Biology:Drosophilidae

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Short description: Family of flies

Drosophilidae
Lordiphosa andalusiaca.jpg
Lordiphosa andalusiaca
Scientific classification e
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Diptera
Superfamily: Ephydroidea
Family: Drosophilidae
Rondani, 1856
Subfamily

The Drosophilidae are a diverse, cosmopolitan family of flies, which includes species called fruit flies, although they are more accurately referred to as vinegar or pomace flies.[1] Another distantly related family of flies, Tephritidae, are true fruit flies because they are frugivorous, and include apple maggot flies and many pests. The best known species of the Drosophilidae is Drosophila melanogaster, within the genus Drosophila, also called the "fruit fly." Drosophila melanogaster is used extensively for studies concerning genetics, development, physiology, ecology and behaviour. Many fundamental biological mechanisms were discovered first in D. melanogaster.[2] The fruit fly is mostly composed of post-mitotic cells, has a very short lifespan, and shows gradual aging. As in other species, temperature influences the life history of the animal. Several genes have been identified that can be manipulated to extend the lifespan of these insects. Additionally, Drosophila subobscura, also within the genus Drosophila, has been reputed as a model organism for evolutionary-biological studies,[3] along with D. sechellia for the evolution of host specialization on the toxic noni fruit[4] and Scaptomyza flava for the evolution of herbivory and specialist on toxic mustard leaves.[5]

Economic significance

Generally, drosophilids are considered to be nuisance flies rather than pests, since most species breed in rotting material. Zaprionus indianus is unusual among Drosophilidae species in being a serious, primary pest of at least one commercial fruit, figs in Brazil.[6] Another species, Drosophila suzukii, infests thin-skinned fruit such as raspberries and cherries and can be a serious agricultural pest.[7] The leaf mining Scaptomyza flava, which is nested in the genus Drosophila phylogenetically, is an obligate leaf miner of mustard plants, including the model plant Arabidopsis thaliana[5] and is a major pest of salad brassicas in New Zealand and an emerging pest of canola in the UK.[8] Drosophila repleta larvae inhabit drains and spread bacteria. Fruit flies in general are considered as a common vector in propagating acetic acid bacteria[9] in nature. This often ruins the alcohol fermentation process and can ruin beer or wine by turning it into vinegar. There are sinking traps available on the market for this nuisance, but one quick way to strongly limit the extent of it is to vacuum clean the flies both at rest and in their slow flight.

Identification

The diagnostic characteristics for Drosophilidae include the presence of an incomplete subcostal vein, two breaks in the costal vein, a small anal cell in the wing, convergent postocellar bristles; and usually three frontal bristles on each side of the head, one directed forward and the other two directed rearward. More extensive identification characteristics can be found in "Drosophila: A Guide to Species Identification and Use" by Therese A. Markow and Patrick O'Grady, (Academic Press, 2005) ISBN:0-12-473052-3 or "Drosophila: A Laboratory Handbook" by M. Ashburner, K. Golic, S. Hawley, (Cold Spring Harbor Laboratory Press, 2005).

Anti-parasitic behavior

Of their many defenses against parasites, when Drosophila melanogaster flies see female larval endoparasitoid wasps, they switch to laying their eggs in alcohol-laden food sources such as rotting fruit. Doing so protects the flies from becoming host to the larvae, as the wasps have a low alcohol tolerance. This oviposition behavior change only occurs upon seeing the female wasp larva and does not take place in the presence of the male wasp larva.[10]

Mutualism

There is evidence to support that pathogens living within certain flies are beneficial to the behavior and survival of the host. One such example of this is in the fly Scaptomyza flava, which carries the pathogen Pseudomonas syringae in exchange for the pathogen damaging the anti-herbivore defenses of main food source for the fly, plants in the family Brassicaceae.[11]

Phylogeny

The family contains more than 4,000 species classified under 75 genera. Recently, a comprehensive phylogenetic classification of the genera based on both molecular and morphological characters has been published.[12]

  • Subfamily Drosophilinae Rondani, 1856:
    • Tribe Colocasiomyini Okada, 1989:
      • Genus Baeodrosophila Wheeler & Takada, 1964
      • Genus Balara Bock, 1982
      • Genus Chymomyza Czerny, 1903
      • Genus Colocasiomyia de Meijere, 1914
      • Genus Lissocephala Malloch, 1929
      • Genus Neotanygastrella Duda, 1925
      • Genus Phorticella Duda, 1924
      • Genus Scaptodrosophila Duda, 1923
      • Genus Protochymomyza Grimaldi, 1987
    • Tribe Drosophilini Okada, 1989:
      • Genus Arengomyia Yafuso & Toda, 2008
      • Genus Bialba Bock, 1989
      • Genus Calodrosophila Wheeler & Takada, 1964
      • Genus Celidosoma Hardy, 1965
      • Genus Collessia Bock, 1982
      • Genus Dettopsomyia Lamb, 1914
      • Genus Dichaetophora Duda, 1940
      • Genus Dicladochaeta Malloch, 1932
      • Genus Drosophila Fallén, 1823
      • Genus Hirtodrosophila Duda, 1923
      • Genus Hypselothyrea Okada, 1956
      • Genus Idiomyia Grimshaw, 1901 (Hawaiian Drosophila)
      • Genus Jeannelopsis Séguy, 1938
      • Genus Laccodrosophila Duda, 1927
      • Genus Liodrosophila Duda, 1922
      • Genus Lordiphosa Basden, 1961
      • Genus Microdrosophila Malloch, 1921
      • Genus Miomyia Grimaldi, 1987
      • Genus Mulgravea Bock, 1982
      • Genus Mycodrosophila Oldenberg, 1914
      • Genus Palmomyia Grimaldi, 2003
      • Genus Paraliodrosophila Duda, 1925
      • Genus Paramycodrosophila Duda, 1924
      • Genus Poliocephala Bock, 1989
      • Genus Samoaia Malloch, 1934
      • Genus Scaptomyza Hardy, 1849
      • Genus Sphaerogastrella Duda, 1922
      • Genus Styloptera Duda, 1924
      • Genus Tambourella Wheeler, 1957
      • Genus Zaprionus Coquillett, 1902
      • Genus Zaropunis Tsacas, 1990
      • Genus Zapriothrica Wheeler, 1956
      • Genus Zygothrica Wiedemann, 1830
    • Incertae sedis:
  • Subfamily Steganinae Hendel, 1917:
    • Tribe Gitonini Grimaldi, 1990:
      • Genus Allopygaea Tsacas, 2000
      • Genus Acletoxenus Frauenfeld, 1868
      • Genus Amiota Loew, 1862
      • Genus Apenthecia Tsacas, 1983
      • Genus Apsiphortica Okada, 1971
      • Genus Cacoxenus Loew, 1858
      • Genus Crincosia Bock, 1982
      • Genus Electrophortica Hennig, 1965
      • Genus Erima Kertész, 1899
      • Genus Gitona Meigen, 1830
      • Genus Hyalistata Wheeler, 1960
      • Genus Luzonimyia Malloch, 1926
      • Genus Mayagueza Wheeler, 1960
      • Genus Paracacoxenus Hardy & Wheeler, 1960
      • Genus Paraleucophenga Hendel, 1914
      • Genus Paraphortica Duda, 1934
      • Genus Phortica Schiner, 1862
      • Genus Pseudiastata Coquillett, 1901
      • Genus Pseudocacoxenus Duda, 1925
      • Genus Rhinoleucophenga Hendel, 1917
      • Genus Soederbomia Hendel, 1938
      • Genus Trachyleucophenga Hendel, 1917
    • Tribe Steganini Okada, 1989:
      • Genus Eostegana Hendel, 1913
      • Genus Leucophenga Mik, 1866
      • Genus Pararhinoleucophenga Duda, 1924
      • Genus Parastegana Okada, 1971
      • Genus Pseudostegana Okada, 1978
      • Genus Stegana Meigen, 1830
    • Incertae sedis:
      • Genus Neorhinoleucophenga Duda, 1924
      • Genus Pyrgometopa Kertész, 1901

References

  1. Markow, Ann Therese (2006). Drosophila : a guide to species identification and use. Elsevier. ISBN 0-08-045409-7. OCLC 74908130. http://worldcat.org/oclc/74908130. 
  2. Mohr, Stephanie Elizabeth (2018). First in fly: Drosophila research and biological discovery. Harvard University Press. ISBN 978-0-674-97101-1. OCLC 1034915732. http://worldcat.org/oclc/1034915732. 
  3. Krimbas, C.B. & Loukas,M.(1980) Inversion Polymorphism of Drosophila subobscura Evol.Biol.12,163-234.
  4. Jones, Corbin D., "The genetics of adaptation in Drosophila sechellia", Georgia Genetics Review III (Berlin/Heidelberg: Springer-Verlag): pp. 137–145, http://dx.doi.org/10.1007/1-4020-3836-4_12, retrieved 2021-12-18 
  5. 5.0 5.1 Whiteman, Noah K.; Groen, Simon C.; Chevasco, Daniela; Bear, Ashley; Beckwith, Noor; Gregory, T. Ryan; Denoux, Carine; Mammarella, Nicole et al. (2010-11-13). "Mining the plant-herbivore interface with a leafmining Drosophila of Arabidopsis". Molecular Ecology 20 (5): 995–1014. doi:10.1111/j.1365-294x.2010.04901.x. ISSN 0962-1083. PMC 3062943. http://dx.doi.org/10.1111/j.1365-294x.2010.04901.x. 
  6. "Pest Alerts - Zaprionus indianus Gupta, DPI". Florida Department of Agriculture and Consumer Services. http://www.freshfromflorida.com/Divisions-Offices/Plant-Industry/Plant-Industry-Publications/Pest-Alerts/Pest-Alerts-Zaprionus-Indianus-Gupta. 
  7. Drosophila suzukii Center of Invasive Species Research
  8. Martin, N. A. (January 2004). "History of an invader,Scaptomyza flava(Fallen, 1823) (Diptera: Drosophilidae)". New Zealand Journal of Zoology 31 (1): 27–32. doi:10.1080/03014223.2004.9518356. ISSN 0301-4223. http://dx.doi.org/10.1080/03014223.2004.9518356. 
  9. Vinegars of the World. Chapter 5. ISBN:978-88-470-0865-6
  10. Kacsoh BZ; Lynch ZR; Mortimer NT; Schlenke TA (Feb 2013). "fruit flies medicate offspring after seeing parasites". Science 339 (6122): 947–950. doi:10.1126/science.1229625. PMID 23430653. Bibcode2013Sci...339..947K. 
  11. Groen, Simon C.; Humphrey, Parris T.; Chevasco, Daniela; Ausubel, Frederick M.; Pierce, Naomi E.; Whiteman, Noah K. (January 2016). "Pseudomonas syringae enhances herbivory by suppressing the reactive oxygen burst in Arabidopsis". Journal of Insect Physiology 84: 90–102. doi:10.1016/j.jinsphys.2015.07.011. ISSN 1879-1611. PMID 26205072. 
  12. Yassin, Amir (2013). "Phylogenetic classification of the Drosophilidae Rondani (Diptera): The role of morphology in the postgenomic era". Systematic Entomology 38 (2): 349–364. doi:10.1111/j.1365-3113.2012.00665.x. 

External links

Wikidata ☰ Q1054318 entry