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Colobopsis saundersi
Species of Asian ant, also called the "Malaysian Exploding Ant" after their (suicide) attack.

Colobopsis saundersi (synonym Camponotus saundersi), also called the Malaysian exploding ant or suicide ant, is a species of ant found in Malaysia and Brunei, belonging to the genus Colobopsis. A worker can explode suicidally and aggressively as an ultimate act of defense, an ability it has in common with several other species in this genus and a few other insects. The ant has an enormously enlarged mandibular gland, many times the size of other ants, which produces adhesive secretions for defense. According to a 2018 study, this species forms a species complex and is probably related to C. explodens, which is part of the C. cylindrica group.

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Defenses

Its defensive behaviours include self-destruction by autothysis, a term coined by Maschwitz and Maschwitz (1974).4 Two oversized, poison-filled mandibular glands run the entire length of the ant's body. When combat takes a turn for the worse, the worker ant violently contracts its abdominal muscles to rupture its gaster at the intersegmental fold, which also bursts the mandibular glands, thereby spraying a sticky secretion in all directions from the anterior region of its head.56 The glue, which also has corrosive properties and functions as a chemical irritant, can entangle and immobilize all nearby victims.789

Direct observation by Jones (2004) found that C. saundersi adhesive secretions range from bright white at the end of the wet season to cream or pale yellow in the dry season and start of the wet season. These variations in coloration represent a shift in internal pH, likely due to seasonal changes in diet.10

Territorial defense

Autothysis in C. saundersi is common during territorial battles with other ant species or groups. Territorial weaver ants (Oecophylla smaragdina) are known to stalk and attack C. saundersi for territory as well as for predation.11 Self-sacrifice of C. saundersi workers is likely to help the colony as a whole by ensuring that the colony retains its foraging territory.12 Therefore, such behavior would continue within a population given that the behavior was already genetically present within the majority of workers.

Defense against predation

C. saundersi uses autothysis to defend against predation by other arboreal arthropods (weaver ants, spiders), which are believed to be the main predatory threat to C. saundersi for two reasons:

  • Jones (2004) noted through direct observation that C. saundersi is "remarkably sensitive" to even slight leaf vibration.13
  • The inherent adhesive qualities of C. saundersi's secretion are more effective in immobilizing the appendages of arthropods as opposed to those of vertebrates.14

C. saundersi also uses autothysis to defend against vertebrate predators because the chemicals involved are inedible, which could deter certain predators from engaging this species of ant in the future.15

Chemicals

The "toxic glue" of C. saundersi is predominately composed of polyacetates, aliphatic hydrocarbons, and alcohols.1617 Branched-skeleton lactones and methylated isocoumarins produced in the hindgut function as trail pheromones, while straight-chain hydrocarbons and esters produced in the Dufour's glands act as alarm pheromones in C. saundersi and related species.18 Jones, et al. (2004) identified the following chemicals within the secretion:

Phenols

  • m-cresol (traces found), a corrosive compound
  • 2,4-Dihydroxyacetophenone
  • 2-Methyl-5,7-dihydroxychromone
  • Orcinol (traces found)

Aliphatics

Terpenoids

Both 2,4-Dihydroxyacetophenone and 2-Methyl-5,7-dihydroxychromone are phenolic ketones which cause the pH-dependent color changes of the secretion.

(6R)-(E)-2,6-Dimethyl-2-octen-1,8-dioic acid is an acyclic monoterpene previously undocumented in insects. However, the chemical is well known to be a urinary metabolite in mammals, with overproduction resulting in toxic acidosis in various species.19

Colobopsis saundersi

See also

Wikimedia Commons has media related to Camponotus saundersi.

References

  1. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  2. Betz, Oliver (2010). "Adhesive Exocrine Glands in Insects: Morphology, Ultrastructure, and Adhesive Secretion". In von Byern, Janek; Grunwald, Ingo (eds.). Biological Adhesive Systems. pp. 111–152. doi:10.1007/978-3-7091-0286-2_8. ISBN 978-3-7091-0141-4. 978-3-7091-0141-4

  3. Laciny, A.; Zettel, H.; Kopchinskiy, A.; Pretzer, C.; Pal, A.; Salim, K.A.; Rahimi, M.J; Hoenigsberger, M.; Lim, L.; Jaitrong, W.; Druzhinina, IS (2018). "Colobopsis explodens sp. n., model species for studies on "exploding ants" (Hymenoptera, Formicidae), with biological notes and first illustrations of males of the Colobopsis cylindrica group". ZooKeys (751): 1–40. doi:10.3897/zookeys.751.22661. PMC 5919914. PMID 29706783. https://zookeys.pensoft.net/article/22661/

  4. Maschwitz, Ulrich; Maschwitz, Eleonore (1974). "Platzende Arbeiterinnen: Eine neue Art der Feindabwehr bei sozialen Hautflüglern". Oecologia (in German). 14 (3): 289–294. doi:10.1007/BF01039798. JSTOR 4214927. PMID 28308625. S2CID 23644298. /wiki/Doi_(identifier)

  5. Emery, Carlo (1889). Viaggio di Leonardo Fea in Birmania e regioni vicine. XX. Formiche di Birmania e del Tenasserim raccolte da Leonardo Fea (1885-87). Annali del Museo Civico di Storia Naturale Giacomo Doria (Genova) 2 7(27): 485-520. [PDF]

  6. Bauman, Joe (September 11, 2002). "Utahn enters world of exploding ants". Deseret News. They've been called kamikaze ants by other researchers because they tend to explode or self-destruct when they're attacked or harassed in any way. https://www.deseret.com/2002/9/11/19676799/utahn-enters-world-of-exploding-ants/

  7. Betz, Oliver (2010). "Adhesive Exocrine Glands in Insects: Morphology, Ultrastructure, and Adhesive Secretion". In von Byern, Janek; Grunwald, Ingo (eds.). Biological Adhesive Systems. pp. 111–152. doi:10.1007/978-3-7091-0286-2_8. ISBN 978-3-7091-0141-4. 978-3-7091-0141-4

  8. Vittachi, Nury (June 6, 2008). "The Malaysian ant teaches us all how to go out with a bang". Daily Star (Dhaka). http://www.thedailystar.net/news-detail-39830

  9. Ridley, Mark (1995). Animal Behaviour (Second ed.). Blackwell Publishing. p. 3. ISBN 0-86542-390-3. Retrieved 2009-09-26. 0-86542-390-3

  10. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  11. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  12. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  13. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  14. Maschwitz, Ulrich; Maschwitz, Eleonore (1974). "Platzende Arbeiterinnen: Eine neue Art der Feindabwehr bei sozialen Hautflüglern". Oecologia (in German). 14 (3): 289–294. doi:10.1007/BF01039798. JSTOR 4214927. PMID 28308625. S2CID 23644298. /wiki/Doi_(identifier)

  15. Shorter, J. R.; Rueppell, O. (2012). "A review on self-destructive defense behaviors in social insects" (PDF). Insectes Sociaux. 59 (1): 1–10. doi:10.1007/s00040-011-0210-x. S2CID 13257903. http://libres.uncg.edu/ir/uncg/f/O_Rueppell_Review_2012.pdf

  16. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  17. Betz, Oliver (2010). "Adhesive Exocrine Glands in Insects: Morphology, Ultrastructure, and Adhesive Secretion". In von Byern, Janek; Grunwald, Ingo (eds.). Biological Adhesive Systems. pp. 111–152. doi:10.1007/978-3-7091-0286-2_8. ISBN 978-3-7091-0141-4. 978-3-7091-0141-4

  18. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling

  19. Jones, T. H.; Clark, D. A.; Edwards, A. A.; Davidson, D. W.; Spande, T. F.; Snelling, Roy R. (2004). "The chemistry of exploding ants, Camponotus spp. (cylindricus complex)". Journal of Chemical Ecology. 30 (8): 1479–1492. doi:10.1023/B:JOEC.0000042063.01424.28. PMID 15537154. S2CID 23756265. /wiki/Roy_Snelling