Biology:Formica fusca

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Short description: Species of ant

Formica fusca
Grauschwarze Sklavenameise Formica fusca 01 (MK).jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Formicinae
Genus: Formica
Species:
F. fusca
Binomial name
Formica fusca

Formica fusca is a black-colored ant commonly found throughout Europe as well as parts of southern Asia and Africa.[1] It has the common names silky ant or dusky ant. The range within the palaearctic region extends from Portugal in the west to Japan in the east and from Italy in the south to Fennoscandia in the north. Populations from North America have been split off as a separate species, Formica subaenescens.[2] F. fusca nests are usually found in rotten tree stumps or under stones in clearcut areas and along woodland borders and hedgerows.

Eusociality

Colonies are facultatively polygynous (though weakly so, with a mean number of queen of 3.09[3]); though the queens coexist amicably, contribution to the brood tends to be unequal. Nests are usually small, containing 500–2,000 workers. The workers are large, at 8–10 millimetres (0.3–0.4 in) long, and fast moving, though timid. To ensure that non-nest mate eggs are not reared, these workers will engage in a process known as worker policing. Alate (winged) forms are produced in June/July and nuptial flights are in July/August.

A study has found evidence of nepotism in F. fusca,[4] in contrast with previous experiments with other ant species;[5] this conclusion has been challenged on the grounds that the observed pattern may result from differences in egg viability.[6]

Ecology

Formica fusca head

F. fusca feeds on small insects such as codling moth larvae, aphid honeydew and extrafloral nectaries. Workers have been found to have a very high resistance to some pathogens[7] and it is thought this may be due to F. fusca utilising the antibiotic properties of their formic acid, additional to the use of their metapleural gland. The larvae of Microdon megalogaster, a member of the ant fly genus, have been observed in the nests of these ants. The inquiline relationship of these fly larvae is not well understood.[8][9]

Behaviour

Mutualistic Formica fusca ants tending a herd of mealybugs

Workers of this ant species can learn to associate an olfactory stimulus to a reward (sugar solution) during a classical conditioning protocol. Ants are fast to learn, and only a single presentation of the stimulus is enough for them to form a genuine long-term memory. This formed memory is also resistant to extinction.[10]

The learning abilities of this species were tested using single compounds found in flower emission.[10] Ants of this species can also detect volatile organic compounds emitted by cancer cells.[11] After a 3-trial conditioning, they can differentiate cancer cell lines (MCF-7) from healthy ones (MCF-10A). They can also discriminate one cell line (MCF-7) from another cancerous one (MDA-MD-231).

References

  1. "Species: Formica fusca Linnaeus, 1758". AntWeb. California Academy of Sciences. 2018. https://www.antweb.org/description.do?genus=formica&species=fusca&rank=species&adm1Name=Colorado&countryName=United%20States. 
  2. "Do Holarctic ant species exist? Trans‐Beringian dispersal and homoplasy in the Formicidae.". Journal of Biogeography 45 (8): 1917–1928. August 2018. doi:10.1111/jbi.13380. Bibcode2018JBiog..45.1917S. 
  3. "Genetic population structure, queen supersedure and social polymorphism in a social Hymenoptera". Journal of Evolutionary Biology 20 (4): 1351–1360. July 2007. doi:10.1111/j.1420-9101.2007.01345.x. PMID 17584230. 
  4. "Sociobiology: Worker nepotism among polygynous ants". Nature 421 (6926): 910. February 2003. doi:10.1038/421910a. PMID 12606988. Bibcode2003Natur.421..910H. 
  5. "Non-random behavioural interactions among genetic subgroups in a polygynous ant.". Animal Behaviour 46 (3): 431–439. September 1993. doi:10.1006/anbe.1993.1212. 
  6. "Significant reproductive skew in the facultatively polygynous ant Pheidole pallidula". Molecular Ecology 13 (1): 203–10. January 2004. doi:10.1046/j.1365-294x.2003.02036.x. PMID 14653800. Bibcode2004MolEc..13..203F. https://serval.unil.ch/resource/serval:BIB_B5BBAA6ED093.P001/REF.pdf. 
  7. "Disease resistance in a weaver ant, Polyrhachis dives, and the role of antibiotic-producing glands". Behavioral Ecology and Sociobiology 65 (12): 2319–2327. 2011. doi:10.1007/s00265-011-1242-y. 
  8. Curran, Charles Howard (1925). "Contribution to a monograph of the American Syrphidae north of Mexico". The Kansas University Science Bulletin. 15: 7–216. https://www.biodiversitylibrary.org/page/4391303#page/15/mode/1up. 
  9. Heiss, Elizabeth Madeleine (1938). "A classification of the larvae and puparia of the Syrphidae of Illinois exclusive of aquatic forms". Series: Illinois Biological Monographs 16: 1–142. https://www.biodiversitylibrary.org/item/106100. 
  10. 10.0 10.1 "Ants learn fast and do not forget: associative olfactory learning, memory and extinction in Formica fusca". Royal Society Open Science 6 (6): 190778. June 2019. doi:10.1098/rsos.190778. PMID 31312508. Bibcode2019RSOS....690778P. 
  11. "Ants detect cancer cells through volatile organic compounds" (in English). iScience 25 (3): 103959. March 2022. doi:10.1016/j.isci.2022.103959. PMID 35281730. Bibcode2022iSci...25j3959P. 

Further reading

Wikidata ☰ Q1543905 entry