Chaoborus
Aquatic larvae (above) and winged adult (below)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Family: Chaoboridae
Genus: Chaoborus
Lichtenstein, 1800
Synonyms

Sayomyia Coquillett, 1903

Chaoborus is a genus of midges in the family Chaoboridae. The larvae are known as glassworms because they are transparent. They can be found commonly in lakes all over the world and can be up to 2 cm (0.8 in). The adults are sometimes called phantom midges or lake flies.[1]

Appearance

Glassworms are almost entirely transparent, except for pairs of black kidney-shaped structures in the front and the back of the body. These dots are the air sacs. They use these air sacs to migrate up and down in lakes. Glassworms breathe through the end of their abdomen and have two small eyes at the front of their bodies.

Behavior

Chaoborus adults do not bite mammals or suck blood. Larvae live in open waters and even sediments, where there may be little oxygen for them to breathe. In some lakes they can be found as deep as 70 m (230 ft). In these deep anoxic waters they can avoid predation more easily than near the surface. They get around the fact that a normal air filled invertebrate tracheal system would fail at these depths by having it reduced to just two air sacs.[2] They are predaceous, and catch their prey with their modified prehensile antennae. They look somewhat like mosquito larvae, on which they prey and frequently destroy in large numbers. Chaoborus are considered opportunistic eaters, as their main diet consists of copepods and cladocerans, though they are believed to prefer copepods. However, they tend to select whatever prey enters its strike zone as it is not known for chasing prey. Prey selection also varies between species as head and mandible size dictate maximum prey size.[3]

Huge swarms of Chaoborus edulis, resembling distant plumes of smoke over Lake Malawi's water

Their main predator is fish, which can cause a behavioral response due to light factors influenced by their presence. This fish factor causes an increase in the average depth the individuals can be found. This vertical migration behavior is believed to be a chemical reaction, rather than a visual or mechanical.[4] In the African Great Lakes of Malawi and Victoria (but not Tanganyika where this genus is absent, perhaps because of chemical factors[5]), huge swarms of Chaoborus midges occur and are collected by local people to make kungu cakes, biscuits or burgers, a local delicacy rich in protein.[6][7][8] David Livingstone (1865) claimed that they "tasted not unlike caviare".[6]

Life cycle

Chaoborus spends the majority of its life in the larval stage. In this larval stage, there are 4 growth instars before reaching adulthood. Most Chaoborus species are univoltine, or live for only one year, though some populations have been recorded as having a two-year generation time. Timing of pupation depends on local environmental conditions, though generally occurs after any ice has thawed and temperatures in the water begin to rise again.[9]

Collection

The simplest way to collect glassworms is by a plankton net.[10] They can be found in almost all water, but most abound in fish-free quarry ponds during winter. Glassworms are very easy to store if the water is kept cold and aerated. They are very tolerant to bad water conditions, including chlorine. They are sometimes collected and sold as fish food.[11]

Species

These 44 species belong to the genus Chaoborus:

  • Chaoborus albatus Johnson, 1921 i g b
  • Chaoborus americanus (Johannsen, 1903) i c g
  • Chaoborus annandalei Edwards, 1930 c g
  • Chaoborus anomalus Edwards, 1930 c g
  • Chaoborus antillum Knab, 1913 c g
  • Chaoborus asiaticus (Giles, 1901) c g
  • Chaoborus astictopus Dyar & Shannon, 1924 i c g b (clear lake gnat)
  • Chaoborus australis Sahnnon & Ponte, 1928 c g
  • Chaoborus bolviensis Lane & Heredia, 1956 c g
  • Chaoborus brasiliensis (Theobald, 1901) c g
  • Chaoborus brevisector Edwards, 1930 c g
  • Chaoborus ceratopogones (Theobald, 1903) c g
  • Chaoborus cooki Saether, 1970 i c g b
  • Chaoborus cornfordii (Theobald, 1903) c g
  • Chaoborus crystallinus (De Geer, 1776) i c g
  • Chaoborus depereti Meunier, 1915 c g
  • Chaoborus edulis Edwards, 1930 c g
  • Chaoborus elnorae Shannon & Ponte, 1928 c g
  • Chaoborus festivus Dyar & Shannon, 1924 i c g b
  • Chaoborus flavicans (Meigen, 1830) i c g b
  • Chaoborus flavidulus Edwards, 1930 c g
  • Chaoborus freemani Verbeke, 1958 c g
  • Chaoborus fryeri Verbeke, 1958 c g
  • Chaoborus fuscinervis Edwards, 1930 c g
  • Chaoborus indicus (Giles, 1904) c g
  • Chaoborus longicercus Colless, 1986 c g
  • Chaoborus maculipes Stone, 1965 i c g b
  • Chaoborus magnificus Lane, 1942 c g
  • Chaoborus manilensis (Schiner, 1868) c g
  • Chaoborus microstictus Edwards, 1930 c g
  • Chaoborus nyblaei (Zetterstedt, 1838) c g
  • Chaoborus obscuripes (Wulp, 1859) i c g
  • Chaoborus ornatipennis Colless, 1986 c g
  • Chaoborus pallidipes (Theobald, 1911) c g
  • Chaoborus pallidus (Fabricius, 1781) c g
  • Chaoborus punctilliger Colless, 1986 c g
  • Chaoborus punctipennis (Say, 1823) i c g b
  • Chaoborus queenslandensis (Theobald, 1905) c g
  • Chaoborus sampsera Ogawa & Judd, 2008 c g
  • Chaoborus souzai Lane, 1939 c g
  • Chaoborus stonei Lane, 1942 c g
  • Chaoborus trivittatus (Loew, 1862) i c g b
  • Chaoborus unicolor Lane, 1942 c g
  • Chaoborus vagus Colless, 1986 c g

Data sources: i = ITIS,[12] c = Catalogue of Life,[13] g = GBIF,[14] b = Bugguide.net[15]

References

  1. Lehman; Halat; Betz; Ndawula; and Kiggundu (1998). Secondary Production by the Lake Fly Chaoborus in Lake Victoria, East Africa: Implications for Trophic Dynamics of the Modern Lake. Environmental Change and Response in East African Lakes Volume 79. Monographiae Biologicae, pp. 135-145.
  2. Maddrell, S.H.P. (1998). Why are there no insects in the open sea? Journal of Experimental Biology 201: 2461-2464. Online.
  3. Swift, M.C. and A.Y. Fedorenko. (1975). Some aspects of prey capture by Chaoborus larvae. Limnology and Oceanography 20:418-425. .
  4. Widbom, B. and R. Elmgren. (1988). Vertical migration of Chaoborus larvae is induced by the presence of fish. Limnology and Oceanography 35:1631-1637. .
  5. Eccles, D.H. (1985). Lake flies and sardines—A cautionary note. Biological Conservation 33(4): 309–333. doi:10.1016/0006-3207(85)90074-6
  6. 1 2 Morris, B. (2004). Insects and Human Life, pp. 73—76. ISBN 1-84520-075-6
  7. van Huis, A.; H. van Gurp; and M. Dicke (2012). The Insect Cookbook: Food for a Sustainable Planet, p. 31. ISBN 978-0-231-16684-3
  8. Ayieko; and Oriaro (2008). Consumption, indigenous knowledge and cultural values of the lakefly species within the Lake Victoria region. African Journal of Environmental Science and Technology 2(10): 282—286.
  9. Von Ende, Carl N. (1982). Phenology of four Chaoborus species. Environmental Entomology 11:9-15. .
  10. LOUETTE, GERALD; DE MEESTER, LUC; DECLERCK, STEVEN (July 2008). "Assembly of zooplankton communities in newly created ponds". Freshwater Biology: –––. doi:10.1111/j.1365-2427.2008.02052.x. ISSN 0046-5070.
  11. Goldstein, Robert Jay; Harper, Rodney W.; Edwards, Richard (2000). American Aquarium Fishes. Texas A&M University Press. p. 50. ISBN 978-0-89096-880-2.
  12. "Chaoborus Report". Integrated Taxonomic Information System. Retrieved 2018-04-22.
  13. "Browse Chaoborus". Catalogue of Life. Retrieved 2018-04-22.
  14. "Chaoborus". GBIF. Retrieved 2018-04-22.
  15. "Chaoborus Genus Information". BugGuide.net. Retrieved 2018-04-22.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.