Tetraponera

Tetraponera
	worker
Scientific classification
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Hymenoptera
Family:	Formicidae
Subfamily:	Pseudomyrmecinae
Tribe:	Pseudomyrmecini
Genus:	Tetraponera; Smith, 1852
Type species
	Tetraponera nigra (as T. atrata); Smith, 1852
Diversity
	101 species

Tetraponera is a genus of ants in the subfamily Pseudomyrmecinae that are commonly known as slender ants and are characterized by their arboreal nature and slender bodies. The 86 described species of Tetraponera all live in hollow structures of plants and trees, such as thorns or branches; these hosts are known as myrmecophytes. Tetraponera species are closely related to the New World genus of ants Pseudomyrmex, but differ in their relationships with host plants.^{[citation needed]}

Mutualisms and behaviour[]

Tetraponera species are generally defined by the myrmecophytes they inhabit and the mutualistic relationship they share.^[2] These host plants always have hollow thorns or branches in which the ants can live and form a colony. Also, the myrmecophytes provide energy rich food sources such as extrafloral nectar and/or food bodies. All Tetraponera species have gut symbionts that allow them to digest amino acid-deficient food provided by their host plants; these gut bacteria are especially important for the species that only survive on the myrmecophyte-provided foods.^{[citation needed]}

All Tetraponera species provide protection for their host plants through aggressive nature towards other insects and trimming leaves/branches of neighbouring plants. Living in hollow structures of the plants allows the ants to detect vibrations when larger insects land on the plant, or workers on patrol visually detect smaller intruders. Once detected, sophisticated pheromone systems allow the ants to quickly outnumber and overpower any invaders. Most insect invaders are killed and discarded by Tetraponera workers such as caterpillars and aphids, but some are killed and consumed. The insects that take the most time and effort to kill are generally consumed; these are mostly katydids or leaf beetles.^{[citation needed]}

As well as assaulting and killing insects that attack their host plant, Tetraponera ants will attack any mammals that present a threat. Inflicting the mammals with painful stings will usually deter them from attacking the plant.^{[citation needed]}

In some arboreal ant species, not just Tetraponera, a third partner in ant-myrmecophyte mutualisms is hemipteran trophobionts. These insects provide a possible third source of food for the ants, in return the ants feed and “nurture” the Hemiptera inside their colonies.^{[citation needed]}

Distribution[]

Tetraponera species are found commonly in the warmer regions of Africa, Asia, and Australia. Different species are associated with different plant species. The most common myrmecophytes for Tetraponera are acacias, but the wide variety of hosts for this genus include bamboos and lianas. Tetraponera ants trim neighbouring plants to prevent any intrusion of other ants or caterpillars from those plants and to reduce for their host. Tetraponera species only leave their myrmecophyte to start a new colony on a different host; a queen and a number of workers leave the old host plant to allow the colony to continue to expand.^{[citation needed]}

Lifecycle and castes[]

A slender ant worker

Tetraponera, like most ants, has one or a few queens that are the only females to reproduce in a colony. The sterile workers are all females that forage for food and defend the colony. Males are produced only during certain times of the year and disperse to mate with virgins queens from other colonies. Since ants are haplodiploid, they can control what sex their offspring will be; an unfertilised egg will become a male, while a fertilised egg will be female. This reliably restricts the production of male to the species' mating season, when the winged virgin queens and males fly from their home colonies to mate and start new colonies.^{[citation needed]}

The eggs produced by the queen hatch into larvae which are cared for inside the colony, protected from any predators by the workers. The amount of care each female larva receives determines its fate as a worker or a new queen; all males are drones. When a new colony is formed, eggs are initially produced at a low rate, but this quickly increases in the second to fourth years, to ensure enough workers are produced to protect and provide for the growing colony.^{[citation needed]}

Species[]

Tetraponera aethiops Smith, 1877
(Forel, 1902)
Tetraponera allaborans (Walker, 1859)
Xu & Chai, 2004
(Emery, 1895)
(Mayr, 1895)
(Arnold, 1949)
(Santschi, 1910)
Ward, 2001
(Santschi, 1911)
Donisthorpe, 1949
Smith, 1877
Ward, 2001
(Forel, 1902)
Ward, 2001
(Forel, 1913)
Ward, 2001
Ward, 2001
(Smith, 1858)
(Smith, 1863)
(Santschi, 1913)
(Emery, 1886)
Xu & Chai, 2004
Ward, 2001
Ward, 2001
Xu & Chai, 2004
(Emery, 1900)
(Santschi, 1911)
(Santschi, 1911)
(Emery, 1900)
(Santschi, 1911)
(Forel, 1911)
† Dlussky, 2009
(Forel, 1892)
Ward, 2001
(Forel, 1897)
(Santschi, 1911)
Xu & Chai, 2004
(Stitz, 1911)
(Forel, 1891)
† Dlussky, 2009
Ward, 2009
Ward, 2009
(Forel, 1892)
Ward, 2009
Ward, 2001
† (Wheeler, 1915)
† (Wheeler, 1915)
(Smith, 1859)
(Emery, 1912)
Terron, 1969
(Santschi, 1920)
(Forel, 1894)
Ward, 2009
(Emery, 1895)
(Forel, 1901)
Ward, 2009
Wu & Wang, 1990
Ward, 2001
(Jerdon, 1851)
(André, 1890)
(Smith, 1860)
(Santschi, 1937)
(Forel, 1891)
(Smith, 1858)
Tetraponera nigra (Jerdon, 1851)
(Smith, 1860)
Ward, 2001
Ward, 2001
Ward, 2001
† (Mayr, 1868)
† (Théobald, 1937)
(Emery, 1912)
Ward, 2006
Tetraponera penzigi (Mayr, 1907)
Santschi, 1928
Smith, 1877
Ward, 2006
(Smith, 1858)
(Santschi, 1926)
Ward, 2001
Donisthorpe, 1931
(Forel, 1911)
Xu & Chai, 2004
Smith, 1877
(Forel, 1891)
Ward, 2001
(Jerdon, 1851)
Tetraponera rufonigra (Jerdon, 1851)
(Forel, 1887)
(Santschi, 1915)
Donisthorpe, 1931
† (Mayr, 1868)
Tetraponera tessmanni (Stitz, 1910)
(Forel, 1902)
(Stitz, 1910)
Ward, 2001
(Forel, 1895)
Ward, 2001
Ward, 2001
(Menozzi, 1939)

References[]

^ Bolton, B. (2014). "Tetraponera". AntCat. Retrieved 17 July 2014.
^ Young, T.P.; Cynthia H. Stubblefield; Lynne A. Isbell (December 1996). "Ants on swollen-thorn acacias: species coexistence in a simple system". Oecologia. 109 (1): 98–107. doi:10.1007/s004420050063. PMID 28307618. S2CID 26354370.

Borm, S.V., A. Buschinger, J. J. Boomsma and J. Billen. 2002. Tetraponera ants have gut symbionts related to nitrogen-fixing root-nodule bacteria. Biological Sciences. 269:2023-2027.
Ward, P.S. 2001. Taxonomy, phylogeny and biogeography of the ant genus Tetraponera (Hymenoptera:Formicidae) in the Oriental and Australian regions Invertebrate Taxonomy. 15:589:665.
Dejean, A., J. Orivel and C. Djieto-Lordon. 2008. The plant ant Tetraponera aethiops (Pseudomyrmecinae) protects its host myrmecophyte Barteria fistulosa (Passifloraceae) through aggressiveness and predation. 93:63-69.
Australian Biological Resources and Study: Australian Faunal Directory. http://www.environment.gov.au/biodiversity/abrs/online-resources/fauna/afd/taxa/Tetraponera

External links[]

Media related to Tetraponera at Wikimedia Commons
Data related to Tetraponera at Wikispecies

[AntCat-1] Bolton, B. (2014). "Tetraponera". AntCat. Retrieved 17 July 2014.

[Young-2] Young, T.P.; Cynthia H. Stubblefield; Lynne A. Isbell (December 1996). "Ants on swollen-thorn acacias: species coexistence in a simple system". Oecologia. 109 (1): 98–107. doi:10.1007/s004420050063. PMID 28307618. S2CID 26354370.

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