls; Average linear density; Baits; Biological and medical sciences; Body Size; Coexistence; Community Ecology; Competitive Behavior; Ecosystem; Extremities - anatomy & histology; Feeding Behavior; Food resources; Food security; Forest insects; Formicidae; Fundamental and applied biological sciences. Psychology; General aspects; Geography; Habitat utilization; Habitats; Insect communities; Insect morphology; Insect pests; Insects; Legs; Population Density; Rubble; Grain size; Formicidae; Size-grain hypothesis; Invasive ants; Insecta; Coexistence; Social insect; Formicoidea; Discovery-dominance trade-off; Arthropoda; Morphology; Anoplolepis gracilipes; Habitat; Hymenoptera; Invertebrata; Community; Aculeata
• ISSN: 0029-8549; 1432-1939
• DOI: 10.1007/s00442-006-0453-9

The role of habitat complexity in the coexistence of ant species is poorly understood. Here, we examine the influence of habitat complexity on coexistence patterns in ant communities of the remote Pacific atoll of Tokelau. The invasive yellow crazy ant, Anoplolepis gracilipes (Smith), exists in high densities on Tokelau, but still coexists with up to seven other epigeic ant species. The size-grain hypothesis (SGH) proposes that as the size of terrestrial walking organisms decreases, the perceived complexity of the environment increases and predicts that: (1) leg length increases allometrically with body size in ants, and (2) coexistence between ant species is facilitated by differential habitat use according to body size. Analysis of morphological variables revealed variation inconsistent with the morphological prediction of the SGH, as leg length increased allometrically with head length only. We also experimentally tested the ability of epigeic ants in the field to discover and dominate food resources in treatments of differing rugosity. A. gracilipes was consistently the first to discover food baits in low rugosity treatments, while smaller ant species were consistently the first to discover food baits in high rugosity treatments. In addition, A. gracilipes dominated food baits in planar treatments, while smaller ant species dominated baits in rugose treatments. We found that the normally predictable outcomes of exploitative competition between A. gracilipes and other ant species were reversed in the high rugosity treatments. Our results support the hypothesis that differential habitat use according to body size provides a mechanism for coexistence with the yellow crazy ant in Tokelau. The SGH may provide a mechanism for coexistence in other ant communities but also in communities of other terrestrial, walking insects that inhabit a complex landscape.