Trigona

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Trigona
Irapua - REFON.jpg
Trigona spinipes
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Apidae
Tribe: Meliponini
Genus: Trigona
Jurine, 1807
Subgenera

Duckeola
Frieseomelitta
Geotrigona
Tetragona
Tetragonisca
Trigona

Contents

Arboreal nest in Guatemala Arboreal stingless bee nest (Trigona sp.) Flores.jpg
Arboreal nest in Guatemala

Trigona is one of the largest genera of stingless bees, comprising about 32 species, [1] exclusively occurring in the New World, and formerly including many more subgenera than the present assemblage; many of these former subgenera have been elevated to generic status. [2]

Range

Trigona species occur throughout the Neotropical region, including South and Central America, the Mexican lowlands, and the Caribbean islands. They can occur in forests, savannas, and man made environments. Trigona bees are active all year round, although they are less active in cool environments. [2]

Nest of stingless bee of genus Trigona, in traditional modular brazilian north-east style box. Only one part of the box is open. Multiple small honey pots are well visible in the foreground. Trigona caixa nordestina.jpg
Nest of stingless bee of genus Trigona, in traditional modular brazilian north-east style box. Only one part of the box is open. Multiple small honey pots are well visible in the foreground.

Nesting

Trigona nests are constructed from wax they produce and plant resins they collect. They usually nest in tree cavities and underground. [1] [2] [3]

Vulture bees

Vulture bees comprise three Trigona species, and are the only bees known to be scavengers. These bees collect and feed on dead animal flesh.

Communication

Some species of Trigona bees use saliva to lay scent trails guiding nest mates to a food source. [4] Some species of Trigona use eavesdropping which help them detect food sources being exploited by competitors. [5]

Selected species

Related Research Articles

<span class="mw-page-title-main">Apidae</span> Taxonomic family that includes honey bees (sting or stingless), bumble bees and orchid bees

Apidae is the largest family within the superfamily Apoidea, containing at least 5700 species of bees. The family includes some of the most commonly seen bees, including bumblebees and honey bees, but also includes stingless bees, carpenter bees, orchid bees, cuckoo bees, and a number of other less widely known groups. Many are valuable pollinators in natural habitats and for agricultural crops.

<span class="mw-page-title-main">Stingless bee</span> Bee tribe, reduced stingers, strong bites

Stingless bees (SB), sometimes called stingless honey bees or simply meliponines, are a large group of bees (from about 462 to 552 described species), comprising the tribe Meliponini (or subtribe Meliponina according to other authors). They belong in the family Apidae (subfamily Apinae), and are closely related to common honey bees (HB, tribe Apini), orchid bees (tribe Euglossini), and bumblebees (tribe Bombini). These four bee tribes belong to the corbiculate bees monophyletic group. Meliponines have stingers, but they are highly reduced and cannot be used for defense, though these bees exhibit other defensive behaviors and mechanisms. Meliponines are not the only type of bee incapable of stinging: all male bees and many female bees of several other families, such as Andrenidae and Megachilidae (tribe Dioxyini), also cannot sting.

Vulture bees, also known as carrion bees, are a small group of three closely related South American stingless bee species in the genus Trigona which feed on rotting meat. Some vulture bees produce a substance similar to royal jelly which is not derived from nectar, but rather from protein-rich secretions of the bees' hypopharyngeal glands. These secretions are likely derived from the bees' diet, which consists of carrion eaten outside the nest, and resulted in the belief that they produce what is known as "meat honey". This unusual behavior was only discovered in 1982, nearly two centuries after the bees were first classified.

Trigona hypogea is a species of stingless bee from the Neotropics; it is unusual in that it is one of only three known species of bee that exclusively uses carrion as a protein source, rather than pollen, earning it the nickname "vulture bee".

<i>Euglossa</i> Genus of bees

Euglossa is a genus of orchid bees (Euglossini). Like all their close relatives, they are native to the Neotropics; an introduced population exists in Florida. They are typically bright metallic blue, green, coppery, or golden.

<i>Aglae</i> Genus of bees

Aglae is a genus of euglossine bees, with the only described species Aglae caerulea. Like all orchid bees, it is restricted to the Neotropics. They are metallic blue. This species, like the genus Exaerete, is a nest parasite on free-living Euglossini. A. caerulea lays its eggs in the nests of Eulaema nigrita, and possibly other Eulaema species.

<i>Tetragonula carbonaria</i> Species of bee

Tetragonula carbonaria is a stingless bee, endemic to the north-east coast of Australia. Its common name is sugarbag bee. They are also occasionally referred to as bush bees. The bee is known to pollinate orchid species, such as Dendrobium lichenastrum, D. toressae, and D. speciosum. It has been identified as an insect that collects pollen from the cycad Cycas media. They are also known for their small body size, reduced wing venation, and highly developed social structure comparable to honey bees.

<i>Trigona spinipes</i> Species of bee

Trigona spinipes is a species of stingless bee. It occurs in Brazil, where it is called arapuá, aripuá, irapuá, japurá or abelha-cachorro ("dog-bee"). The species name means "spiny feet" in Latin. Trigona spinipes builds its nest on trees, out of mud, resin, wax, and assorted debris, including dung. Therefore, its honey is not fit for consumption, even though it is reputed to be of good quality by itself, and is used in folk medicine. Colonies may have from 5,000 to over 100,000 workers.

<i>Tetragonisca angustula</i> Species of bee

Tetragonisca angustula is a small eusocial stingless bee found in México, Central and South America. It is known by a variety of names in different regions. A subspecies, Tetragonisca angustula fiebrigi, occupies different areas in South America and has a slightly different coloration.

<i>Tetragonula iridipennis</i> Species of bee

The Indian stingless bee or dammar bee, Tetragonula iridipennis, is a species of bee belonging to the family Apidae, subfamily Apinae. It was first described by Frederick Smith in 1854 who found the species in what is now the island of Sri Lanka. Many older references erroneously placed this species in Melipona, an unrelated genus from the New World, and until recently it was placed in Trigona, therefore still often mistakenly referred to as Trigona iridipennis. For centuries, colonies of T. iridipennis have been kept in objects such as clay pots so that their highly prized medicinal honey can be utilized.

<i>Trigona corvina</i> Species of bee

Trigona corvina is a species of stingless bee that lives primarily in Central and South America. In Panama, they are sometimes known as zagañas. They live in protective nests high in the trees, but they can be extremely aggressive and territorial over their resources. They use their pheromones to protect their food sources and to signal their location to nest mates. This black stingless bees of the tribe Meliponini can be parasitic toward citrus trees but also helpful for crop pollination.

<i>Nannotrigona testaceicornis</i> Species of bee

Nannotrigona testaceicornis is a eusocial stingless bee species of the order Hymenoptera and the genus Nannotrigona. Its local common name is abelhas iraí. This species has a large geographic distribution and occupies different biomes, including urban areas, around Neotropical America. The bees of this species nest in trees or artificial cavities because of this broad distribution. N. testaceicornis is important for agriculture because it will pollinate a vast number of plant species year round.

<i>Melipona quadrifasciata</i> Species of bee

Melipona quadrifasciata is a species of eusocial, stingless bee of the order Hymenoptera. It is native to the southeastern coastal states of Brazil, where it is more commonly known as mandaçaia, which means "beautiful guard," as there is always a bee at the narrow entrance of the nest. M. quadrifasciata constructs mud hives in the hollows of trees to create thin passages that only allow one bee to pass at a time. Because they are stingless bees, M. quadrifasciata is often used as pollinators in greenhouses, outperforming honey bees in efficiency and leading to overall larger yields of fruits that were heavier, larger, and contained more seeds.

<i>Tetragonula hockingsi</i> Species of bee

Tetragonula hockingsi is a small stingless bee native to Australia. It is found primarily in Queensland. The colonies can get quite large, with up to 10,000 workers and a single queen. Workers of Tetragonula hockingsi have been observed in fatal fights with other Tetragonula species, where the worker bees risk their lives for the potential benefit of scarce resources.

<i>Tetragonula</i> Genus of bees

Tetragonula is a genus of stingless bees. In 1961, Brazilian bee expert J.S. Moure first proposed the genus name Tetragonula to improve the classification system by dividing the large genus Trigona stingless bees into 9 smaller groups. About 30 stingless bee species formerly placed in the genus Trigona are now placed in the genus Tetragonula. These bees are found in Oceania, in countries such as Australia, Indonesia, New Guinea, Malaysia, Thailand, the Philippines, India, Sri Lanka, and the Solomon Islands. The most recent tabulation of species listed 31 species.

<i>Trigona fuscipennis</i> Species of bee

Trigona fuscipennis is a stingless bee species that originates in Mexico but is also found in Central and South America. They are an advanced eusocial group of bees and play a key role as pollinators in wet rainforests. The species has many common names, including mapaitero, sanharó, abelha-brava, xnuk, k'uris-kab, enreda, corta-cabelo, currunchos, zagaño, and enredapelos.

<i>Trigona fulviventris</i> Species of bee

Trigona fulviventris, known by the common names culo-de-vaca, culo-de-señora, mu'ul-kab, culo-de-buey, and culo-de-vieja, is a species of stingless bee found in Mexico and neotropical regions of Central and South America. It is one of the largest and most widespread bees of its genus. They exhibit complex foraging behaviors by integrating spatio-temporal learning and flower scents. T. fulviventris has traditionally been observed to abstain from aggressive behavior with other species; however, more recent analyses have shown that T. fulviventris emit pheromones that act as attack signals particularly when related individuals are captured by predators.

<i>Lestrimelitta limao</i> Species of bee

Lestrimelitta limao is a neotropical eusocial bee species found in Brazil and Panama and is part of the Apidae family. It is a species of stingless bees that practices obligate nest robbing. They have never been spotted foraging from flowers, an observation that supports their raiding behavior. Because of their lack of hind corbiculae, they must raid to obtain enough protein in their diet in the form of pollen and nectar. Lestrimelitta limao secrete a lemon-scented alarm allomone, from which they receive their name, in order to conduct successful raids. L. limao are hypothesized to produce poisonous honey that is toxic if consumed by humans. Because robber bees are so rare and difficult to observe, there is a limited scope of information available.

<i>Austroplebeia</i> Genus of insects

Austroplebeia is a stingless bee (Meliponini) genus in the family Apidae. The genus was erected by Jesus Santiago Moure in 1961. The genus comprises five described species endemic to Australia and New Guinea. Austroplebeia are more closely related to the African stingless bees than rest of the species found in Asia and Australia.

Trigona branneri is a species of eusocial stingless bee in the family Apidae and tribe Meliponini.

References

  1. 1 2 Grüter, Christoph (2020). Stingless Bees: Their Behaviour, Ecology and Evolution . Fascinating Life Sciences. Springer New York. doi:10.1007/978-3-030-60090-7. ISBN   978-3-030-60089-1. S2CID   227250633.
  2. 1 2 3 Michener, C.D. (2000). The Bees of the World. Johns Hopkins University Press
  3. Roubik, D W. (2006). "Stingless bee nesting biology". Apidologie. 37 (2): 124–143. doi: 10.1051/apido:2006026 .
  4. Schorkopf, Dirk Louis P.; Jarau, Stefan; Francke, Wittko; Twele, Robert; Zucchi, Ronaldo; Hrncir, Michael; Schmidt, Veronika M.; Ayasse, Manfred; Barth, Friedrich G. (2007-03-22). "Spitting out information: Trigona bees deposit saliva to signal resource locations". Proceedings of the Royal Society of London B: Biological Sciences. 274 (1611): 895–899. doi:10.1098/rspb.2006.3766. ISSN   0962-8452. PMC   2093984 . PMID   17251108.
  5. Nieh, James C.; Barreto, Lillian S.; Contrera, Felipe A. L.; Imperatriz–Fonseca, Vera L. (2004-08-07). "Olfactory eavesdropping by a competitively foraging stingless bee, Trigona spinipes". Proceedings of the Royal Society of London B: Biological Sciences. 271 (1548): 1633–1640. doi:10.1098/rspb.2004.2717. ISSN   0962-8452. PMC   1691773 . PMID   15306311.
  6. 1 2 3 4 Kleber França Costa; Rute Magalhães Brito; Carlos Suetoshi Miyazawa (2004). "Karyotypic description of four species of Trigona (Jurine, 1807) (Hymenoptera, Apidae, Meliponini) from the State of Mato Grosso, Brazil" (PDF). Genetics and Molecular Biology. 27 (2): 187–190. doi: 10.1590/s1415-47572004000200010 .
  7. Michener, Charles D. (1946-09-01). "Notes on the Habits of Some Panamanian Stingless Bees (Hymenoptera, Apidae)". Journal of the New York Entomological Society. 54 (3): 179–197. JSTOR   25005167.
  8. 1 2 Tarelho* Trigona fulviventris —Mexico, Z. V. S. (1973). Contribuição ao estudo citogenético dos Apoidea (masters thesis). University of São Paulo, Ribeirão Preto.
  9. Brito and Pompolo (1997). "C:G patterns and fluorochrome staining with DAPI and CMA3, in Trigona spinipes (Jurine, 1807) (Hymenoptera, Apidae, Meliponinae)". Brazilian Journal of Genetics.
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