dcsimg
 
  en  
names in breadcrumbs
Image of Cherry drosophila
Creatures » » Animal » » Arthropods » » Hexapods » Insects » Winged Insects » » Endopterygotes » Flies » » Vinegar Flies »

Cherry Drosophila

Drosophila suzukii (Matsumura 1931)

English
show all Czech German English Spanish; Castilian French Italian Dutch; Flemish Minangkabau Romanian; Moldavian; Moldovan Swedish

Drosophila suzukii

provided by wikipedia EN

Drosophila suzukii, commonly called the spotted wing drosophila or SWD, is a fruit fly. D. suzukii, originally from southeast Asia, is becoming a major pest species in America and Europe, because it infests fruit early during the ripening stage, in contrast with other Drosophila species that infest only rotting fruit.[2]

Native to east Asia, D. suzukii was first described in 1931 by Matsumura, it was observed in Japan as early as 1916 by T. Kanzawa.[3]

D. suzukii is a fruit crop pest and is a serious economic threat to soft summer fruit; i.e., cherries, blueberries, raspberries, blackberries, peaches, nectarines, apricots, grapes, and others.[4] Research investigating the specific threat D. suzukii poses to these fruit is ongoing.[5]

Description

Like other members of the Drosophilidae, D. suzukii is small, approximately 2 to 3.5 millimetres (564 to 964 in) in length and 5 to 6.5 millimetres (1364 to 14 in) in wingspan [3] and looks like its fruit and vinegar fly relatives. Its body is yellow to brown with darker bands on the abdomen and it has red eyes. The male has a distinct dark spot near the tip of each wing; females do not have the spotted wing. The foreleg of the male sports dark bands on the first and second tarsi. The female has a long, sharp, serrated ovipositor.[6] The larvae are small, white, and cylindrical reaching 3.5 millimetres (964 in) in length.[4]

When first observed in a new region, D. suzukii has often been confused with the western cherry fruit fly (Rhagoletis indifferens) and was given the short-lasting name cherry vinegar fly.[7] The cherry fruit fly is significantly larger than D. suzukii (up to 5 millimetres (1364 in)) and has a pattern of dark bands on its wings instead of the telltale spot of D. suzukii. The telltale spots on the wings of male D. suzukii have earned it the common name "spotted wing drosophila" (SWD).

Unlike its vinegar fly relatives which are primarily attracted to rotting or fermented fruit, female D. suzukii attack fresh, ripe fruit by using their saw-like ovipositor to lay eggs under the fruit's soft skin. The larvae hatch and grow in the fruit, destroying the fruit's commercial value. Economic impacts are significant; losses from large scale infestation (20% loss) across the US alone could equate to farm gate impacts > $500M.[8][9]

D. suzukii has a slow rate of evolution due to its lower number of generations per year, because it enters winter diapause.[10]

Distribution

Native to southeast Asia, D. suzukii was first described in 1931 by Matsumura. Observed in Japan as early as 1916 by T. Kanzawa,[3] it was widely observed throughout parts of Japan, Korea, and China by the early 1930s.[3] By the 1980s, the "fruit fly" with the spotted wings was seen in Hawaii. It first appeared in North America in central California in August 2008,[4] then was found in Oregon and Washington State by Lee et al., 2011[11]: 369  in the Pacific Northwest in 2009,[12] and is now widespread throughout California's coastal counties,[9] western Oregon, western Washington,[4] and parts of British Columbia[13] and Florida.[14] During the summer of 2010 the fly was discovered for the first time in South Carolina, North Carolina,[15] Louisiana,[16] and Utah.[17] In Fall 2010 the fly was also discovered in Michigan[18] and Wisconsin.[19] The fly was first discovered in the northeastern states in 2011[20] and in Minnesota[21] and Idaho[11]: 369  in 2012. As D. suzukii continues to spread, most of the states will most likely observe it. The pest has also been found in Europe, including the countries of Belgium, Italy, France, and Spain.[22][23]

Lifecycle

The lifespan of D. suzukii varies greatly between generations; from a few weeks to ten months.[3] Generations hatched early in the year have shorter lifespans than generations hatched after September.[3] Research shows that many of the males and most of the females of the late-hatching generations overwinter in captivity—some living as long as 300 days. Only adults overwinter successfully in the research conducted thus far. In Washington state, D. suzukii has been observed in association with two exotic and well-established species of blackberry, Rubus armeniacus (= Rubus discolor) and Rubus laciniatus (the Himalayan and Evergreen Blackberries, respectively.).[4] The fly has been observed reproducing on many other species of soft-skinned wild fruit, however, research is still ongoing to determine the quality of individual species as reproductive hosts.

Adults emerge from overwintering when temperatures reach approximately 10 °C (50 °F) (and 268 degree days).[4] The fertilized female searches for ripe fruit, lands on the fruit, inserts its serrated ovipositor to pierce the skin and deposits a clutch of 1 to 3 eggs per insertion. Females will oviposit on many fruits and in regions of scarce fruit, many females will oviposit on the same fruit. In captivity in Japan, research shows up to 13 generations of D. suzukii may hatch per season. A female may lay as many as 300 eggs during its lifespan. With as many as 13 generations per season, and the ability for the female to lay up to 300 eggs each, the potential population size of D. suzukii is huge. It is also important to note that males of D. suzukii become sterile at 30 °C (86 °F) and population size may be limited in regions that reach that temperature.

The larvae grow inside the fruit. The oviposition site is visible in many fruit by a small pore scar in the skin of the fruit often called a "sting". After 1 or 2 days, the area around the "sting" softens and depresses creating an increasingly visible blemish.[4] The depressions may also exude fluid which may attract infection by secondary bacterial and fungal pathogens.[9] Larvae may leave the fruit, or remain inside it, to pupate.

Economic impact

The economic impact of D. suzukii on fruit crops is negative and significantly affects a wide variety of summer fruit in the United States including cherries,[9][11]: 369  blueberries,[9][11]: 369  grapes,[9] nectarines,[9] pears,[9] plums,[9] pluots,[9] peaches,[9] raspberries,[11]: 369  and strawberries,[9] and blackberries.[11]: 369  Damage was first noticed in North America in the western states of California, Oregon, and Washington in 2008; yield loss estimates from that year vary widely, with negligible loss in some areas to 80% loss in others depending on location and crop.[9] The $500 million actual loss due to pest damage in 2008—the first year D. suzukii was observed in California—is an indication of the potential damage the pest can cause upon introduction to a new location. Economic losses have now been reported across North America and in Europe as the fly has spread to new areas. In 2015 it is estimated that national economic loss for producers in the United States was $700 million.[24] Future losses may decrease as growers learn how to better control the pest, or may keep increasing as the fly continues to spread.

Agricultural management

Red plastic cup used as a homemade trap for monitoring

Due to the impact of D. suzukii on soft fruits, farmers have started to monitor and control it. There are different types of traps, both commercial and home-made, that are effective in monitoring it. Traps that use apple cider vinegar with a bait made of whole wheat dough have been successful for farmers for both capture and monitoring.[25] Farmers are advised to place these traps in a shaded area as soon as the first fruit is set and to not remove them until the end of harvest. The traps should be checked once a week and farmers should look for the spot on the wing of the males to determine if D. suzukii is present.[26]

In areas where D. suzukii has already been established or where its activity has been monitored, there are different ways to control it. One way to manage D. suzukii is to remove the infested fruit and place it in a plastic bag in the garbage. This method is effective from removing D. suzukii from gardens and small areas but is difficult for farmers with larger operations to do this. Farmers can also harvest their soft fruit early which reduces the exposure of fruit to D. suzukii and the likelihood of damage.[27]

Farmers have the option of both conventional and organic sprays[28] to control D. suzukii. Timing of the sprays is important to effectively controlling it. Since D. suzukii is more active in the morning and evening those are the best times to control it.[29] Sprays should be in place prior to egg laying and the coverage needs to be thorough because adults often hide in dense portion of the canopy. Depending on the variety of soft fruit and laws in different states and countries, there are many types of organic and conventional sprays that are effective. Different laws and pre-harvest date intervals need to be kept in mind when choosing a type of spray. Most types of sprays need to be applied each week, at a minimum. To prevent resistance to certain sprays, farmers must rotate among different insecticides.[30]

Parasitoids

Predators

Earwigs,[39] damsel bugs,[39] spiders,[39] ants,[39] and Orius ("minute pirate bugs")[39] especially O. insidiosus.[39][40] Likely also ground beetles (Carabidae),[39] crickets,[39] green lacewings' larvae,[39] rove beetles (Staphylinidae) especially Dalotia coriaria,[39] birds,[39][41] and mammals.[39][41]

Microbiome

Drosophila suzukii, like all insects, is host to a variety of microorganisms. The intestinal bacterial communities of adult and larval D. suzukii collected in its invasive range (USA), were found to be simple and mostly dominated by Tatumella spp. (Enterobacteriaceae).[42] This fly is also infected with a variety of viruses in the wild. Whilst sharing some natural viruses with its close relative D. melanogaster, D. suzukii also harbours a number of unique viruses specific to it alone.[43] Yeasts also form an important part of the Drosophila microbiome, with a mutualistic relationships to yeast being described in other Drosophila species.[44][45][46] The yeast species found to be most frequently associated with D. suzukii were Hanseniaspora uvarum, Metschnikowia pulcherrima, Pichia terricola, and P. kluyveri.[47] Although certain fungal pathogens have been shown to experimentally infect D. suzukii,[48][49][50] the wild fungal infections of D. suzukii remain to be explored comprehensively.

Gallery

  • Male, note the dark spots near his wing tips

    Male, note the dark spots near his wing tips

  • Female, her wings are without spots

    Female, her wings are without spots

  • Male

    Male

  • Electron microscope image of the ovipositor of a female

    Electron microscope image of the ovipositor of a female

  • Cherry with oviposition scars

    Cherry with oviposition scars

  • Larva under compound microscope

    Larva under compound microscope

References

  1. ^ Matsumura, S. (1931). 6000 illustrated insects of Japan-Empire (in Japanese). Tokyo, Japan: Toko Shoin. pp. 1689 [367].
  2. ^ Walsh, Douglas B.; Bolda, Mark P.; Goodhue, Rachael E.; Dreves, Amy J.; Lee, Jana; Bruck, Denny J.; Walton, Vaughn M.; O'Neal, Sally D.; Zalom, Frank G. (2011). "Drosophila suzukii (Diptera: Drosophilidae): invasive pest of ripening soft fruit expanding its geographic range and damage potential". Journal of Integrated Pest Management. 2 (1): G1–G7. doi:10.1603/IPM10010.
  3. ^ a b c d e f Kanzawa, T. 1939 Report. Translated from Japanese by Shinji Kawaii
  4. ^ a b c d e f g Walsh, D. Press Release, Washington State University. 2009 Archived August 6, 2010, at the Wayback Machine
  5. ^ Herring, P. Grant funds help regional effort to combat spotted wing drosophila. 29 April 2010. http://extension.oregonstate.edu/news/story.php?S_No=729&storyType=news.
  6. ^ McEvey, Shane (13 February 2017). "High resolution diagnostic images of Drosophila suzukii (Diptera: Drosophilidae)". Figshare. doi:10.6084/m9.figshare.4644793.v1. {{cite journal}}: Cite journal requires |journal= (help)
  7. ^ Spotted Wing Drosophila, Drosophila suzukii: A New Pest in California. UC IPM Online, 10 Apr 2010. http://www.ipm.ucdavis.edu/EXOTIC/drosophila.html Archived 2016-04-30 at the Wayback Machine
  8. ^ Fountain, Michelle T.; Badiee, Amir; Hemer, Sebastian; Delgado, Alvaro; Mangan, Michael; Dowding, Colin; Davis, Frederick; Pearson, Simon (2020). "The use of light spectrum blocking films to reduce populations of Drosophila suzukii Matsumura in fruit crops". Scientific Reports. 10 (1): 15358. Bibcode:2020NatSR..1015358F. doi:10.1038/s41598-020-72074-8. PMC 7506528. PMID 32958797.
  9. ^ a b c d e f g h i j k l m Bolda, Mark P.; Goodhue, Rachael E.; Zalom, Frank G. (January–February 2010). "Spotted Wing Drosophila: Potential Economic Impact of Newly Established Pest". Agricultural and Resource Economics Update (ARE Update). Giannini Foundation of Agricultural Economics, University of California. 13 (3): 5–8.
  10. ^ Ometto, Lino; Cestaro, Alessandro; Ramasamy, Sukanya; Grassi, Alberto; Revadi, Santosh; Siozios, Stefanos; Moretto, Marco; Fontana, Paolo; Varotto, Claudio; Pisani, Davide; Dekker, Teun; Wrobel, Nicola; Viola, Roberto; Pertot, Ilaria; Cavalieri, Duccio; Blaxter, Mark; Anfora, Gianfranco; Rota-Stabelli, Omar (2013-03-15). "Linking Genomics and Ecology to Investigate the Complex Evolution of an Invasive Drosophila Pest". Genome Biology and Evolution. Oxford University Press (OUP). 5 (4): 745–757. doi:10.1093/gbe/evt034. ISSN 1759-6653. PMC 3641628. PMID 23501831.
  11. ^ a b c d e f Poland, Therese M.; Patel-Weynand, Toral; Finch, Deborah M.; Miniat, Chelcy Ford; Hayes, Deborah C.; Lopez, Vanessa M., eds. (2021). Invasive Species in Forests and Rangelands of the United States. Cham, Switzerland: Springer International Publishing. pp. xlii + 455 + ill., 20 b/w + 67 col. ISBN 978-3-030-45366-4. ISBN 978-3-030-45369-5 ISBN 978-3-030-45367-1
  12. ^ "Stop The Invasion - Spotted Wing Drosophila" (PDF). Washington Invasive Species Council. 2017. They're known to have been in the Pacific Northwest since 2009.
  13. ^ Spotted Wing Drosophila (Fruit Fly) Pest Alert. British Columbia Ministry of Agriculture and Lands. December 2009. http://www.agf.gov.bc.ca/cropprot/swd.htm Archived 2010-03-28 at the Wayback Machine
  14. ^ Steck, G, Dixon, W, Dean, D. Pest Alert, Spotted Wing Drosophila, a fruit pest new to North America. 2009
  15. ^ Spotted Wing Drosophila. NC Small Fruit, Specialty Crop, and Tobacco IPM. 2010. http://ncsmallfruitsipm.blogspot.com/p/spotted-wing-drosophila.html
  16. ^ "Spotted Wing Drosophila" (PDF). Louisiana Department of Agriculture and Forestry. August 2010. Archived from the original (PDF) on 2011-01-12. Retrieved 2011-01-18.
  17. ^ Davis, R., Alston, D., Vorel, C. Spotted Wing Drosophila September 2010. http://extension.usu.edu/files/publications/publication/ENT-140-10.pdf
  18. ^ "Early detection program finds a new invasive pest of fruit in Michigan". MSU Fruit Crop Advisory Team Alert. 29 Oct 2010. Archived from the original on 2011-07-20. Retrieved 2010-10-29.
  19. ^ Hamilton, K. Wisconsin Pest Bulletin. 19 November 2010
  20. ^ "Spotted Wing Drosophila IPM Working Group". NortheastIPM.org. 2012-11-13. Retrieved 2019-11-19.
  21. ^ "Spotted Wing Drosophila | Minnesota Department of Agriculture". www.mda.state.mn.us. Retrieved 2019-11-19.
  22. ^ Belgian Journal of Zoology - Drosophila suzukii (Diptera: Drosophilidae): A pest species new to Belgium. - Link
  23. ^ Drosophila suzukii (Diptera: Drosophilidae): Spotted wing drosophila. European and Mediterranean Plant Protection Organization. January 2010. http://www.eppo.org/QUARANTINE/Alert_List/insects/drosophila_suzukii.htm Archived 2010-08-01 at the Wayback Machine
  24. ^ "USDA Awards $6.7 Million To Stifle Spotted Wing Drosophila". Growing Produce. 2015-10-20. Retrieved 2019-11-19.
  25. ^ "Monitoring | Cornell Fruit Resources". fruit.cornell.edu. Retrieved 2019-11-14.
  26. ^ "Spotted wing drosophila in home gardens". extension.umn.edu. Retrieved 2019-11-14.
  27. ^ "Spotted Wing Drosophila Management Guidelines--UC IPM". ipm.ucanr.edu. Retrieved 2019-11-14.
  28. ^ Dam, Doriane; Molitor, Daniel; Beyer, Marco (2019). "Natural compounds for controlling Drosophila suzukii". Agronomy for Sustainable Development. 39 (6). doi:10.1007/s13593-019-0593-z. S2CID 207987437.
  29. ^ "New guide to organic management of spotted wing Drosophila released". Organic Agriculture. Retrieved 2019-11-14.
  30. ^ "Spotted Wing Drosophila Management | Entomology". entomology.ca.uky.edu. Retrieved 2019-11-14.
  31. ^ "SWD-killing wasps to make their debut". Good Fruit Grower. Retrieved 2020-12-05.
  32. ^ a b c d e f g h i j k l Daane, Kent M.; Wang, Xin-Geng; Biondi, Antonio; Miller, Betsey; Miller, Jeffrey C.; Riedl, Helmut; Shearer, Peter W.; Guerrieri, Emilio; Giorgini, Massimo; Buffington, Matthew; van Achterberg, Kees; Song, Yoohan; Kang, Taegun; Yi, Hoonbok; Jung, Chuleui; Lee, Dong Woon; Chung, Bu-Keun; Hoelmer, Kim A.; Walton, Vaughn M. (2016-02-10). "First exploration of parasitoids of Drosophila suzukii in South Korea as potential classical biological agents". Journal of Pest Science. Springer Science and Business Media LLC. 89 (3): 823–835. doi:10.1007/s10340-016-0740-0. ISSN 1612-4758. S2CID 18151515.
  33. ^ a b c d e f g h i j k l m Giorgini, Massimo; Wang, Xin-Geng; Wang, Yan; Chen, Fu-Shou; Hougardy, Evelyne; Zhang, Hong-Mei; Chen, Zong-Qi; Chen, Hong-Yin; Liu, Chen-Xi; Cascone, Pasquale; Formisano, Giorgio; Carvalho, Gislaine A.; Biondi, Antonio; Buffington, Matthew; Daane, Kent M.; Hoelmer, Kim A.; Guerrieri, Emilio (2018-12-12). "Exploration for native parasitoids of Drosophila suzukii in China reveals a diversity of parasitoid species and narrow host range of the dominant parasitoid". Journal of Pest Science. Springer Science and Business Media LLC. 92 (2): 509–522. doi:10.1007/s10340-018-01068-3. ISSN 1612-4758. S2CID 54476223.
  34. ^ a b Girod, Pierre; Borowiec, Nicolas; Buffington, Matthew; Chen, Guohua; Fang, Yuan; Kimura, Masahito T.; Peris-Felipo, Francisco Javier; Ris, Nicolas; Wu, Hao; Xiao, Chun; Zhang, Jinping; Aebi, Alexandre; Haye, Tim; Kenis, Marc (2018-08-07). "The parasitoid complex of D. suzukii and other fruit feeding Drosophila species in Asia". Scientific Reports. Springer Science and Business Media LLC. 8 (1): 11839. Bibcode:2018NatSR...811839G. doi:10.1038/s41598-018-29555-8. ISSN 2045-2322. PMC 6081417. PMID 30087364.
  35. ^ Nomano, Fumiaki Y.; Kasuya, Nazuki; Matsuura, Akira; Suwito, Awit; Mitsui, Hideyuki; Buffington, Matthew L.; Kimura, Masahito T. (2017-05-03). "Genetic differentiation of Ganaspis brasiliensis (Hymenoptera: Figitidae) from East and Southeast Asia". Applied Entomology and Zoology. Springer Science and Business Media LLC. 52 (3): 429–437. doi:10.1007/s13355-017-0493-0. hdl:2115/71122. ISSN 0003-6862. S2CID 25438219.
  36. ^ a b c "ASIAN GIANT HORNET STAKEHOLDER UPDATE #17 – DECEMBER 9, 2020" (PDF). Washington State Department of Agriculture. the traps also captured the first United States specimens of parasitoid wasps that prey on SWD. The parasitoid larvae will live off SWD and eventually kill it. Without these traps this parasitoid wasp might have gone unnoticed. This information may help the development of biological control programs to potentially help manage SWD.
  37. ^ a b c "Murder Hornet traps yield bonus". 790 KGMI. 2020-12-16. Retrieved 2020-12-16.
  38. ^ a b c "Catching hope: Possible ally in fight against harmful fruit fly discovered in Asian giant hornet trap". Washington State Department of Agriculture AgBriefs. 14 December 2020. Retrieved 2020-12-18.
  39. ^ a b c d e f g h i j k l Lee, Jana C; Wang, Xingeng; Daane, Kent M; Hoelmer, Kim A; Isaacs, Rufus; Sial, Ashfaq A; Walton, Vaughn M (2019-01-01). "Biological Control of Spotted-Wing Drosophila (Diptera: Drosophilidae)—Current and Pending Tactics". Journal of Integrated Pest Management. Oxford University Press (OUP). 10 (1): 13. doi:10.1093/jipm/pmz012. ISSN 2155-7470.
  40. ^ Renkema, Justin M.; Cuthbertson, Andrew G. S. (2018-03-03). "Impact of multiple natural enemies on immature Drosophila suzukii in strawberries and blueberries". BioControl. Springer Science and Business Media LLC. 63 (5): 719–728. doi:10.1007/s10526-018-9874-8. ISSN 1386-6141. S2CID 3699972.
  41. ^ a b Ballman, Elissa S; Collins, Judith A; Drummond, Francis A (2017-09-27). "Pupation Behavior and Predation on Drosophila suzukii (Diptera: Drosophilidae) Pupae in Maine Wild Blueberry Fields". Journal of Economic Entomology. Oxford University Press (OUP). 110 (6): 2308–2317. doi:10.1093/jee/tox233. ISSN 0022-0493. PMID 29029219.
  42. ^ Chandler, James Angus; James, Pamela M.; Jospin, Guillaume; Lang, Jenna M. (2014-07-22). "The bacterial communities of Drosophila suzukii collected from undamaged cherries". PeerJ. 2: e474. doi:10.7717/peerj.474. ISSN 2167-8359. PMC 4121540. PMID 25101226.
  43. ^ Medd, Nathan C; Fellous, Simon; Waldron, Fergal M; Xuéreb, Anne; Nakai, Madoka; Cross, Jerry V; Obbard, Darren J (2018-01-01). "The virome of Drosophila suzukii, an invasive pest of soft fruit". Virus Evolution. 4 (1): vey009. doi:10.1093/ve/vey009. PMC 5888908. PMID 29644097.
  44. ^ Anagnostou, Christiana; Dorsch, Monika; Rohlfs, Marko (2010-07-01). "Influence of dietary yeasts on Drosophila melanogaster life-history traits". Entomologia Experimentalis et Applicata. 136 (1): 1–11. doi:10.1111/j.1570-7458.2010.00997.x. ISSN 1570-7458. S2CID 82266130.
  45. ^ Starmer, William T. (1981-01-01). "A comparison of Drosophila habitats according to the physiological attributes of the associated yeast communities". Evolution. 35 (1): 38–52. doi:10.1111/j.1558-5646.1981.tb04856.x. ISSN 1558-5646. PMID 28563455. S2CID 37152729.
  46. ^ Simmons, Fred H; Bradley, Timothy J (1997). "An analysis of resource allocation in response to dietary yeast in Drosophila melanogaster". Journal of Insect Physiology. 43 (8): 779–788. doi:10.1016/s0022-1910(97)00037-1. PMID 12770456.
  47. ^ Hamby, Kelly A.; Hernández, Alejandro; Boundy-Mills, Kyria; Zalom, Frank G. (2012-07-15). "Associations of Yeasts with Spotted-Wing Drosophila (Drosophila suzukii; Diptera: Drosophilidae) in Cherries and Raspberries". Applied and Environmental Microbiology. 78 (14): 4869–4873. Bibcode:2012ApEnM..78.4869H. doi:10.1128/aem.00841-12. ISSN 0099-2240. PMC 3416361. PMID 22582060.
  48. ^ Woltz, J. M.; Donahue, K. M.; Bruck, D. J.; Lee, J. C. (2015-12-01). "Efficacy of commercially available predators, nematodes and fungal entomopathogens for augmentative control of Drosophila suzukii". Journal of Applied Entomology. 139 (10): 759–770. doi:10.1111/jen.12200. ISSN 1439-0418. S2CID 84245460.
  49. ^ Cuthbertson, Andrew G. S.; Collins, Debbie A.; Blackburn, Lisa F.; Audsley, Neil; Bell, Howard A. (2014-06-20). "Preliminary Screening of Potential Control Products against Drosophila suzukii". Insects. 5 (2): 488–498. doi:10.3390/insects5020488. PMC 4592600. PMID 26462696.
  50. ^ Becher, Paul G.; Jensen, Rasmus E.; Natsopoulou, Myrsini E.; Verschut, Vasiliki; Licht, Henrik H. De Fine (2018-03-01). "Infection of Drosophila suzukii with the obligate insect-pathogenic fungus Entomophthora muscae". Journal of Pest Science. 91 (2): 781–787. doi:10.1007/s10340-017-0915-3. ISSN 1612-4758. PMC 5847158. PMID 29568251.

license
cc-by-sa-3.0
copyright
Wikipedia authors and editors
original
visit source
partner site
wikipedia EN

Drosophila suzukii: Brief Summary

provided by wikipedia EN

Drosophila suzukii, commonly called the spotted wing drosophila or SWD, is a fruit fly. D. suzukii, originally from southeast Asia, is becoming a major pest species in America and Europe, because it infests fruit early during the ripening stage, in contrast with other Drosophila species that infest only rotting fruit.

Native to east Asia, D. suzukii was first described in 1931 by Matsumura, it was observed in Japan as early as 1916 by T. Kanzawa.

D. suzukii is a fruit crop pest and is a serious economic threat to soft summer fruit; i.e., cherries, blueberries, raspberries, blackberries, peaches, nectarines, apricots, grapes, and others. Research investigating the specific threat D. suzukii poses to these fruit is ongoing.

license
cc-by-sa-3.0
copyright
Wikipedia authors and editors
original
visit source
partner site
wikipedia EN
EOL is hosted by: