Tetragonula iridipennis

Tetragonula iridipennis
A hive of Tetrogonula iridipennis
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Hexapoda
Class: Insecta
Order: Hymenoptera
Family: Apidae
Subfamily: Apinae
Genus: Tetragonula
Species: T. iridipennis
Binomial name
Tetragonula iridipennis
(Smith, 1854)
It is found in India, Sri Lanks, and Indonesia
Synonyms
  • Trigona iridipennis Smith, 1854
  • Trigona (Tetragonula) iridipennis Smith, 1854
  • Trigona (Heterotrigona) iridipennis Smith, 1854[1]
  • Melipona iridipennis Auctt.

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.[2] Many older references erroneously placed this species in Melipona, an unrelated genus from the New World,[3] 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.[2]

Taxonomy and phylogenetics

Tetragonula iridipennis belongs to the complex genus of stingless bees Tetragonula which contains more than 30 described species from the Indian subcontinent. Until recently, all species in the group were treated as belonging to the single genus "Trigona". Tetragonula iridipennis belongs to the smaller Iridipennis species group which includes four primary species: Tetragonula iridipennis, Tetragonula praeterita, Tetragonula ruficornis, and Tetragonula bengalensis. These four species were proposed in the 19th century and were poorly characterized. They have since not been directly compared via molecular studies; therefore there is uncertainty about whether they are in fact separate species.[2]

Description and identification

Like other bees in its sub-species group, T. iridipennis can be identified by its dark mesoscutum or middle thorax region with four distinct hair bands separated by broad glaborous interspaces. It can be further distinguished from other species in its sub group by its chestnut-brown colored mandible which does not have a black apical area and a few dark brown erect setae or hair-like structures on the margin of its scutelum. Other species in the subgroup have yellow mandibles which have black apical areas and have light colored setae on their scutelums.[2] Based on studies of workers, T. indipennis has a total body length ranging from 3.5-4.0 mm and an entire body which is black to blackish brown. Size differences as well as male genitalia are key for identifying the species. They are relatively small sized bees and the male penis valve is very robust and tapers only at the apex. Male genitalia are also key to differentiating between male and female bees because the two sexes are very similar in size and color.[4]

Distribution and habitat

T. iridipennis is a tropical bee species and is found throughout the Indo-Malay region. Its range was once thought to go as far as the Solomon and Caroline islands, but unlike other Tetragonula species, its range is fairly limited.[4][5] Although it was originally discovered on the island of Sri Lanka, it is predominantly found in India. Specifically, studies have been conducted on T. iridipennis colonies located in Karnataka, Kerala, and Tamil Nadu.[6] T. iridipennis also occurs on the islands of Indonesia where it is a natural pollinator.[7]

Colony cycle

As with other highly eusocial bee species, T. iridipennis colonies are founded by swarming. However, this process is different for stingless bees like T. iridipennis and honey bees. In honeybees, the process is abrupt and a large group of workers leaves the original colony with the old queen, thus few connections are maintained between the old and the new colonies. The process is more gradual for stingless bees such as T. iridepennis. First scout workers from the original nest find a new nest site and gradually transport resources there from the mother colony. A virgin queen from the mother colony then arrives usually accompanied by a mass of workers. It is only after several days to half a year that relations between the mother and daughter colonies are severed.[8]

Behavior

Mating behavior

Like males in other stingless bee species, there is tremendous competition between T. iridipennis males to copulate with virgin queens. Males have been observed to form large aggregations and to engage in mass flights near nests waiting for the emergence of virgin females.[5] Once a virgin queen emerges, it pairs with one of the males and a mating flight ensues, resulting in the fertilization of the queen.

Life history

Males

While no detailed studies have been done on colony composition of T. iridipennis nests, in keeping with other stingless bee species, it is expected that the total number of males produced per colony is lower than that of workers. In some tropical species, male stingless bees stay for an extended time in nests. They then leave the nests and form aggregations.[5]

Camouflage

Nest

Common nesting sites include tree trunks, logs and wall cavities. The nests are relatively low to the ground and are constructed at heights between 1.93 meters and 2.2 meters from the ground.[9] Nests tend to be dark brown in color in order to blend in with their surroundings. The Indian tree species C. sphaerica appears to be an important nest provider for T. iridipennis.[10]

Interactions with other species

Diet

T. iridipennis collects honey and nectar from many herbal plants such as the coco palm and the Jackfruit tree.[11] They also collect sap from tree species such as Cycas sphaerica.[10]

Tetragonula iridipennis feeds on the nectar of the Jack fruit tree

Predators

The centipede species Scolopendra hardwickei is a specialized predator for stingless bee species like T. iridipennis.[12] Predators like spiders, flies, wasps, and lizards are also a constant threat to T. iridipennis colonies because they invade nests to eat their rich honey stores. T. iridipennis defends against these predators by preventing access to its nest. It seals pores of the hive with a substance created by mixing its own salivary gland secretions with plant-derived resins. This substance called propolis also has favorable mechanical properties and is used by T. iridipennis to protect its nest from wind and rain.[11]

Human importance

Agriculture

While they are currently not widely utilized as agricultural pollinators in South Asia, a study by Ramadhani et al. indicates that T. iridipennis can potentially be applied as pollinator agents for tomato farming as opposed to non-native honey bees such as the European honey bee (Apis mellifera L.) While they were shown to exhibit lower pollination efficiency, fruit sizes were not significantly affected. In addition, their low price and their harmlessness make them ideal candidates for low income farmers or those concerned about the safety risk associated with stinging honey bees.[7].[7]

Medicinal honey

T. iridipennis stores its honey in pots which are within a food storage zone of the nest. The food storage zone contains a honey storage pot and a pollen storage pot, but these are often intermixed.[9] The honey of T. iridipennis is a rich source of antioxidant flavanoids. This is because workers collect honey from medicinally important herbal plants and flowers. The quantity of honey produced is a relatively small 600-700 grams per year.[11] A study which compared the composition of T. iridipennis honey to those of other Indian bee species found the honey of T. iridipennis to have among the highest amounts of flavonoids and flavonols and displayed relatively high Nitric Oxide scavenging activity.[13]

Propolis

Tetragonula iridipennis propolis has notable pharmocological properties

While T. iridipennis gathers propolis to reinforce its nest, people have harvested it and discovered it to have a wide spectrum of pharmacological activities. Propolis exhibits notable antibacterial and antiviral properties.[10][11] The pharmacological properties of propolis are dependent on a variety of factors including plants visited by the T. iridipennis hive and the amount of pollution present in their environment. A study by Kothai et. al. showed that T. iridipennis hives in highly polluted environments collected propolis which exhibited markedly reduced activity against various gram positive and gram negative bacteria.[11]

References

  1. http://www.discoverlife.org/mp/20q?search=Tetragonula+iridipennis
  2. 1 2 3 4 Rasmussen, Claus (2013-05-10). "Stingless bees (Hymenoptera: Apidae: Meliponini) of the Indian subcontinent: Diversity, taxonomy and current status of knowledge". Zootaxa 3647 (3): 401–428. doi:10.11646/zootaxa.3647.3.1. ISSN 1175-5334.
  3. Rahman, Khan A. S. Singh. 1940. Beekeeping in India. Indian Farming 1: 10-17
  4. 1 2 Vijayakumar, K.; Jeyaraaj, R. "Taxonomic notes on stingless bee Trigona (Tetragonula) iridipennis Smith (Hymenoptera: Apidae) from India". Journal of Threatened Taxa 6 (11): 6480–6484. doi:10.11609/jott.o3773.6480-4.
  5. 1 2 3 F., SAKAGAMI, Shôichi. "Tetragonula Stingless Bees of the Continental Asia and Sri Lanka (Hymenoptera, Apidae) (With 124 Text-figures, 1 Plate and 36 Tables)". hdl.handle.net. Retrieved 2015-10-16.
  6. Danaraddi, C.S. (2009). "Morphological studies on the stingless bee, Trigona iridipennis Smith". Journal of Agricultural Science.
  7. 1 2 3 Putra, Ramadhani Eka; Kinasih, Ida. "Efficiency of Local Indonesia Honey Bees (Apis cerana L.) and Stingless Bee (Trigona iridipennis) on Tomato (Lycopersicon esculentum Mill.) Pollination". Pakistan Journal of Biological Sciences 17 (1): 86–91. doi:10.3923/pjbs.2014.86.91.
  8. Inoue, Tamiji; Sakagami, Shoichi F.; Salmah, Siti; Yamane, Soichi (1984-06-01). "The Process of Colony Multiplication in the Sumatran Stingless Bee Trigona (Tetragonula) laeviceps". Biotropica 16 (2): 100–111. doi:10.2307/2387841.
  9. 1 2 Danaraddi, C. S.; Viraktamath, Shashidhar; Basavanagoud, K.; Bhat, A. R. S. "Nesting habits and nest structure of stingless bee, Trigona iridipennis Smith at Dharwad, Karnataka". Karnataka Journal of Agricultural Sciences 22 (2).
  10. 1 2 3 S., Raju, A. J.; S., Rao, K.; G., Rao, N. "Association of Indian Stingless Bee, Trigona iridipennis Smith (Apidae: Meliponinae) with Red-listed Cycas sphaerica Roxb. (Cycadaceae).". www.cabdirect.org. Retrieved 2015-10-16.
  11. 1 2 3 4 5 Kothai, S. (2015). "Environmental Impact on Stingless Bee Propolis (Tetragonula iridipennis) Reared from Two Different Regions of Tamilnadu - A Comparative Study". International Journal of ChemTech Research.
  12. Vijayakumar, K. (2012). "Predation of stingless bees (Trigona iridipennis: Apidae, Meliponinae) by centipede (Scolopendra hardiwicki: Chilopoda: Scolopendramorpha)". International Journal of Advanced Life Sciences.
  13. "Phytochemical screening and antioxidant activity of different bee honeys - Journal of Medicinal Herbs and Ethnomedicine - ScopeMed.org - Online Journal Management System". www.scopemed.org. Retrieved 2015-10-16.

External links

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