Anastrepha fraterculus, known as the South American fruit fly, is a fruit fly species from the genus Anastrepha. A. fraterculus is a polyphagous, frugivorous fly that is a significant pest of commercial fruit production in South America.[1]
Anastrepha fraterculus | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Diptera |
Family: | Tephritidae |
Genus: | Anastrepha |
Species: | A. fraterculus
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Binomial name | |
Anastrepha fraterculus Wiedemann, 1830
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Synonyms | |
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Taxonomy
editGerman entomologist Christian Rudolph Wilhelm Wiedemann first described the South American fruit fly in 1830.[2] The Anastrepha fraterculus species is not to be confused with the Anastrepha fraterculus complex, which is a cryptic species with eight taxonomically recognized morphotypes.[3]
Distribution
editThe Anastrepha fraterculus species is native to South America and is distributed throughout the southern United States (South Florida and southern Texas), Mexico, Central America, Caribbean Islands, and South America.[4][5]
Description
editAnastrepha fraterculus is a small fruit fly. Its body colouration varies, from orange, to brown and yellow. They have six jointed legs attached to their thorax and one set of membranous wings with yellow and brown bands also attached at their thorax.[5] Attached to their head is a pair of antennae. The antennae have three segments: the scape, the pedicel, and the flagellum. An arista is also located at the dorsal side and proximal end of the flagellum. They have six types of sensilla based on shape, located along their antennae.[6] These sensilla are used for chemoreception. The female A. fraterculus have a modified ovipositor called an aculeus. The aculeus is near the cloacal opening, and it is conical in shape with serrations near the apex.[7]
Digestive system
editThe digestive system in the South American fruit fly is one long, continuous tube that connects the mouth to the anus. This tract is divided into three specialized regions: the foregut, the midgut, and the hindgut. The foregut is specialized to ingest and soften the food and begin digestion. The foregut contains a short gullet with an esophageal pouch, then a long, narrow crop duct that ends in a wide crop. The midgut is specialized for digestion and absorption of nutrients. The midgut contains a long, coiled stomach. The hindgut is specialized for absorbing nutrients and reabsorbing water and ions. The hindgut includes the ileum, the rectum, and associated rectal glands.[8]
Life cycle
editAnastrepha fraterculus have a four-stage life cycle: egg, larva, pupa, and adult. The females lay their eggs in fruit, where the larvae develop until they reach adulthood and leave the fruit to mate.[9] Their eggs are white, elongated, and curved.[10] The chorion has extensions that are shorter near the anterior end of the egg and bluntly rounded at the posterior end of the egg.[10] The larvae ingest the forced-out yolk masses near the anterior end of the egg and then emerge near the posterior end of the egg.[11] The larvae molt three times before reaching maturity: the first instar occurs from 1-3 days old, the second instar from 4-6 days old, and the third instar from 7-12 days old.[12] The larvae's third instar has some defining characteristics to help distinguish it from other species in the Anastrepha genus: the third instar is greater than 6.0 mm in length and 1.0 mm in diameter, their mandibles don't have a subapical tooth, they have 7-11 oral ridges, the abdominal segments lack dorsal spinules, and the anterior spiracle has 9-14 tubules.[4] After the final molt, the larva enters the pupa stage. The pupa is an inert, sessile stage. The pupa is cylindrical and 4.5-60 mm in length and 2-2.5 mm in diameter. The pupae's colouration is yellow-tinged with brown and then turns reddish-yellow or dark brown.[13] After pupating, the adult fly splits open the pupal case and exits, then leaves the fruit to continue the cycle.
Mating
editThe South American fruit flies mate through a lek mating system.[14] The males aggregate into groups of 5, about 80 cm apart, usually on the underside of the leaves of host plants. They start their courtship and mating behaviour 1 hour after dawn until mid-morning.[15] In these aggregations, the males release volatile pheromones to attract females.[16] These pheromones are primarily released from glands in the rectum, though some pheromones are released from their salivary glands.[17] The distal rectum is evaginated to increase the evaporative surface and increase pheromone emission.[18] The females use an ovipositor to puncture the fruit's skin and lay their eggs inside. After laying their eggs, the female Anastrepha fraterculus drags their ovipositor along the fruit and releases an oviposition-deterring pheromone to prevent other females from laying their eggs in that fruit to improve the success of her offspring.[19]
Impacts
editAnastrepha fraterculus is a major agricultural pest. They cause a lot of damage to the plants' fruits. The females puncture the fruit during oviposition, the larvae eat the fruit during maturation, and at adulthood, they damage the fruit by exiting. The punctures also facilitate the entry of phytopathogens into the fruit. A. fraterculus is also a mechanical vector for fungi spores that can cause the fruits to rot.[1]
Host plants
editAnastrepha fraterculus infect many host plants with their larvae. A. fraterculus infest at least 159 species of host plants, including many plants from the family Annonaceae, Myrtaceae, Rutaceae, Malpighiaceae, Rosaceae (apples, cherries, peaches, plums), Vitaceae (grapes), and many, many more.[20]
Control techniques
editMany control methods are being studied to decrease the amount of economic damage caused by Anastrepha fraterculus. These methods include using chemical products, such as biopesticides, which include plant extracts and oil, which are used in favour of harmful insecticides.[21] Other alternative methods include sterile insect technique (SIT), where they induced sterility in mass-reared A. fraterculus, preferably males, through radiation, and then reintroduced them into the environment.[22] Many improvements have been made to these mass-rearing protocols to identify males for SIT in viable, non-destructive manners. These methods include developing genetic sexing strains (GSS) and using hyperspectral images of the pupae to determine the sex.[23][13] Another alternative method includes biological control techniques, such as the introduction of parasitoid species, like Diachasmimorpha longicaudata and Coptera haywardi, to infest and kill A. fraterculus.[24][25]
References
edit- ^ a b Machota Jr., R., Bortoli, L. C., Botton, M., and Grutzmacher, A. D. 2013. Fungi that cause rot in bunches of grape identified in adult fruit flies (Anastrepha fraterculus) (Diptera: Tephritidae). Chilean Journal of Agricultural Research 73: 196-201.
- ^ Wiedemann, C. R. W. Aussereuropäische Zweiflügelige Insekten. Hamm, Schulzischen Buchhandlung, 1830.
- ^ Hernández-Ortiz V., Bartolucci, A. F., Morales-Valles, P., Frías, D., and Selivon, D. 2012. Cryptic species of the Anastrepha fraterculus complex (Diptera: Tephritidae): a multivariate approach for the recognition of South American morphotypes. Annals of the Entomological Society of America 105: 305–318.
- ^ a b Steck, G. J., Carroll, L. E., Celedonio-Hurtado, H., and Guillen-Aguilar, J. 1990. Methods for identification of Anastrepha larvae (Diptera: Tephritidae), and key to 13 species. Proceedings of the Entomological Society of Washington 92: 333-346.
- ^ a b Stone, A. 1942. The fruit flies of the genus Anastrepha. United States Department of Agriculture, Miscellaneous Publication. 439: 1-112.
- ^ Bisotto-de-Oliveira, R., Redaelli, L. R., and Sant'ana, J. 2011. Morphometry and distribution of sensilla on the antennae of Anastrepha fraterculus (Wiedemann) (Diptera: Tephritidae). Neotropical Entomology 40: 212-216.
- ^ Perre, P., Jorge, L. R., Lewinshon, T. M., and Zucchi, R. A. 2014. Morphometric differentiation of fruit fly pest species of the Anastrepha fraterculus group (Diptera: Tephritidae). Annals of the Entomological Society of America 107: 490-495.
- ^ Caetano, F. H., Solferin, V. N., Barros de Britto, F., Lins, D. S., Aluani, T., Gracia de Brito, V., and Zara, F. J. 2006. Ultra morphology of the digestive system of Anastrepha fraterculus and Ceratitis capitata (Diptera: Tephritidae). Journal of Morphological Sciences 23: 455-462.
- ^ Alberti, A. C., Calcagno, G., Saidman, B. O., and Vilardi J. C. 1999. Analysis of the genetic structure of a natural population of Anastrepha fraterculus (Diptera: Tephritidae). Annals of the Entomological Society of America 92: 731-736.
- ^ a b Murillo, T., and Jirón, L. F. 1994. Egg morphology of Anastrepha obliqua and some comparative aspects with eggs of Anastrepha fraterculus (Diptera: Tephritidae). Florida Entomologist 77: 342-348.
- ^ Selivon, D., Morgante, J. S., and Perondini, A. L. P. 1997. Egg size, yolk mass extrusion and hatching behavior in two cryptic species of Anastrepha fraterculus (Wiedemann) (Diptera, Tephritidae). Brazilian Journal of Genetics 20: 587-594.
- ^ Van Nieuwenhove, G. A., and Ovruski, S. M. 2011. Influence of Anastrepha fraterculus (Diptera: Tephritidae) larval instars on the production of Diachasmimorpha longicaudata (Hymneoptera: Braconidae) progeny and their sex ratio. Florida Entomologist 94: 863-868.
- ^ a b Jahnke, S. M., Gebbers, R., Zanotta, D. C., and Intreβ, J. 2021. Differences in optical properties of males and females pupae of Anastrepha fratercululs (Diptera: Tephritidae). Revista Colombiana de Entomologia 47.
- ^ Segura, D., Petit-Marty, N., Sciurano, R., Vera, T., Calcagno, G., Allinghi, A., Gómez Cendra, P., Cladera, J., and Vilardi, J. 2007. Lekking behavior of Anastrepha fraterculus (Diptera: Tephritidae). Florida Entomologist 90: 154-162.
- ^ Malavasi, A., Morgante, J. S., and Prokopy, R. J. 1983. Distribution and activities of Anastrepha fraterculus (Diptera: Tephritidae) flies on host and nonhost trees. Annals of the Entomological Society of America 76: 286-292.
- ^ Lima, I. S., House, P. E., and do Nascimento, R. R. 2001. Volatile substances from male Anastrepha fraterculus wied. (Diptera: Tephritidae): identification and behavioural activity. Journal of the Brazilian Chemical Society 12: 196-201.
- ^ Nation, J. L. 1981. Sex-specific glands in tephritid fruit flies of the genera Anastrepha, Ceratitis, Dacus, and Rhagoletis (Diptera: Tephritidae). International Journal of Insect Morphology and Embryology 10: 121-129.
- ^ Scolari, F., Valerio, F., Benelli, G., Papadopoulos, N. T., and Vaníčková, L. 2021. Tephritid fruit fly semiochemicals: Current knowledge and future perspectives. Insects 12: 408.
- ^ Prokopy, R. J., Malavasi, A., and Morgante, J. S. 1982. Oviposition deterring pheromone in Anastrepha fraterculus flies. Journal of Chemical Ecology 8: 763-771.
- ^ Zucchi, R. A. & Moraes, R. C. B. 2021. Fruit flies in Brazil - Anastrepha species their host plants and parasitoids. http://www.lea.esalq.usp.br/anastrepha.
- ^ Oviedo, A., Van Nieuwenhove, G., Van Nieuwenhove, C., and Rull, J. 2017. Biopesticide effects on pupae and adult mortality of Anastrepha fraterculus and Ceratitis capitata (Diptera: Tephritidae). Austral Entomology 57: 457-464.
- ^ Allinghi, A., Gramajo, C., Willink, E., and Vilardi, J. 2007. Induction of sterility in Anastrepha fraterculus (Diptera: Tephritidae) by gamma radiation. Florida Entomologist 90: 96-102.
- ^ Giustina, P. D., Mastrangelo, T., Ahmad, S., Mascarin, G., and Cáceres, C. 2021. Determining the sterilization doses under hypoxia for the novel black pupae genetic sexing strain of Anastrepha fraterculus (Diptera, Tephritidae). Insects 12: 308.
- ^ Altafini, D. L., Redaelli, L. R, and Jahnke, S. M. 2013. Superparasitism of Ceratitis capitata and Anastrepha fraterculus (Diptera: Tephritidae) by Diachasmimorpha longicaudata (Hymenoptera: Braconidae). Florida Entomologist 96: 391-395.
- ^ Van Nieuwenhove, G., Bezdjian, L. P., Schliserman, P., Aluja, M., and Ovruski, S. M. 2016. Combined effect of larval and pupal parasitoid use for Anastrepha fraterculus (Diptera: Tephritidae) control. Biological Control 95: 94-102.
External links
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