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Factors influencing oviposition, larval growth and mortality in Chrysomya megacephala (Diptera: Calliphoridae), a pest of salted dried fish in south-east Asia

Published online by Cambridge University Press:  10 July 2009

John R. Esser
John R. Esser
Affiliation:
School of Food and Fisheries Studies, Humberside Polytechnic, Grimsby, UK
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Abstract

Laboratory investigations were conducted into factors affecting oviposition, larval growth and mortality in the blowfly Chrysomya megacephala (Fabricius), an important cause of losses of salted dried fish in south-east Asia. When presented with a choice of fish spiked with recently laid C. megacephala eggs and unspiked fish, the flies preferentially oviposited on the spiked fish. Subsequently choice experiments indicated that the attraction exerted by the eggs was mainly olfactory in nature. When presented with oviposition media of a range of salt concentrations, C. megacephala preferentially oviposited on the medium of lowest concentration. In the absence of choice, C. megacephala readily oviposited on fish that had been salted to levels of up to 40% dry weight basis (dwb). Trials investigating the effects of feeding medium salt concentration on larval growth and mortality indicated that a high salt concentration of about 40% (dwb) is necessary to effectively control infestation of salted fish by C. megacephala. Such high salt concentrations are rarely obtained in commercially produced salted dried fish in south-east Asia and would be unlikely to gain consumer acceptance.

Type
Research Paper
Information
Bulletin of Entomological Research , Volume 80 , Issue 4 , December 1990 , pp. 369 - 376
Copyright
Copyright © Cambridge University Press 1990

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References

Barton-Browne, L. (1958) The choice of communal oviposition sites by the Australian sheep blowfly Lucilia cuprina. Australian Journal of Zoology 6, 241247.CrossRefGoogle Scholar
Barton-Browne, L., Bartell, R.J. & Shorey, H.H. (1969) Pheromone-mediated behaviour leading to group oviposition in the blowfly Lucilia cuprina. Journal of Insect Physiology 15, 10031014.CrossRefGoogle Scholar
Emmens, R.L. (1981) Evidence for an attractant in cuticular lipids of female Lucilia cuprina (Wied.), Australian sheep blowfly. Journal of Chemical Ecology 7, 529541.CrossRefGoogle Scholar
Green, A.A. (1967) The protection of dried sea fish in South Arabia from infestation by D. frischii. Journal of Stored Products Research 2, 331350.CrossRefGoogle Scholar
Guimaraes, J.H., Do Prado, J.H. & Linhares, A.X. (1978) Three newly introduced blowfly species in southern Brazil (Diptera: Callophoridae). Revista Brasileno de Entomologia 22, 5360.Google Scholar
Kordyl, E. (1976) Some protective measures against insect infestation of dried fish in Africa. pp. 313314in Proceedings of the Conference on Handling, Processing and Marketing of Tropical Fish. London; Tropical Products Institute.Google Scholar
Kurahashi, H. (1982) Probable origin of synanthropic fly Chrysomya megacephala, in New Guinea (Diptera: Calliphoridae). pp. 689697in Gressit, J.L. (Ed.) Monographiae Biologicae, Vol. 42.The Hague; Dr W. Junk.Google Scholar
McLellen, R.H. (1963) The use of pyrethrum dip as protection for drying fish in Uganda. Pyrethrum Post 7, 810.Google Scholar
Mills, A. (1979) Handlign and processing fish on Lake Chad. (Unpublished project report) (mimeo) 55 pp. Deposited in Overseas Development Natural Resources Institute library, Chatham, U.K.Google Scholar
Norris, M.J. (1984) Laboratory experiments on gregarious behaviour in ovipositing females of the desert locust (Schistocerca gregaria (Forsk)). Entomologia Experimentalis et Applicata 6, 279303.CrossRefGoogle Scholar
Prins, J. (1979) Discovery of the Oriental latrine fly Chrysomya megacephala (Fab.) along the south-western coast of South Africa. Annals of the South Africa Museum 78, 3947.Google Scholar
Proctor, D.L. (1972) The protection of smoke-dried fresh-water fish from insect damage during storage in Zambia. Journal of Stored Products Research 8, 139149.CrossRefGoogle Scholar
Tropical Development and Research Institute (1984) Central Lake Fisheries Development Project, Malawi. Unpublished summary report. London, Tropical Development and Research Institute. Deposited in Overseas Development Natural Resources Institute library, Chatham, UK.Google Scholar
Walker, D.J. & Donegan, L. (1984) Spray application of insecticides to protect sundrying fish from blowfly infestation during the wet season in Malawi. International Pest Contol 26, 132137.Google Scholar
Walker, D.J. & Wood, C.D. (1985) Non-insecticidal methods of reducing losses caused by infestation of blow-flies (Diptera) during fish curing procedures. pp. 380385in, Fish processing in Africa Proceedings of The FAO Expert Consultation on Fish Technology in Africa. Lusaka, Zambia, 21–25 January 1985 (FAO Fisheries Report No. 329 Supplement, Rome).Google Scholar
Wijesundara, D.P. (1957) The life-history and bionomics of Chrysomyia megacephala (Fab.). Ceylon Journal of Science (B) 25, 170185.Google Scholar