Most New World army ants belong to the subfamily Ecitoninae.

This subfamily is further broken into two groups in the New World, the tribes Cheliomyrmecini and Ecitonini. The former contains only the genus Cheliomyrmex, and the tribe Ecitonini contains four genera: Neivamyrmex, Nomamyrmex, Labidus, and Eciton, the genus after which the group is named (Brady 2003). The genus Neivamyrmex is the largest of all army ant genera, containing some 120 species, all in the United States. The predominant species of Eciton is Eciton burchellii, whose common name is "army ant" and which is considered to be the archetypal species.

The Old World army ants within Ecitoniane are divided between the two tribes Aenictini and Dorylini, each of which is made up of a single genus. In the former case, it is Aenictus, which contains over 100 species of army ant, while the Dorylini contains the aggressive "driver ants" in the genus Dorylus, of which there are some 70 species known. Often, taxonomic schemes include Aenictini within Dorylini, giving just one Old World tribe.

New World army ants

There are about 150 species of army ants in the New World (that is, North, South, and Central America). Although these army ant species are found from Kansas to Argentina, few people in North America realize that there are plenty of army ants living in the United States, in part because the colonies are rarely abundant, and because the United States species (mostly genus Neivamyrmex) are quite small (~5 mm), with small and generally unobtrusive raiding columns, most often active at night, and easily overlooked.

Eciton burchellii and Eciton hamatum are the most visible and best studied of the New World army ants because they forage above ground and during the day, in enormous raiding swarms. Their range stretches from southern Mexico to the northern part of South America.

Old World army ants

There are over 100 species of army ants in the Old World, with approximately equal numbers in the genera Aenictus and Dorylus. The latter group is by far the better-known.

Known as "driver ants" or "safari ants," members of the genus Dorylus are found primarily in central and east Africa, though the range extends to tropical Asia. There are some 70 species presently recognized, though another 60 names are applied at the rank of subspecies. Unlike the New World members of the Ecitoninae, they do form anthills, although these are temporary (lasting anywhere from few days up to three months). Each colony can contain over 20 million individuals. As in their New World counterparts, there is a soldier class among the workers, which is larger, with a very large head and pincer-like mandibles. They are capable of stinging, but very rarely do so, relying instead on their powerful shearing jaws. All Dorylus species are blind, though they, like most varieties of ants, communicate primarily through pheromones.

Seasonally, when food supplies become short, they leave the hill and form marching columns of 20 million ants. They can be considered a menace to people, though they can be easily avoided; a column can only travel about 20 meters in an hour (Youth 2007). It is for those unable to move, or when the columns pass through homes, that there is some risk of injury or asphyxiation, although generally only to the young, infirm, or otherwise debilitated. Their presence is, conversely, beneficial to certain human communities, such as the Maasai, as they perform a pest prevention service in farming communities, consuming the majority of other crop-pests, from insects to large rats. Their main diet consists of invertebrates, such as tarantulas, scorpions, other ants, roaches, beetles, and grasshoppers, as well as small reptiles and amphibians (Youth 2007). They pose little threat to most mammals and birds, which in turn consume the ants, with some bird species apparently dependent on the swarms (Youth 2007). Up to fifty bird species have been found to follow army ant swarms in the Amazon basin (Youth 2007).

The bite of the large soldier ants is severely painful, each soldier leaving two puncture wounds when removed. Removal is difficult, however, as their jaws are extremely strong, and one can pull a soldier ant in two without the ant releasing its hold. Such is the strength of the ant's jaws, in East Africa they are used as natural, emergency sutures. Maasai moroni, when they suffer a gash in the bush, will use the soldiers to stitch the wound, by getting the ants to bite on both sides of the gash, then breaking off the body. This seal can hold for days at a time.


  • Brady, S. 2003. Evolution of the army ant syndrome: The origin and long-term evolutionary stasis of a complex of behavioral and reproductive adaptations. PNAS 100(11): 6575-6579.
  • Engel, M. S., and D. A. Grimaldi. 2005. Primitive new ants in Cretaceous amber from Myanmar, New Jersey, and Canada (Hymenoptera: Formicidae). American Museum Novitates 3485: 1-24.
  • Gotwald, W. H. 1995. Army Ants: The Biology of Social Predation. Ithaca, New York: Cornell University Press. ISBN 0801499321
  • Hölldobler, B., and E. O. Wilson. 1990. The Ants. Cambridge: Belknap Press of Harvard University Press. ISBN 0674040759
  • O'Donnell, S., M. Kasparim, and J. Lattke. 2005. Extraordinary predation by the neotropical army ant Cheliomyrmex andicola: Implications for the evolution of the army ant syndrome. Biotropica 37: 706-709.
  • Rice, N. H., and A. M. Hutson. 2003. Antbirds and army-ant swarms. In C. Perrins, ed., Firefly Encyclopedia of Birds, Firefly Books. ISBN 1552977773
  • Whitehouse, D. 2003. Ant history revealed. BBC News May 10, 2003. Retrieved September 8, 2007.
  • Youth, H. 2007. Birds in swarm's way. Zoogoer July/August 2007. Smithsonian National Zoological Park. Retrieved September 8, 2007.