Odontomachus troglodytes

Widespread across sub-Saharan Africa in second growth forests and open habitats.

Identification
Workers of this species can be easily distinguished from Odontomachus coquereli by their smaller size, distinct extraocular furrows and temporal ridges on vertex and short and blunt mandibular teeth.

Distribution
Known from Zimbabwe, Liberia, Senegal, Guinea, Ivory Coast, Cameroon, Zambia, Tanzania, Uganda, Central African Republic, Democratic Republic of Congo, Eritrea, Kenya, Madagascar, Mozambique, Seychelles and South Africa.

Distribution based on Regional Taxon Lists
Afrotropical Region: Cameroun, Central African Republic, Democratic Republic of Congo, Eritrea, Guinea, Ivory Coast, Kenya, Liberia, Mali, Mozambique, Senegal, South Africa, Uganda, United Republic of Tanzania, Zambia, Zimbabwe. Malagasy Region: Madagascar, Seychelles.

Cameroon
Dassou et al. (2017) found this ant to be a subordinate species at baits in Cameroon plantain agrosystems.

Malagasy
Fisher and Smith (2008) - Odontomachus troglodytes was first reported from Madagascar by André [38:290] as O. haematodes (Linnaeus). African and Malagasy records of haematodes actually refer to troglodytes. In Madagascar, troglodytes is widespread throughout the east in secondary habitats, including coastal scrub, eucalyptus plantations, littoral forest, and rainforest below 800 m elevation. Forel [25:159] recorded Odontomachus (as haematodes) from Seychelles. These specimens have not been examined but probably refer to Odontomachus simillimus and not troglodytes. Because of its preference of secondary habitats, it is possible that troglodytes in Madagascar is a recent colonist from Africa, possibly introduced by humans. This is in contrast to Odontomachus coquereli which is most closely related to Melanesian species in the tyrannicus group. Our collections in Madagascar were focused primarily on less disturbed habitats, thus its distribution probably does not reflect the full extent of its range. O. troglodytes was most often recorded nesting in rotten logs (30 collection records) followed by sifted litter (15). Males were collected at light, malaise traps, and yellow pan traps. A lab colony was kept for a number of months and thrived on a diet of crickets, producing numerous larvae, brood, and males. The trap jaw behavior is very similar to that of O. bauri [39, Fisher unpublished]. When disturbed, the specimen use trap jaw propulsion to “jump” away.

Nomenclature

 *  troglodytes. Odontomachus haematodes var. troglodytes Santschi, 1914b: 58 (w.) KENYA. André, 1887: 290 (m.); Arnold, 1915: 109 (q.); Menozzi, in Eidmann, 1944: 437 (l.). Raised to species and senior synonym of stanleyi: Brown, 1976a: 106. See also: Brown, 1976a: 167; Fisher & Smith, 2008: 16.
 * stanleyi. Odontomachus haematodus var. stanleyi Wheeler, W.M. 1922a: 102 (w.) DEMOCRATIC REPUBLIC OF CONGO. Junior synonym of troglodytes: Brown, 1976a: 106.

Worker
Fisher and Smith (2008) - Measurements: maximum and minimum based on n = 15 from Madagascar: HL 2.23–2.66, HW (across vertex) 1.56–1.92, HW (across upper eye margin) 1.69–1.98, CI 74–78, EL 0.40–0.47, ML 1.13–1.33, MI 45–54, SL 2.07–2.42, SI 117–127, WL 2.61–3.07. FL 2.28–2.65, PW 1.02–1.19. The specimens from Madagascar are notably smaller than specimens in CAS collection from South Africa, central Africa and Sao Tome. Maximum and minimum measurements based on n = 5: HL 2.52–2.94, HW (across vertex) 1.81–2.25, HW (across upper eye margin) 1.94–2.31, CI 74–79, EL 0.41–0.51, ML 1.19–1.38, MI 47–49, SL 2.24–2.53, SI 110–122, WL 2.88–3.23. FL 2.42–2.91, PW 1.13–1.36.

Queen
Fisher and Smith (2008) - Measurements: maximum and minimum based on n = 5 from Madagascar: HL 2.59–2.74, HW (across vertex) 1.99–2.19, HW (across upper eye margin) 2.05–2.18, CI 78–79, EL 0.56–0.59, ML 1.39–1.44, MI 52–55, SL 2.36–2.52, SI 112–119, WL 3.18–3.49. FL 2.67–2.76.

Male
Fisher and Smith (2008) - Measurements: maximum and minimum based on n = 5 from Madagascar: HL 1.00–1.04, HW 1.30–1.35, CI 127–133, EL 0.68–0.70, SL 0.22–0.26, SI 17–19, WL 2.52–2.59. FL 1.80–1.88.

Type Material
Fisher and Smith (2008):

Lectotype worker: Kenya, Shimoni cave [examined] AntWeb CASENT0101134. Odontomachus haematodus stanleyi. Type worker: DRC (Zaire) Stanleyville, 25° 10′E, 0°30′N Feb 1915, [examined] AntWeb CASENT0104653, CASENT0104654.

References based on Global Ant Biodiversity Informatics

 * Abera-Kalibata A. M., C. S. Gold, R. G. Van Driesche, and P. E. Ragama. 2007. Composition, distribution, and relative abundance of ants in banana farming systems in Uganda. Biological Control 40: 168-178.
 * Belshaw R., and B. Bolton. 1994. A survey of the leaf litter ant fauna in Ghana, West Africa (Hymenoptera: Formicidae). Journal of Hymenoptera Research 3: 5-16.
 * Belshaw R., and B. Bolton. 1994. A survey of the leaf litter ant fauna in Ghana, West Africa (Hymenoptera: Formicidae). Journal of Hymenoptera Research. 3: 5-16.
 * Borowiec L., and S. Salata. 2018. Notes on ants (Hymenoptera: Formicidae) from Gambia (Western Africa). Annals of the Upper Silesian Museum in Bytom Entomology 26: 1-13.
 * Braet Y., and B. Taylor. 2008. Mission entomologique au Parc National de Pongara (Gabon). Bilan des Formicidae (Hymenoptera) recoltes. Bulletin S. R. B. E./K.B.V.E. 144: 157-169.
 * Brown W. L., Jr. 1976. Contributions toward a reclassification of the Formicidae. Part VI. Ponerinae, tribe Ponerini, subtribe Odontomachiti. Section A. Introduction, subtribal characters. Genus Odontomachus. Stud. Entomol. 19: 67-171.
 * CSIRO Collection
 * Collingwood C. A., and A. van Harten. 2001. Additions to the Ant Fauna of Yemen (Hymenoptera: Formicidae) Buchreihe zur Entomologie 8: 559-568
 * Delage-Darchen B. 1971. Contribution à l'étude écologique d'une savane de Côte d'Ivoire (Lamto). Les fourmis des strates herbacée et arborée. Biologia Gabonica 7: 461-496.
 * Dufour B. 1991. Place et importance des différentes espèces d'insectes dans l'écologie du CSSV (Cocoa Swollen Shoot Virus) au Togo). Café Cacao Thé 35(3): 197-204.
 * Ewuim S. C., M. A. Badejo, and O. O. Ajayi. 1997. Ants of forest and fallow plots in Nigeria. Biotropica 29(1): 93-99.
 * Fisher B. L. 2004. Diversity patterns of ants (Hymenoptera: Formicidae) along an elevational gradient on Monts Doudou in southwestern Gabon. Memoirs of the California Academy of Sciences 28: 269-286.
 * Fisher B. L., and M. A. Smith. 2008. A revision of Malagasy species of Anochetus Mayr and Odontomachus Latreille (Hymenoptera: Formicidae). PLoS ONE 3(5): e1787. doi:10.1371/journal.pone.0001787
 * Garcia F.H., Wiesel E. and Fischer G. 2013.The Ants of Kenya (Hymenoptera: Formicidae)Faunal Overview, First Species Checklist, Bibliography, Accounts for All Genera, and Discussion on Taxonomy and Zoogeography. Journal of East African Natural History, 101(2): 127-222
 * IZIKO South Africa Museum Collection
 * Koch F., and K. Vohland. 2004. Ants along a southern African transect - a basis for biodiversity change monitoring (Insecta, Hymenoptera, Formicidae). Zoosystematics and Evolution 80(2): 261-273.
 * Kolo Y. 2006. Evaluation rapide des fourmis de la région de Boké, Guinée. In Wright, H.E. and J. McCullough et M.S. Diallo. (eds). 2006. A Rapid Biological Assessment of the Boké Préfecture, Northwestern Guinea. RAP Bulletin of Biological Assessment 41. Conservation International, Washington, DC.
 * Kone M., S. Konate, K. Yeo, P. K. Kouassi, and K. E. Linsenmair. 2012. Changes in ant communities along an age gradient of cocoa cultivation in the Oumé region, central Côte dIvoire. Entomological Science 15: 324339.
 * Kouakou L. M. M., K. Yeo, K. Ouattara, W. Dekoninck, T. Delsinne, and S. Konate. 2018. Investigating urban ant community (Hymenoptera: Formicidae) in port cities and in major towns along the border in Côte d’Ivoire: a rapid assessment to detect potential introduced invasive ant species. Journal of Animal and Plant Sciences 36(1): 5793-5811.
 * Kouakou L. M. M., W. Dekoninck, M. Kone, T. Delsinne, K. Yeo, K. Ouattara, and S. Konate. 2018. Diversity and distribution of introduced and potentially invasive ant species from the three main ecoregions of Côte d’Ivoire (West Africa). Belgian Journal of Zoology 148 (1): 83–103.
 * Levieux J. 1972. Etude du peuplement en fourmis terricoles d'une savane preforestiere de Cote d'Ivoire. Revue d'Ecologie et de Biologie du Sol 10(3): 381-428.
 * Levieux J., and T. Diomande. 1985. Evolution des peuplements de fourmis terricoles selon l'age de la végétation dans une foret de Cote d'Ivoire intacte ou soumise à l'action humaine. Insectes Sociaux 32(2): 128-139.
 * Lévieux J. 1972. Les fourmis de la savane de Lamto (Côte d'Ivoire): éléments de taxonomie. Bulletin de l'Institut Fondamental d'Afrique Noire. Série A. Sciences Naturelles 34: 611-654.
 * Lévieux J. 1977. La nutrition des fourmis tropicales: V- Elements de synthèse. Les modes d'exploitation de la biocenose. Insectes Sociaux 24(3): 235-260.
 * Madl M. 2019. Notes on the ant fauna of Eritrea (Insecta: Hymenoptera: Formicidae): type specimens deposited in the Natural History Museum Vienna (Austria) and a preliminary checklist. Ann. Naturhist. Mus. Wien, B 121: 9-18.
 * Magagula C. N., and B. A. Nzimba. 2015. Interaction between habitat characteristics and insect diversity using ground beetles (Colenoptera: Carabidae) and ants (Hymenoptera: Formicidae) within a variety of agriculatural habitats. Applied Ecology and Environmental Research 13(3): 863-876.
 * Medler J. T. 1980: Insects of Nigeria - Check list and bibliography. Mem. Amer. Ent. Inst. 30: i-vii, 1-919.
 * Nsengimana V., K. A. Beth, F. Frederic, K. M. M. Lombart, D. Wouter, and N. Donat. 2018. Use of soil and litter ants (Hymenoptera: Formicidae) as biological indicators of soil quality under different land uses in Southern Rwanda. Environmental Entomology 47(6): 1394-1401.
 * Samways M. J. 1990. Species temporal variability: epigaeic ant assemblages and management for abundance and scarcity. Oecologia 84: 482-490.
 * Stephens S. S., P. B. Bosu, and M. R. Wager. 2016. Effect of overstory tree species diversity and composition on ground foraging ants (Hymenoptera: Formicidae) in timber plantations in Ghana. International Journal of Biodiversity Science, Ecosystem Services & management 12(1-2): 96-107.
 * Tadu Z., C. Djieto-Lordon, R. Babin, Yede, E. B. Messop-Youbi, and A. Fomena. 2013. Influence of insecticide treatment on ant diversity in tropical agroforestry system: some aspect of the recolonization process. International Journal of Biodiversity and Conservation 5(12): 832-844.
 * Taylor B. 1976. Ants of the Nigerian Forest Zone (Hymenoptera: Formicidae). I. Ponerinae, Cerapachyinae, Pseudomyrmecinae. Cocoa Research Institute of Nigeria Technical Bulletin Series 4: 1-41.
 * Taylor B., N. Agoinon, A. Sinzogan, A. Adandonon, Y. N'Da Kouagou, S. Bello, R. Wargui, F. Anato, I. Ouagoussounon, H. Houngbo, S. Tchibozo, R. Todjhounde, and J. F. Vayssieres. 2018. Records of ants (Hymenoptera: Formicidae) from the Republic of Benin, with particular reference to the mango farm ecosystem. Journal of Insect Biodiversity 8(1): 006–029.
 * Wheeler W. M. 1922. Ants of the American Museum Congo expedition. A contribution to the myrmecology of Africa. II. The ants collected by the American Museum Congo Expedition. Bulletin of the American Museum of Natural History 45: 39-269.
 * Wheeler W. M. 1922. Ants of the American Museum Congo expedition. A contribution to the myrmecology of Africa. VIII. A synonymic list of the ants of the Ethiopian region. Bulletin of the American Museum of Natural History 45: 711-1004
 * Yeo K., L. M. M. Kouakou, W. Dekoninck, K. Ouattara, and S. Konate. 2016. Detecting intruders: assessment of the anthropophilic ant fauna (Hymenoptera: Formicidae) in the city of Abidjan and along access roads in Banco National Park (Côte d’Ivoire). Journal of Entomology and Zoological Studies 4(4): 351-359.
 * Yeo K., S. Konate, S. Tiho, and S. K. Camara. 2011. Impacts of land use types on ant communities in a tropical forest margin (Oumé - Cote d'Ivoire). African Journal of Agricultural Research 6(2): 260-274.
 * Yeo K., T. Delsinne, S. Komate, L. L. Alonso, D. Aidara, and C. Peeters. 2016. Diversity and distribution of ant assemblages above and below ground in a West African forest–savannah mosaic (Lamto, Cote d’Ivoire). Insectes Sociaux DOI 10.1007/s00040-016-0527-6
 * Yeo K., and A. Hormenyo. 2007. A Rapid Survey of Ants in Ajenjua Bepo and Mamang River Forest Reserves, Eastern Region of Ghana. Pp 27-29. In McCullough, J., P. Hoke, P. Naskrecki, and Y. Osei-Owusu (eds.). 2008. A Rapid Biological Assessment of the Ajenjua Bepo and Mamang River Forest Reserves, Ghana. RAP Bulletin of Biological Assessment 50. Conservation International, Arlington, VA, USA.