Iridomyrmex

Iridomyrmex
Temporal range: 35-60–0 Ma

Eocene to present

Meat ant (I. purpureus)
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Dolichoderinae
Tribe: Leptomyrmecini
Genus: Iridomyrmex
Mayr, 1862[1]
Type species
Formica detecta
Smith, 1858
Diversity[2]
c. 79 extant species
5 fossil species

Iridomyrmex, or the rainbow ant (referring to its blue-green iridescent sheen) is a genus of ant first described by Austrian entomologist Gustav Mayr in 1862. He placed it in the subfamily Dolichoderinae of the family Formicidae. There are 79 described species and five fossil species. Most of these ants are native to Australia; others are found in several countries and islands in Asia and other areas in Oceania, and they have been introduced to Brazil, New Zealand and the United Arab Emirates. Fossil species are known from China, France and the United States.

These ants are known to be an ecologically dominant and important group of ants, but they are sometimes regarded as pests because they disturb soil and enter human houses. Farmers in rural Australia place animal carcasses on meat ant (I. purpureus) mounds as a method of disposing of them; meat ants will consume the carcass and reduce it to bones in a matter of weeks. Meat ants also engage in ritualised fighting which helps prevent casualties and solve territorial disputes between neighbouring colonies. The largest members of this genus are those of the I. purpureus species group, measuring 8 millimetres (0.31 in).

After their nuptial flight, queen ants may establish a colony by themselves, by budding or cooperatively, where a subset of the colony migrates to a new location or when multiple queens help find a suitable nesting spot, but they will display intolerance to each other when workers are present. The eggs take 44 to 61 days to fully develop into adults. The genus lives in a wide variety of habitats and nests in soil in numbers that range from a couple of hundred individuals to over 300,000 in a single colony. Depending on the species, nests are large mounds covered in pebbles with multiple entrances while others live above ground in twig nests. In some cases, ants dwell in several nest sites connected by paths; some of these nests can extend to 650 metres (2,130 ft) in length. Some species associate with caterpillars and butterflies that provide the ants with secretions and honeydew, and I. bicknelli pollinates orchids. These ants are predators and scavengers; they hunt for prey to feed their young. Notably, these ants are immune to the toxins of the cane toad and feed on the juveniles. Predators such as spiders, birds, lizards, and other ants prey on Iridomyrmex ants.

Phylogeny

The separation of the genus Iridomyrmex from its most recent common ancestor began around 12 million years ago.[3] Its sister group, Froggattella, has only two species, even though both genera are the same age.[4] In comparison to other Indo-Australian genera in the subfamily Dolichoderinae, the clade of which it is a part is 23 million years old, meaning that it is rather young. However, the fossil species that have been found are from the Eocene and Oligocene.[5] The following cladogram shows the phylogenetic position of Iridomyrmex among the Indo-Australian genera:[3]

Indo-Australian genera



Doleromyrma





Anonychomyrma



Nebothriomyrmex







Papyrius




Philidris




Turneria




Ochetellus




Froggattella



Iridomyrmex








Taxonomy

The genus Iridomyrmex was first described by Austrian entomologist Gustav Mayr in 1862,[6] but it had no designated type species until 1903.[4] By then, the type species was designated as Formica detecta, a synonym of Iridomyrmex purpureus.[7][8] The genus was placed in the subfamily Dolichoderinae in 1878, the same year the subfamily was established.[9] Since the establishment of the genus, it suffered taxonomic misunderstanding due to the gradual development of unrelated ants being designated into the genus by early researchers who failed to identify easily recognisable features that would make them distinct from the genus Iridomyrmex.[4][10]

Myrmecologist William Brown, Jr., was perhaps the first person to question the monophyly of the genus,[4] mentioning that the Argentine ant, a former member of Iridomyrmex, differed from the rest of the genus.[11] The first proper revisions of the genus began in the 1990s, and 91 species were transferred to six genera; only 62 species remained after these revisions.[4] These species were placed into the genera Anonychomyrma, Doleromyrma, Linepithema, Ochetellus, Papyrius and Philidris. In 2011, the genus was revised again, and 79 species and five extinct species were now present, 31 of which were newly described.[4] Four species were placed in different genera while 25 species and subspecies were classified as synonyms. According to one source, 350 Australian Iridomyrmex species may be present.[12]

The scientific name of the genus, Iridomyrmex, meaning "rainbow ant", refers to their blue-green iridescent sheen.[13] The word Irido, meaning "rainbow", derives from Ancient Greek,[14] and myrmex, another Greek word, means "ant".[15]

Species

[extinct species are marked with †]

Description

Unlike other genera in Dolichoderinae, the front margin of the clypeus is not below the mandibles; instead, it is located above them. The eyes are located on top of the ants' head, and they are noticeably distant from the mandibles.[4][16] These ants range from small to medium; members of the I. conifer species group measure 4 millimetres (0.16 in), being reddish-brown in colour with a distinctive propodeum, while members of the I. purpureus species group are the largest at 8 millimetres (0.31 in).[17] Worker castes are rarely polymorphic.[4]

Based on observations, Iridomyrmex workers can be deformed when they are born. For example, a captured specimen had its propodeum and gaster fused together, and the petiole was still present but enlarged. Despite the deformity, the worker was still able to forage with little trouble.[18]

Distribution and habitat

Occurrences of Iridomyrmex species reported in Australia as of May 2015

Ants of this genus are found in many countries and islands, spanning several continents. In the Oceanian region, these ants are found in Fiji, Indonesia, New Caledonia, Papua New Guinea and the Solomon Islands.[4][19][20] In Australia, they are found in every state and territory.[21] In New Zealand, this genus has been introduced to the country, establishing themselves in both the North Island and South Island.[22] In Asia, they are found in Burma, East Timor, India, Malaysia and the Philippines.[4][23] I. anceps is the only known ant of this genus present in the Middle East, having been introduced to the United Arab Emirates. I. rufoniger was introduced to Brazil through human activity.[4][24] Populations are present on the islands of Norfolk Island and Phillip Island in Oceania.[4] Extinct species were native to countries beyond the modern distribution of the genus; fossils have been found in China, France and the United States.[25][26][27]

The genus Iridomyrmex inhabits rural, arid, and semi-arid areas.[4] Nests are found in Acacia, Agathis, Banksia, Casuarina and Eucalyptus woodland, in pastures, Callitris forests, city parks, farmlands, grasslands, heath, sand dunes, savanna woodland, swamps, urban gardens, wet rain-forests, wet and dry sclerophyll woodland, and even in buildings such as hotels and houses.[5]

Most of these ants nest in soil, but some prefer to live under rocks, rotten wood, and in some cases in sandy beaches and footpaths.[4] Certain species will avoid nesting in sandy soil.[28] Nests will vary in appearance; most species live in small mounds with a single entrance, while other species create large mounds covered in pebbles with multiple entrances.[4] Some colonies are known to create "super-nests": workers construct many nests connected through established paths, extending up to 650 metres (2,130 ft) in length.[16] In one extreme case, a single colony was found to occupy over 10 hectares of land with 85 individual nests and 1,500 entrance holes.[29] While meat ants are never aggressive to their nest mates, they will be aggressive to those who live in different nests within the same colony.[30] Nests may be above or below ground, with some species such as I. conifer alternating between the two; during winter, nests will be constructed above in twigs, with the ants moving back underground during the warmer months.[16] Underground nests are located near areas where food sources are present. Colonies will relocate their nests to areas where there are reasonable levels of sunlight during winter.[31]

Behaviour and ecology

While most Iridomyrmex species are notable for their aggression, some are quite timid. This worker is moving pupae to a safer location instead of attacking intruders after the nest was exposed.

Most Iridomyrmex species are aggressive ants that will attack anything which attacks or disturbs their nests or trails they forage on. This is noticeable with particular member species of the I. purpureus species group, where they will pour out of their nest and attack and kill all intruders.[4] Even smaller species show similar behaviours to these ants and will also swarm out of their nests to bite and spray iridomyrmecin, a defensive chemical found in the genus.[32] Because of their large numbers, aggression, and activeness, Iridomyrmex ants are ecologically dominant in Australia, and several species are known to obtain exclusive possession to food sources and prevent other insects from using them.[33] These ants will also affect foraging behaviours of other ant nests living nearby due to how active they are and their large numbers.[4]

While Iridomyrmex ants are known for their aggression, some are more timid and shy; workers will run and hide if they are disturbed and avoid contact with other ant species.[4] When nests are disturbed, workers will not attack; instead, they will relocate their brood and disregard other disturbances should they occur. Workers will hide in leaves and other vegetation, and in some cases, I. victorianus workers may remain still until any threat or danger subsides.[4]

Meat ants engage in ritualised fights to maintain and resolve boundary disputes with neighbouring colonies.[34][35] When individuals from separate colonies meet, they will engage each other until appeasement occurs. A meat ant detects a foreign worker by intense antennation and gaping of the mandibles, and will also stretch themselves upward to appear taller and larger, suggesting that meat ants do this in a display of size matching.[35] Once the ants have finished fighting, they will groom themselves and search for another ant.[34] Such disputes between colonies may continue for months or even years in the same area, and escalated fights that result in serious injury or death are rare.

Foraging

All species are predators and scavengers. Iridomyrmex ants tend to many Hemiptera insects and butterfly larvae to receive honeydew.[4] Workers forage and scavenge for small insects, and they collect nectar from flowers and hunt for prey.[4] Iridomyrmex ants normally forage on the ground, but most species will forage up into trees and vegetation to look for food. Most ants are diurnal foragers, but some are nocturnal.[4] These nocturnal ants will sometimes become active during the day, but this depends on the suitability of the weather. They will also block their entrance holes when it is daytime; however, I. bigi is nocturnal and never comes out during the day. In a few species, a nest will not be placed in a shaded area; this is so it can warm up during the early mornings and workers can forage shortly after sunrise.[36]

Diet

Iridomyrmex with a captured termite

Iridomyrmex primarily feeds on sweet foods such as nectar and honeydew.[4] They hunt for insects and other ants to feed to their young,[16] and workers are particularly attracted to seeds with elaiosomes. They collect these seeds, remove the elaiosomes, and then discard the seeds. The seedlings that sprout from these seeds benefit from proximity to the aggressive Iridomyrmex ants, giving them a better chance of survival.[5] Colonies sometimes nest in termite mounds,[37] and so the termites are regularly preyed on by Iridomyrmex; no evidence for any kind of relationship (other than a predatory one) is known.[4] Juvenile cane toads are often preyed on,[38] as certain Iridomyrmex species such as I. purpureus and I. ruburrus are immune to the toxins released by the cane toads.[39][40] As a result, placing Iridomyrmex nests in habitats which house cane toads have been suggested as a method of controlling the cane toad population.[41] The meat ant is the only known ant in Australia that feeds on guano.[42]

Predators

Some invertebrate species specialise in predation of Iridomyrmex ants. One spider in particular, the cursorial spider Habronestes bradleyi, is a specialist predator against these ants and will use the alarm pheromones that are released by the ants during territorial disputes to locate them.[43][44][45][46] The Australian thorny devil lizard (Moloch horridus) is a sit and wait predator that primarily preys on Iridomyrmex ants,[47] and one lizard will reject specific species in this genus while eating others.[48] The blind snake Ramphotyphlops nigrescens follows trails laid by these ants to locate them as a potential prey species and will eat the broods of some species,[49] while ground beetles dig burrows near ant nests to prey on workers passing by.[50]

A prominent predator is the short-beaked echidna (Tachyglossus aculeatus) that eats the virgin queens during nuptial flight due to their high percentage of fat.[51] Echidnas do not consume Iridomyrmex ants all year; instead, they usually attack nests during August to October, which is when the winged females and males, known as alates emerge from their nest.[52] Queens will also face more threats during nuptial flight or after; birds such as currawongs, magpies and ravens, attracted by recently excavated soil, will dig out nests shortly after the queens have founded their colonies.[53] Parasitic flatworms in the class Cestoda are known to infect Iridomyrmex.[54]

Life cycle and reproduction

Meat eater ant nest during swarming

Nuptial flight occurs throughout the year in humid and warm climates.[4] The alates begin to emerge from their nest and immediately climb onto tall structures (such as tree trunks, fence-posts, or long flora) where they begin to fly and copulate.[4] Depending on the species, a queen either mates with a single male or with multiple males.[55] Observations show that meat ant males begin to fly first, followed by the queens.[53] Groups of 20 to 40 queens will approach the top of the nest and fly once they are warm enough, and this would proceed multiple times for many days until the climate changes or all of the queens have withdrawn from the nest.[53] After mating, the males soon die and the queens proceed to search for a suitable nest to establish her colony. Finding a location to nest is dangerous, as birds and other ants prey on them;[56] disease and starvation are other causes of death in queens.[53] While most queens will establish a nest by herself, nests can be established when queens cooperate with each other, are adopted into an existing colony, or by "budding" (also called "satelliting" or "fractionating"), where a subset of the colony including queens, workers and brood (eggs, larvae and pupae) leave the main colony for an alternative nest site.[57] 10% of queens will cooperate with another queen during colony foundation.[58]

Fertilised meat-eater ant queen beginning to dig a new colony

Once a queen has excavated a chamber, she will lay around 20 eggs that develop into larvae in less than a month.[53] These eggs take 44 to 61 days to fully develop and emerge as adults.[57][59] Mature nests range in size, from a few hundred to over 300,000 workers.[5][60] Most colonies are monogyne, meaning it only has a single queen, but some colonies can have as many as four.[53][61] Oligogynous colonies also exist, in which multiple queens are present, but they are tolerated equally by workers birthed from different mothers and antagonism exists among queens.[57][62] Brood discrimination is known based on recognition of kin, and queens will look after their own brood and neglect other brood laid by different queens.[61][63] Queens display intolerance to each other when the first generation of workers is present, and the queens will separate from each other once the colony grows to a certain size.[57][64]

Symbiosis

I. rufoniger worker tending to a scale insect

Iridomyrmex ants share symbiotic relationships with many caterpillars, aphids and coccids.[16][65][66] Workers protect these caterpillars and will sometimes take them to their feeding chambers inside the nest.[16] In the genus Jalmenus, workers attend to the butterflies Jalmenus clementi (turquoise hairstreak), Jalmenus daemeli (emerald hairstreak), Jalmenus eichhorni (northern hairstreak), Jalmenus icilius (amethyst hairstreak), Jalmenus inous (varied hairstreak) and Jalmenus lithochroa (Waterhouse's hairstreak).[67]:246–248 In the genus Ogyris, attendants include Ogyris amaryllis (satin azure), Ogyris olane (olane azure) and Ogyris oroetes (silky azure).[67]:234–236 Additional species workers attend include Anthene lycaenoides (pale ciliate blue),[67]:270 Candalides heathi (rayed blue),[67]:266 Candalides margarita (trident pencil-blue), Deudorix diovis (bright cornelian),[67]:256–258 Euchrysops cnejus (gram blue),[67]:290 Lampides boeticus (pea blue),[67]:290 Leptotes plinius (plumbago blue),[67]:288 Lucia limbaria (chequered copper),[67]:214 Nesolycaena caesia (Kimberly spotted opal),[67]:214 Neolucia agricola (fringed heath-blue)[67]:280 and Theclinesthes serpentata (saltbush blue).[67]:288 I. bicknelli is an effective pollinator of Microtis parviflora,[68] and one study suggests the pollen is not harmed by contact of these ants.[69]

Meat ants have been observed blocking banded sugar ant nesting holes with pebbles and soil to prevent them from leaving their nest during the early hours of the day. The ants counter this by preventing meat ants from leaving their nest by blocking their nesting holes with debris, a behaviour known as nest-plugging.[70][71] If meat ant nests are encroached by trees or other shade, banded sugar ants may invade and take over the nest, since the health of the colony may deteriorate from overshadowing.[72] Members of an affected meat ant colony later move to a nearby satellite nest that is placed in a suitable area, while invading banded sugar ants fill nest galleries up with a black resinous material.[73]

Interaction with humans

In rural Australia, meat ants are important to farmers as they place animal carcasses on their nests. In a matter of weeks, the entire carcass will be consumed and reduced to bones.[74] However, Iridomyrmex ants are sometimes considered pests, due to these ants entering human houses to feed on food and soil disturbance.[75][76] Eradication of nests can be difficult, as nests can be repopulated from a rival colony or adjoining nests which were not affected.[77] Particular species have adapted rather well to urbanisation; during the early days in Canberra, newly constructed suburbs provided new nest sites for meat ants, and populations flourished. Other factors include plantations enriched with valuable food sources and home gardens.[78] Workers also cause problems for those who are Citrus producers; they will affect the biological control of Hemiptera insects, specifically those who produce honeydew.[79]

See also

References

  1. Johnson, Norman F. (19 December 2007). "Iridomyrmex Mayr". Hymenoptera Name Server version 1.5. Columbus, Ohio, USA: Ohio State University. Retrieved 11 June 2015.
  2. Bolton, B. (2014). "Iridomyrmex". AntCat. Retrieved 18 August 2014.
  3. 1 2 Ward, P.S.; Brady, S.G; Fisher, B.L.; Schultz, T.R. (2010). "Phylogeny and biogeography of dolichoderine ants: effects of data partitioning and relict taxa on historical inference". Systematic Biology. 59: 342–362. PMID 20525640. doi:10.1093/sysbio/syq012.
  4. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Shattuck, Steve; Heterick, Brian E (2011). "Revision of the ant genus Iridomyrmex (Hymenoptera : Formicidae)" (PDF). Zootaxa. 2845: 1–74. ISBN 978-1-86977-676-3. ISSN 1175-5334.
  5. 1 2 3 4 Shattuck, Steve; Barnett, Natalie (June 2010). "Iridomyrmex Mayr, 1862". Ants Down Under. CSIRO. Archived from the original on 6 June 2010. Retrieved 23 May 2015.
  6. Mayr, Gustav (1862). "Myrmecologische Studien" (PDF). Verhandlungen der Zoologisch-Botanischen Gesellschaft in Wien. 12: 649–776.
  7. Bingham, C.T. (1903). The fauna of British India, including Ceylon and Burma. Hymenoptera, Vol. II. Ants and Cuckoo-wasps (PDF). London: Taylor and Francis. p. 297.
  8. Lowne, B.T. (1865). "Contributions to the natural history of Australian ants". Entomologist. 2: 273–280.
  9. Forel, Auguste H (1878). "Études myrmécologiques en 1878 (première partie) avec l'anatomie du gésier des fourmis". Bulletin de la Société Vaudoise des Sciences Naturelles. 15: 337–392.
  10. Shattuck, Steve O. (1992). "Generic revision of the ant subfamily Dolichoderinae (Hymenoptera: Formicidae)" (PDF). Sociobiology. 21 (1): 1–181. ISSN 0361-6525.
  11. Brown, William, Jr (1958). "A review of the ants of New Zealand" (PDF). Acta Hymenopterologica. 1: 1–50.
  12. Andersen, A.N. (2007). "Ant diversity in arid Australia: a systematic overview" (PDF). Memoirs of the American Entomological Institute. 80: 19–51.
  13. AntWeb. "Genus: Iridomyrmex". The California Academy of Sciences. Retrieved 12 April 2015.
  14. Rosenthal, Gerald A.; Berenbaum, May R. (2012). Herbivores: Their Interactions with Secondary Plant Metabolites: The Chemical Participants (2nd ed.). Academic Press. p. 299. ISBN 978-0-323-13940-3.
  15. Harper, Douglas. "Formica". Online Etymology Dictionary.
  16. 1 2 3 4 5 6 "Genus Iridomyrmex". Australian Ants. CSIRO. 2001. Archived from the original on 9 February 2008. Retrieved 3 February 2015.
  17. Andersen, Alan N. (1991). The ants of southern Australia: a guide to the Bassian fauna. East Melbourne, Australia: CSIRO Publishing. p. 40. ISBN 978-0-643-05152-2.
  18. Majer, J.D. (1983). "Notes on a deformed worker of the ant genus Iridomyrmex (Hymenoptera: Formicidae)". Australian Entomological Magazine. 10 (1): 11–12.
  19. Emery, Carlo (1914). "Lesfourmis de la Nouvelle-caledonie et des iles Loyalty" (PDF). Nova Caledonia A Zoologie. 1: 393–436. OCLC 29171557.
  20. Forel, Auguste (1901). "Formiciden aus dem Bismarck-Archipel, auf Grundlage des von Prof. Dr. F. Dahl gesammelten Materials bearbeitet" (PDF). Mitteilungen aus dem Zoologischen Museum in Berlin. 2: 1–37. ISSN 0373-8493.
  21. Department of the Environment (15 May 2015). "Genus Iridomyrmex Mayr, 1862". Australian Biological Resources Study: Australian Faunal Directory. Canberra: Government of Australia. Retrieved 18 August 2014.
  22. Don, Warwick (2007). Ants of New Zealand. Dunedin: Otago University Press. pp. 157–159. ISBN 978-1-877372-47-6.
  23. Roger, Julius (1863). "Die neu aufgeführten Gattungen und Arten meines Formiciden-Verzeichnisses nebst Ergänzung einiger früher gegebenen Beschreibungen". Berliner entomologische Zeitschrift. 7 (1-2): 131–214. doi:10.1002/mmnd.18630070116.
  24. Collingwood, Cedric A.; Tigar, Barbara J.; Agosti, Donat (November 1997). "Introduced ants in the United Arab Emirates". Journal of Arid Environments. 37 (3): 505–512. doi:10.1006/jare.1997.0309.
  25. Zhang, J. (1989). Fossil insects from Shanwang, Shandong, China. Jinan, China: Shandong Science and Technology Publishing House. p. 278.
  26. Théobald, Nicolas (1937). Les insectes fossiles des terrains oligocènes de France (PDF) (in French). 2. Université de Nancy. p. 209.
  27. Carpenter, F.M. (1930). "The fossil ants of North America" (PDF). Bulletin of the Museum of Comparative Zoology. 70: 1–66.
  28. Greenslade, P. J. M. (September 1974). "The identity of Iridomymex purpureus form viridiaeneus Viehmeyer (Hymenoptera: Formicidae)". Australian Journal of Entomology. 13 (3): 247–248. doi:10.1111/j.1440-6055.1974.tb02181.x.
  29. Greenslade, P. J. M.; Halliday, R. B. (March 1983). "Colony dispersion and relationships of meat ants Iridomyrmex purpureus and allies in an arid locality in south Australia". Insectes Sociaux. 30 (1): 82–99. ISSN 1420-9098. doi:10.1007/BF02225659.
  30. van Wilgenburg, E.; Ryan, D.; Morrison, P.; Marriott, P. J.; Elgar, M. A. (March 2006). "Nest- and colony-mate recognition in polydomous colonies of meat ants (Iridomyrmex purpureus)". Naturwissenschaften. 93 (7): 309–314. Bibcode:2006NW.....93..309V. PMID 16555093. doi:10.1007/s00114-006-0109-y.
  31. Shattuck, Steven O.; McMillan, Peter (1998). "Revision of the species of the Iridomyrmex conifer group (Hymenoptera : Formicidae), with notes on their biology". Australian Journal of Zoology. 46 (3): 301. doi:10.1071/ZO98033.
  32. Cavill, G.W.K.; Ford, D.L.; Locksley, H.D. (1956). "The chemistry of ants. I. Terpenoid constituents of some Australian Iridomyrmex species". Australian Journal of Chemistry. 9 (2): 288. doi:10.1071/CH9560288.
  33. Andersen, A. N.; Patel, A. D. (June 1994). "Meat ants as dominant members of Australian ant communities: an experimental test of their influence on the foraging success and forager abundance of other species". Oecologia. 98 (1): 15–24. ISSN 1432-1939. doi:10.1007/BF00326085.
  34. 1 2 Ettershank, G.; Ettershank, J. A. (May 1982). "Ritualised fighting in the meat ant Iridomyrmex purpureus (Smith) (Hymenoptera: Formicidae)". Australian Journal of Entomology. 21 (2): 97–102. doi:10.1111/j.1440-6055.1982.tb01772.x.
  35. 1 2 Elgar, Mark A.; Wilgenburg, E. van; Lieshout, Emile van (1 June 2005). "Conflict resolution strategies in meat ants (Iridomyrmex purpureus): ritualised displays versus lethal fighting". Behaviour. 142 (6): 701–716. doi:10.1163/1568539054729150.
  36. Andrews, E.A. (1927). "Ant-mounds as to temperature and sunshine". Journal of Morphology. 44 (1): 1–20. doi:10.1002/jmor.1050440102.
  37. Wheeler, William Morton (1936). "Ecological Relations of Ponerine and Other Ants to Termites". Proceedings of the American Academy of Arts and Sciences. 71 (3): 159–171. JSTOR 20023221. doi:10.2307/20023221.
  38. Richard, Shine (2010). "The Ecological Impact of Invasive Cane Toads (Bufo Marinus) in Australia" (PDF). The Quarterly Review of Biology. 85 (3): 253–291. JSTOR 655116. doi:10.1086/655116.
  39. Ward-Fear, Georgia; Brown, Gregory P.; Shine, Richard (April 2010). "Using a native predator (the meat ant, Iridomyrmex reburrus) to reduce the abundance of an invasive species (the cane toad, Bufo marinus) in tropical Australia". Journal of Applied Ecology. 47 (2): 273–280. doi:10.1111/j.1365-2664.2010.01773.x.
  40. Clerke, R. B.; Williamson, I. (1 December 1992). "A note on the predation of Bufo marinus juveniles by the ant Iridomyrmex purpureus". Australian Zoologist. 28 (1): 64–67. doi:10.7882/AZ.1992.015.
  41. Grebner, Donald L.; Bettinger, Pete; Siry, Jack P. (2013). Introduction to forestry and natural resources (1st ed.). Academic Press. p. 142. ISBN 978-0-12-386902-9.
  42. Moulds, Timothy (2006). "The first Australian record of subterranean guano-collecting ants" (PDF). Helictite. 39 (1): 3–4.
  43. Herberstein, Marie Elisabeth (2011). Spider Behaviour: Flexibility and Versatility. Cambridge University Press. p. 139. ISBN 978-1-139-49478-6.
  44. Capinera, John L. (2008). Encyclopedia of Entomology. 4. Springer Science & Business Media. p. 93. ISBN 978-1-4020-6242-1.
  45. Litwack, Gerald (2010). Pheromones. 83. Academic Press. p. 227. ISBN 978-0-12-381533-0. ISSN 0083-6729.
  46. Allan, R.A.; Elgar, M.A.; Capon, R.J. (1996). "Exploitation of an ant chemical alarm signal by the zodariid spider Habronestes bradley Walckenaer". Proceedings of the Royal Society B. 263: 69–73. Bibcode:1996RSPSB.263...69A. doi:10.1098/rspb.1996.0012.
  47. Withers, PC; Dickman, CR (1995). "The role of diet in determining water, energy and salt intake in the thorny devil Moloch horridus (Lacertilia: Agamidae)" (PDF). Journal of the Royal Society of Western Australia, 7. 78 (3).
  48. Tyler, .M.J. (1960). "Observations on the diet and size variation of Amphibolurus adelaidensis (Gray) (Reptilia-Agamidae) on the Nullarbor Plain". Transactions of The Royal Society of South Australia. 83: 111–117.
  49. Webb, Jonathan K.; Shine, Richard (1992). "To find an ant: trail-following in Australian blindsnakes (Typhlopidae)". Animal Behaviour. 43 (6): 941–948. doi:10.1016/S0003-3472(06)80007-2.
  50. Moore, B.P. (1974). "The larval habits of two species of Sphallomorpha Westwood (Coleoptera: Carabidae: Pseudomorphinae)". Australian Journal of Entomology. 13 (3): 179–183. doi:10.1111/j.1440-6055.1974.tb02171.x.
  51. Griffiths, M.; Simpson, K.G. (1966). "A seasonal feeding habit of Spiny Ant-eaters". CSIRO Wildlife Research. 11 (1): 137–143. doi:10.1071/CWR9660137.
  52. Griffiths, Mervyn (2012). The Biology of the Monotremes. Elsevier. p. 84. ISBN 978-0-323-15331-7.
  53. 1 2 3 4 5 6 Greaves, T.; Hughes, R. D. (December 1974). "The Population Biology of the Meat Ant". Australian Journal of Entomology. 13 (4): 329–351. doi:10.1111/j.1440-6055.1974.tb02212.x.
  54. Schmid-Hempel, Paul (1998). Parasites in social insects. New Jersey: Princeton University Press. p. 61. ISBN 978-0-691-05924-2.
  55. Hölldobler & Wilson 1990, p. 156.
  56. Hölldobler & Wilson 1990, p. 210.
  57. 1 2 3 4 Hölldobler, Bert; Carlin, Norman F. (1985). "Colony founding, queen dominance and oligogyny in the Australian meat ant Iridomyrmex purpureus". Behavioral Ecology and Sociobiology. 18 (1): 45–58. ISSN 1432-0762. JSTOR 4599861. doi:10.1007/BF00299237.
  58. Hölldobler & Wilson 1990, p. 217.
  59. Hölldobler & Wilson 1990, p. 170.
  60. Hölldobler & Wilson 1990, p. 163.
  61. 1 2 Trager, James C. (1988). Advances in myrmecology (1st ed.). Leiden, Netherlands: E.J. Brill. pp. 203, 271–272. ISBN 978-0-916846-38-1.
  62. Michelucci, Pietro (2013). Handbook of Human Computation. New York, NY: Springer New York. p. 931. ISBN 978-1-4614-8806-4.
  63. Hölldobler & Wilson 1990, p. 202.
  64. Hölldobler & Wilson 1990, p. 159.
  65. Eastwood, Rod; Fraser, Ann M. (October 1999). "Associations between lycaenid butterflies and ants in Australia". Austral Ecology. 24 (5): 503–537. doi:10.1046/j.1440-169x.1999.01000.x.
  66. Fielder, Konrad (2001). "Ants that associate with Lycaeninae butterfly larvae: diversity, ecology and biogeography". Diversity and Distributions. 7 (1-2): 45–60. JSTOR 2673358. doi:10.1046/j.1472-4642.2001.00096.x.
  67. 1 2 3 4 5 6 7 8 9 10 11 12 Braby, Michael F. (2004). The complete field guide to butterflies of Australia. Collingwood, Vic.: CSIRO Publishing. ISBN 978-0-643-09027-9.
  68. Peakall, R.; Beattie, A.J. (1989). "Pollination of the Orchid Microtis parviflora R. Br. by Flightless Worker Ants". Functional Ecology. 3 (5): 515–522. JSTOR 2389565. doi:10.2307/2389565.
  69. Peakall, Rod; Angus, Craig J.; Beattie, Andrew J. (October 1990). "The significance of ant and plant traits for ant pollination in Leporella fimbriata" (PDF). Oecologia. 84 (4): 457–460. ISSN 1432-1939. doi:10.1007/BF00328160.
  70. Hölldobler & Wilson 1990, p. 424.
  71. Gordon, Deborah M. (1988). "Nest-plugging: interference competition in desert ants (Novomessor cockerelli and Pogonomyrmex barbatus)". Oecologia. 75 (1): 114–118. ISSN 1432-1939. doi:10.1007/BF00378823.
  72. Cowan, J. A.; Humphreys, G. S.; Mitchell, P. B.; Murphy, C. L. (1985). "An assessment of pedoturbation by two species of mound-building ants, Camponotus intrepidus (Kirby) and Iridomyrmex purpureus (F. Smith)". Australian Journal of Soil Research. 23 (1): 95. doi:10.1071/SR9850095.
  73. Ettershank, G. (1968). "The three dimensional gallery structure of the nest of the meat ant Iridomyrmex purpureus (SM.) (Hymenoptera : Formicidae)". Australian Journal of Zoology. 16 (4): 715–723. doi:10.1071/ZO9680715.
  74. Australian Museum. "Animal Species: Meat Ant". Retrieved 3 May 2015.
  75. "The Farm Home. Control of Ants.". The Grenfell Record and Lachlan District Advertiser. NSW: National Library of Australia. 20 August 1934. p. 4. Retrieved 21 July 2015.
  76. Webb, Garry; Mayer, Robb; Thomson, Russell (2014). "Control of meat ants (Iridomyrmex sanguineus Forel) in a Western Australian sandalwood plantation using bait technology" (PDF). General and Applied Entomology. 43 (1): 43–49.
  77. Greaves, T. (1939). "The control of meat ants (Iridomyrmex detectus Sm.)". Journal of the Council for Scientific and Industrial Research. 12: 109–114.
  78. Greaves, T. (December 1973). "Biological problems in the control of the meat ant, Iridomyrmex purpureus (Hymenoptera: Formicidae )". Australian Journal of Entomology. 12 (4): 284–288. doi:10.1111/j.1440-6055.1973.tb01674.x.
  79. Stevens, M. M.; Madge, D. G.; James, D. G.; Diffey, S.; Schiller, L. J. (September 2007). "Ground cover management does not influence densities of key Iridomyrmex species (Hym., Formicidae) in Australian citrus groves". Journal of Applied Entomology. 131 (8): 532–536. doi:10.1111/j.1439-0418.2007.01188.x.

Cited texts

External identifiers for Iridomyrmex
Encyclopedia of Life 32638
ITIS 154215
NCBI 121506
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