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(Redirected from Supercolonies) Underground lair where ants live, eat, and tend eggs "Anthill" redirects here. For the novel, see Anthill: A Novel.

Walter R. Tschinkel next to a plaster cast of a Pogonomyrmex badius nest
Ant hill and ant tracks, Oxley Wild Rivers National Park, New South Wales

An ant colony is a population of ants, typically from a single species, capable of maintaining their complete lifecycle. Ant colonies are eusocial, communal, and efficiently organized and are very much like those found in other social Hymenoptera, though the various groups of these developed sociality independently through convergent evolution. The typical colony consists of one or more egg-laying queens, numerous sterile females (workers, soldiers) and, seasonally, many winged sexual males and females. In order to establish new colonies, ants undertake flights that occur at species-characteristic times of the day. Swarms of the winged sexuals (known as alates) depart the nest in search of other nests. The males die shortly thereafter, along with most of the females. A small percentage of the females survive to initiate new nests.

Names

The term "ant colony" refers to a population of workers, reproductive individuals, and brood that live together, cooperate, and treat one another non-aggressively. Often this comprises the genetically related progeny from a single queen, although this is not universal across ants. The name "ant farm" is commonly given to ant nests that are kept in formicaria, isolated from their natural habitat. These formicaria are formed so scientists can study by rearing or temporarily maintaining them. Another name is "formicary", which derives from the Medieval Latin word formīcārium. The word also derives from formica. "Ant nests" are the physical spaces in which the ants live. These can be underground, in trees, under rocks, or even inside a single acorn. The name "anthill" (or "ant hill") applies to aboveground nests where the workers pile sand or soil outside the entrance, forming a large mound.

Colony size

Colony size (the number of individuals that make up the colony) is very important to ants: it can affect how they forage, how they defend their nests, how they mate, and even their physical appearances. Body size is often seen as the most important factor in shaping the natural history of non-colonial organisms; similarly, colony size is key in influencing how colonial organisms are collectively organized. Colonies have a significant range of sizes: some are just several ants living in a twig, while others are super-colonies with many millions of workers. Within a single ant colony, seasonal variation may be huge. For example, in the ant Dolichoderus mariae, one colony can shift from around 300 workers in the summer to over 2,000 workers per queen in the winter. Genetics and environmental factors can cause the variation among different colonies of a single species to be even bigger. Different ant species, even those in the same genus, may have enormous colony size disparities: Formica yessensis has colony sizes that are reported to be 306 million workers while Formica fusca colonies sometimes comprise only 500 workers.

Supercolonies

Main article: Ant supercolony

A supercolony occurs when many ant colonies over a large area unite. They still continue to recognize genetic differences in order to mate, but the different colonies within the super colony avoid aggression. Until 2000, the largest known ant supercolony was on the Ishikari coast of Hokkaidō, Japan. The colony was estimated to contain 306 million worker ants and one million queen ants living in 45,000 nests interconnected by underground passages over an area of 2.7 km (670 acres). In 2000, an enormous supercolony of Argentine ants was found in Southern Europe (report published in 2002). Of 33 ant populations tested along the 6,004-kilometre (3,731 mi) stretch along the Mediterranean and Atlantic coasts in Southern Europe, 30 belonged to one supercolony with estimated millions of nests and billions of workers, interspersed with three populations of another supercolony. The researchers claim that this case of unicoloniality cannot be explained by loss of their genetic diversity due to the genetic bottleneck of the imported ants. In 2009, it was demonstrated that the largest Japanese, Californian and European Argentine ant supercolonies were in fact part of a single global "megacolony". This intercontinental megacolony represents the most populous recorded animal society on earth, other than humans.

Another supercolony, measuring approximately 100 km (62 mi) wide, was found beneath Melbourne, Australia in 2004.

Organizational terminology

The following terminology is commonly used among myrmecologists to describe the behaviors demonstrated by ants when founding and organizing colonies:

Monogyny
Establishment of an ant colony under a single egg-laying queen.
Polygyny
Establishment of an ant colony under multiple egg-laying queens.
Oligogyny
Establishment of a polygynous colony where the multiple egg-laying queens remain far apart from one another in the nest.
Haplometrosis
Establishment of a colony by a single queen.
Pleometrosis
Establishment of a colony by multiple queens.
Monodomy
Establishment of a colony at a single nest site.
Polydomy
Establishment of a colony across multiple nest sites.

Colony structure

Ant colonies have a complex social structure. Ants’ jobs are determined and can be changed by age. As ants grow older their jobs move them farther from the queen, or center of the colony. Younger ants work within the nest protecting the queen and young. Sometimes, a queen is not present and is replaced by egg-laying workers. These worker ants can only lay haploid eggs producing sterile offspring. Despite the title of queen, she does not delegate the tasks to the worker ants; however, the ants choose their tasks based on individual preference. Ants as a colony also work as a collective "super mind". Ants can compare areas and solve complex problems by using information gained by each member of the colony to find the best nesting site or to find food. Some social-parasitic species of ants, known as the slave-making ant, raid and steal larvae from neighboring colonies.

Excavation

Ant hill art is a growing collecting hobby. It involves pouring molten metal (typically non-toxic zinc or aluminum), plaster or cement down an ant colony mound acting as a mold and upon hardening, one excavates the resulting structure. In some cases, this involves a great deal of digging. The casts are often used for research and education purposes but many are simply given or sold to natural history museums or sold as folk art or as souvenirs. Usually, the hills are chosen after the ants have abandoned so as to not kill any ants; however in the Southeast United States, pouring into an active colony of invasive fire ants is a novel way to eliminate them.

Ant-beds

See also: Termite mound
Nest construction of ants

An ant-bed, in its simplest form, is a pile of soil, sand, pine needles, manure, urine, or clay or a composite of these and other materials that build up at the entrances of the subterranean dwellings of ant colonies as they are excavated. A colony is built and maintained by legions of worker ants, who carry tiny bits of dirt and pebbles in their mandibles and deposit them near the exit of the colony. They normally deposit the dirt or vegetation at the top of the hill to prevent it from sliding back into the colony, but in some species, they actively sculpt the materials into specific shapes and may create nest chambers within the mound.

See also

References

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  12. Laskis, Kristina O.; Tschinkel, Walter R. (February 2009). "The Seasonal Natural History of the Ant, Dolichoderus mariae, in Northern Florida". Journal of Insect Science. 9 (2): 2. doi:10.1673/031.009.0201. PMC 3011848. PMID 19611227.
  13. Steiner, Florian M.; Schlick-Steiner, Birgit C.; Moder, Karl; Stauffer, Christian; Arthofer, Wolfgang; Buschinger, Alfred; Espadaler, Xavier; Christian, Erhard; Einfinger, Katrin (2007). "Abandoning Aggression but Maintaining Self-Nonself Discrimination as a First Stage in Ant Supercolony Formation". Current Biology. 17 (21): 1903–1907. Bibcode:2007CBio...17.1903S. doi:10.1016/j.cub.2007.09.061. PMID 17964165.
  14. Higashi, S. and K. Yamauchi. "Influence of a Supercolonial Ant Formica (Formica) yessensis Forel on the Distribution of Other Ants in Ishikari Coast". Japanese Journal of Ecology, No. 29, 257–64, 1979.
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  16. Ant mega-colony takes over world BBC Wednesday, 1 July 2009 10:41 GMT.
  17. Walker, Matt (1 July 2009). "Ant mega-colony takes over world". BBC Earth News. London: British Broadcasting Corporation. Retrieved 1 September 2024.
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  19. Foitzik, S.; DeHeer, C. J.; Hunjan, D. N.; Herbers, J. M. (7 June 2001). "Coevolution in host-parasite systems: Behavioural strategies of slave-making ants and their hosts". Proceedings of the Royal Society B: Biological Sciences. 268 (1472): 1139–1146. doi:10.1098/rspb.2001.1627. ISSN 0962-8452. PMC 1088719. PMID 11375101.
  20. Anthill Art (12 March 2015). "Largest Aluminum Fire Ant Colony Cast So Far (Cast #072)". Archived from the original on 22 December 2021 – via YouTube.
  21. KYLYKaHYT (24 December 2010). "Giant Ant Hill Excavated". Archived from the original on 22 December 2021 – via YouTube.
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  23. Gordon, Deborah M. (January–February 1995). "The Development of Organization in an Ant Colony". American Scientist. 83 (1): 50–57. Bibcode:1995AmSci..83...50G. JSTOR 29775362.

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