Chironomus riparius

Chironomus riparius
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insect
Order: Diptera
Family: Chironomidae
Genus: Chironomus
Meigen, 1803
Species: C. riparius
Binomial name
Chironomus riparius
(Meigen, 1804)
Synonyms
  • Chironomus thummi (Kieffer 1911)

Chironomus riparius, also known as Chironomus thummi and commonly known as the harlequin fly, is a species of non-biting midge. Their larvae are known by the common name of blood worm due to their red colouration. It is common in both North America and Europe. The species was described in 1804 by Johann Wilhelm Meigen.C. riparius has been used extensively as a model for genome structure analysis in insects and is also used in toxicology tests and functional developmental genetic studies. Both their adult and larval forms have been implicated as disease vectors but are also an important part of freshwater food chains.

Taxonomy

German naturalist Johann Wilhelm Meigen named the genus Chironomus in 1803 [1] and described the harlequin fly species in 1804 as Chironomus riparius.[2]

Description

Harlequin flies are small dipterans which resemble mosquitoes.[3]

Life cycle

Eggs are laid in or near the water.[3] Larvae are red due to a large amount of haemoglobin in their blood, which leads to their common name of blood worms.[3][4] The larvae use this haemoglobin as an oxygen store, allowing them to survive in low oxygen conditions such as at the bottom of a lake or in areas with high organic pollution.[4] Larvae build chimneys to live in and protect them from hypoxia until they are ready to become adults.[5] Adults live for only a short period of two or three days. Males form a large mating swarm which the females fly into to select a mate to breed.[3][4]

Distribution and habitat

The harlequin fly is found in North America, primarily on the east coast but often also found in southern Alaska and throughout northern Europe, ranging from as far north as northern Scotland to southern Germany.[6]

Predation

Larvae are predated upon by many other species of insect and also by fish.[4]

Use in genetic experimentation

Chironomus riparius are easy to maintain in a laboratory environment and has been used extensively as a model for genome structure analysis in insects and is also used in toxicology tests and functional developmental genetic studies.[7]

Disease vector

Both their adult and larval forms have been implicated as disease vectors. As they tend to emerge in large numbers, they have been reported to cause pest problems. During development the flies’ discarded exoskeleton fragments and the particulate can accumulate in settlements close to the lakes and rivers where the flies reside. This particulate, combined with particles from the decomposing bodies of the swarms of flies, can cause conjunctivitis, rhinitis and asthma by inhalation.[3]

References

  1. "Taxon: Genus Chironomus". http://taxonomicon.taxonomy.nl''. Retrieved 30 January 2015.
  2. "C. riparius overview". http://eol.org''. Retrieved 30 January 2015.
  3. 3.0 3.1 3.2 3.3 3.4 "Blood worm". http://www.thermoscientific.com/en/home.html''. Retrieved 30 January 2015.
  4. 4.0 4.1 4.2 4.3 "Family Chironomidae". http://lakes.chebucto.org/ZOOBENTH/BENTHOS/benthos.html''. Retrieved 30 January 2015.
  5. Stief, Peter; Nazarova, Larisa; de Beer, Dirk (2005). "Chimney Construction by Chironomus riparius larvae in response to hypoxia: microbial implications for freshwater sediments". The North American Benthological Society (The North American Benthological Society). Retrieved 30 January 2015.
  6. "C. riparius range". http://eol.org''. Retrieved 30 January 2015.
  7. "Chironomus riparius (Chironomidae)". http://schmidt-ottlab.uchicago.edu/''. Retrieved 20 January 2015.