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Honeypot ant

Myrmecocystus honeypot ants, showing the repletes or plerergates, their abdomens swollen to store honey, above ordinary workers

Honeypot ants, also called honey ants, are ants which have specialized workers (repletes,[1] plerergates, or rotunds) that consume large amounts of food to the point that their abdomens swell enormously. Other ants then extract nourishment from them, through the process of trophallaxis. They function as living larders. Honeypot ants belong to any of several genera, including Myrmecocystus and Camponotus. They were first documented in 1881 by Henry C. McCook,[2][3] and described further in 1908 by William Morton Wheeler.[4]

Behavior

Many insects, notably honey bees and some wasps, collect and store liquid for use at a later date. However, these insects store their food within their nest or in combs. Honey ants are unique in using their own bodies as living storage, used later by their fellow ants when food is otherwise scarce. When the liquid stored inside a honeypot ant is needed, the worker ants stroke the antennae of the honeypot ant, causing the honeypot ant to regurgitate the stored liquid from its crop.[4][5]

Anatomy

Honeypot ants compared to a human hand. The dark dorsal sclerites are widely separated by the stretched arthrodial membrane of the inflated abdomen of each replete.

The abdomen of species like Camponotus inflatus consists of hard dorsal sclerites (stiff plates) connected by a softer, more flexible arthrodial membrane. When the abdomen is empty, the arthrodial membrane is folded and the sclerites overlap, but when the abdomen fills the arthrodial membrane becomes fully stretched, leaving the sclerites widely separated.[6]

Ecology

Myrmecocystus nests are found in a variety of arid or semiarid environments. Some species live in extremely hot deserts, others reside in transitional habitats, and still other species can be found in woodlands which are somewhat cool but still very dry for a large part of the year. For instance, the well-studied Myrmecocystus mexicanus resides in the arid and semiarid habitats of the southwestern United States. Sterile workers in this species act as plerergates or repletes during times of food scarcity. When the plerergates are fully engorged, they become immobile and hang from the ceilings of the underground nests. Other workers drain them of their liquid food stores to feed the rest of the colony. Plerergates can live anywhere in the nest, but in the wild, they are found deep underground, unable to move, swollen to the size of grapes.[7]

In Camponotus inflatus in Australia, repletes formed 49% (516 ants) of a colony of 1063 ants, and 46% (1835 ants) of a colony of 4019 ants. The smaller colony contained six wingless queens. The larger colony had 66 chambers containing repletes, with a maximum of 191 repletes in a chamber. The largest replete was 15 millimetres long and had a mass of 1.4 grams. The nest had a maximum depth of 1.7 metres, and tunnels stretched 2.4 metres from the nest entrance. The workers went out foraging during daylight to collect nectar from Mulga nectaries, and meat from the carcass of a Tiliqua blue-tongued lizard.[8]

Genera

Honeypot food storage has been adopted in several seasonally active ant genera:[9]

In human culture

Digging for honey ants

Honeypot ants such as Melophorus bagoti and Camponotus spp. are edible insects and form an occasional part of the diet of various Indigenous Australians. These people scrape the surface to locate the ants' vertical tunnels, and then dig as much as two metres deep to find the honeypots.[11] Papunya, in Australia's Northern Territory, is named after a honey ant creation story, or Dreaming, which belongs to the people there, such as the Warlpiri. The honey ants were celebrated in the Western Desert Art Movement's The Honey Ant Mural, painted in 1971.[12]

Indigenous medicinal use

Indigenous Australians from the Tjupan language group use honeypot ant honey to treat sore throats, and as a topical ointment to treat skin infections. A Sydney University study has investigated the efficacy of honey from Camponotus inflatus, and found it effective against the bacterium Staphylococcus aureus, and the fungi Aspergillus and Cryptococcus. The antimicrobial mechanism is significantly different to that of Mānuka honey.[13][14]

See also

References

  1. ^ "Replete". Antbase. Retrieved 30 July 2016.
  2. ^ McCook, Henry C. (1882). The Honey and Occident Ants.
  3. ^ McCook, Henry C. (1907). Nature's craftsmen; popular studies of ants and other insects. Harper and Brothers. pp. 96–111.
  4. ^ a b Wheeler, William Morton (March 1908). "The Polymorphism of Ants". Annals of the Entomological Society of America. 1: 39–69. doi:10.1093/aesa/1.1.39. (subscription required)
  5. ^ "Honey Ant Adaptations". National Geographic. Archived from the original on 20 January 2021. Retrieved 30 July 2016.
  6. ^ Gullan, P. J.; Cranston, P. S. (2009). The Insects: An Outline of Entomology. John Wiley & Sons. p. 25. ISBN 978-1-4051-4457-5.
  7. ^ Conway, John R. (1986). "The Biology of Honey Ants". The American Biology Teacher. 48 (6): 335–343. doi:10.2307/4448321. JSTOR 4448321.
  8. ^ Conway, John R. (June 1991). "The biology and aboriginal use of the honeypot ant, 'Camponotus inflatus' Lubbock, in Northern Territory, Australia". Australian Entomologist. 18 (2): 49–56.
  9. ^ a b c d e f g Schultheiss, P.; Schwarz, S.; Wystrach, A. (2010). "Nest Relocation and Colony Founding in the Australian Desert Ant, Melophorus bagoti Lubbock (Hymenoptera: Formicidae)". Psyche: A Journal of Entomology. 2010: 1–4. doi:10.1155/2010/435838.
  10. ^ Morgan, R. Biology, husbandry and display of the diurnal honey ant Myrmecocystus mendax Wheeler (Hymenoptera: Formicidae) Archived 2010-07-17 at the Wayback Machine
  11. ^ "Use of Insects by Australian Aborigines". Insects.org. 2011. Archived from the original on 25 August 2012. Retrieved 21 May 2016.
  12. ^ "Papunya Tula art movement of the Western Desert". Australian Government. Archived from the original on 8 August 2016. Retrieved 30 July 2016.
  13. ^ Ritchie, Philip (2023-07-27). "Western science catches up with First Nations' medicinal use of ant honey". The University of Sydney. Retrieved 2024-07-09.
  14. ^ Dong, Andrew Z.; Cokcetin, Nural; Carter, Dee A.; Fernandes, Kenya E. (2023-07-26). "Unique antimicrobial activity in honey from the Australian honeypot ant (Camponotus inflatus)". PeerJ. 11: e15645. doi:10.7717/peerj.15645. ISSN 2167-8359. PMC 10386826. PMID 37520253.