Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-09T08:47:35.263Z Has data issue: false hasContentIssue false
  • English
  • Français

Suppression of Aedes aegypti (Diptera: Culicidae) using augmentative release of dragonfly larvae (Odonata: Libellulidae) with community participation in Yangon, Myanmar1

Published online by Cambridge University Press:  10 July 2009

Anthony Sebastian ,
Myint Myint Sein ,
Myat Myat Thu  and
Philip S. Corbet
Anthony Sebastian
Affiliation:
Medical Entomology Research Division, Department of Medical Research, Ministry of Health, Yangon, Myanmar
Myint Myint Sein
Affiliation:
Medical Entomology Research Division, Department of Medical Research, Ministry of Health, Yangon, Myanmar
Myat Myat Thu
Affiliation:
Medical Entomology Research Division, Department of Medical Research, Ministry of Health, Yangon, Myanmar
Philip S. Corbet
Affiliation:
Department of Zoology, University of Edinburgh, UK
Get access Rights & Permissions [Opens in a new window]

Abstract

A pilot field study, involving periodic augmentative release of predatory larvae of a dragonfly, Crocothemis servilia (Drury), to suppress a mosquito, Aedes aegypti (Linnaeus), was conducted during the rainy season in Yangon (Rangoon). More than 90% of pre-adult A. aegypti occurred in domestic water-storage containers. Evaluations of larval and adult numbers of A. aegypti were made half-monthly three times before, and seven times after, treatment began. Four laboratory-reared, three-week-old C. servilia larvae were placed in each major source of A. aegypti larvae immediately after the third evaluation and then monthly for three successive months. Such treatment reduced the larval population of A. aegypti to a very low level in two to three weeks and suppressed it progressively until the trial ended; the adult population was greatly reduced after about six weeks and was progressively diminished thereafter until the trial ended. The trial's success was ascribed to: the virtual confinement of pre-adult stages of the target mosquito to containers accessible to control operators; the behaviour, growth rate, survival and ready availability of the chosen species of dragonfly; and the awareness and enthusiastic participation of local householders.

Type
Original Articles
Information
Bulletin of Entomological Research , Volume 80 , Issue 2 , June 1990 , pp. 223 - 232
Copyright
Copyright © Cambridge University Press 1990

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

1

Fomerly Rangoon, Barma

References

Bang, Y.H. (1985) Intergrated management of urban mosquito vectors of human diseases. Journal of Communicable Diseases 17, 114.Google Scholar
Barbosa, P. & Peters, T.M. (1966) A comparative study of egg hatching techniques for Aedes aegypti (L.) Mosquito News 29, 548555.Google Scholar
Begum, A., Bashar, M.A. & Nasiruddin, M. (1985) Studies on the life-history of Crocothemis servilia servilia Drury (Anisoptera: Libellulidae). Dhaka University Studies (B) 33, 137143.Google Scholar
Borisov, S.N. (1987) Ob ekologii dvuh blizkih vidov strekoz v Tadzhikistane. [On the ecology of two allied dragonfly species in Tadzhikistan.] Ekologie 1987(1), 8587.Google Scholar
Chan, K.L. (1985) Singapore's Dengue Haemorrhagic Fever control programme: a case study of the successful control of Aedes aegypti and Aedes albopictus using mainly environmental measures as a part of integrated vector control. Southeast Asian Medical Information Center Publication No. 45, 114 pp.Google Scholar
Chanthachume, K. (1979) Survey of dragonfly from certain parts of Thailand. 180 pp. MSc thesis, Faculty of Tropical Medicine, Mahidol University, Bangkok.Google Scholar
Corbet, P.S. (1983) A biology of dragonflies. 247 pp. Faringdon, Classey.Google Scholar
Corbet, P.S. (1986) Using dragonflies to suppress mosquitoes in domestic water-storage containers. Waterlines 4, 1011.Google Scholar
Davies, D.A.L. & Tobin, P. (1985) The dragonflies of the world: a systematic list of the extant species of Odonata. Vol. 2. Anisoptera. Societas Internationalis Odonatologica Rapid Communications (Supplements) No. 5, 151 pp.Google Scholar
DMR (1975) Biology and ecology of Rangoon Aedes aegypti (L.). Department of Medical Research Newsletter, Yangon 2(9), 12.Google Scholar
El Rayah, E.A. (1975) Dragonfly nymphs as active predators of mosquito larvae. Mosquito News 35, 229230.Google Scholar
El Rayah, E.A. & Abu Shama, F.T. (1977) The predatory capacity of nymphs of the dragonflies: Trithemis annulata scortecii Nielsen (Odonata: Anisoptera) and Ischnura senegalensis Rambur (Odonata: Zygoptera). Revue de Zoologie Africaine 91, 381384.Google Scholar
Focks, D.A. & Sackett, S.R. (1985) Some factors affecting interaction of Toxorhynchites amboinensis with Aedes and Culex in an urban environment. pp. 5564in Lounibos, L.P., Rey, J.R. & Frank, J.H. (Eds) Mosquito ecology: proceedings of a workshop. Vero Beach, Florida, Florida Medical Entomology Laboratory.Google Scholar
Fraser, F.C. (1936) The fauna of British India. Odonata. Vol. 3. 461 pp. London, Taylor & Francis.Google Scholar
Gerberg, E.J. & Visser, W.M. (1978) Preliminary field trial for the biological control of Aedes aegypti by means of Toxorhynchites brevipalpis, a predatory mosquito larva. Mosquito News 38, 197200.Google Scholar
Grieve, E.G. (1937) Studies on the biology of the damselfly, Ischnura verticalis Say, with notes on certain parasites. Entomologica Americana 17, 121153.Google Scholar
Kerdpibule, V., Nicharat, S. & Sucharit, S. (1979) Descriptions of odonate nymphs from Thailand. Southeast Asian Journal of Tropical Medicine & Public Health 10, 540547.Google ScholarPubMed
Kumar, A. (1973a) The life history of Bradinopyga geminata (Rambur) (Odonata: Libellulidae). Gurukul Kangri Vishwa Vidayalya Journal of Scientific Research 5, 5057.Google Scholar
Kumar, A. (1973b) Descriptions of the last instar larvae of Odonata from the Dehra Dun Valley (India), with notes on biology. II. Suborder Anisoptera. Oriental Insects 7, 291331.Google Scholar
Kumar, A. (1976) Biology of Indian dragonflies with special reference to seasonal regulation and larval development. Bulletin of Entomology (India) 17, 3747.Google Scholar
Kumar, A. & Prasad, M. (1981) Field ecology, zoogeography and taxonomy of the Odonata of Western Himalaya, India. Miscellaneous Publications of the Zoological Survey of India, Occasional Paper No. 20, 118 pp.Google Scholar
Lamborn, R.H. (1890) Dragonflies versus mosquitoes. 202 pp. New York, Appleton.Google Scholar
Lieftinck, M.A. (1971) Odonata from Ceylon. Entomologica Scandinavica Supplement No. 1, 188207.Google Scholar
Lien, J.C. & Matsuki, K. (1979) [On the larvae of two species of the genus Lyriothemis on Taiwan (Libellulidae; Odonata).] The Nature and Insects 14, 5760.Google Scholar
Manning, G.S. (1971) Study of novel intestinal parasites in Thailand. Report of 1st International Seminar, SEATO Medical Research Laboratory, Bangkok, 4346.Google Scholar
Manning, G.S. & Lertprasert, P. (1973) Studies on the life cycle of Phaneropsolus bonnei and Prosthodendrium molenkampi in Thailand. Annals of Tropical Medicine and Parasitology 67, 361365.Google Scholar
Mouchet, J. (1984) Vector control at village level: methods adaptable to the ecological conditions of tropical Africa. World Health Organization, Vector Biology and Control VBC/WP/03, 17 pp.Google Scholar
Oppenheimer, S.D. & Waage, J.K. (1987) Hand-pairing: a new technique for obtaining copulations within and between Calopteryx species (Zygoptera: Calopterygidae). Odonatologica 16, 291296.Google Scholar
Paulson, D.R. (1978) Additional record of Crocothemis servilia (Drury) from Florida (Anisoptera: Libellulidae). Notulae Odonatologicae 1, 2930.Google Scholar
Pinhey, E.C.G. (1961) A survey of the dragonflies (Order Odonata) of Eastern Africa. 214 pp. London, British Museum (Natural History).Google Scholar
Pinhey, E. (1962) A descriptive catalogue of the Odonata of the African Continent (up to December 1959). 314 pp. Lisbon, Companha de Diamantes de Angola.Google Scholar
Rajagopalan, P.K. & Panicker, K.N. (1984) Feasibility of community involvement in integrated vector control in villages. World Health Organization, Vector Biology and Control WHO/VBC84.903, 6 pp.Google Scholar
Reuben, R., Rao, D.R., Sebastian, A., Corbet, P.S., Wu, N. & Liao, G. (1989) Biological control methods suitable for community use. pp. 139158in Curtis, C.F. (Ed.) Appropriate technology in vector control. Boca Raton, Florida, CRC Press.Google Scholar
Rowe, R.J. (1987) Predatory versatility in a larval dragonfly, Hemianax papuensis (Odonata: Aeshnidae). Journal of Zoology, London 211, 193207.Google Scholar
Sangal, S.K. (1961) Morphology and biology of Crocothemis servilia servilia (Drury) (Odonata: Libellulidae). 197 pp. PhD thesis, University of Agra, India.Google Scholar
Sangal, S.K. & Kumar, A. (1970) Studies on taxonomy of larvae of Doon Valley Odonata. Indian Journal of Natural History 4, 3338.CrossRefGoogle Scholar
Schneider, W. (1985a) Dragonfly records from SE-Turkey (Insecta: Odonata). Senckenbergiana Biologica 66(1/3), 6778.Google Scholar
Schneider, W. (1985b) Die Gattung Crocothemis Braver 1868 im Nahen Osten (Insecta: Odonata: Libellulidae). Senckenbergiana Biologica 66(1/3), 7988.Google Scholar
Sebastian, A., Thu, M.M., Kyaw, M. & Sein, M.M. (1980) The use of dragonfly nymphs in the control of Aedes aegypti. Southeast Asian Journal of Tropical Medicine and Public Health 11, 104107.Google Scholar
Service, M.W. (1976) Mosquito ecology: field sampling methods. 583 pp. New York, Halstead Press.Google Scholar
Singh, P. (1977) Artificial diets for insects, mites and spiders. 594 pp. New York, Plenum.Google Scholar
Spielman, A. & Rossignol, P.A. (1984) Insect vectors. pp. 167183in Warren, K.S. & Mahmoud, A.A.F. (Eds) Tropical and geographical medicine. New York, McGraw-Hill.Google Scholar
Vick, G.S. (1989) List of the dragonflies recorded from Nepal, with a summary of their altitudinal distribution (Odonata). Opuscula Zoologica Fluminensia 43, 121.Google Scholar
WHO (1975) Technical guides for diagnosis, treatment, surveillance, prevention and control of Dengue Haemorrhagic Fever. World Health Organization, Geneva.Google Scholar
Winyasopit, J. (1976) Studies on biology and the efficiency of dragonfly and damselfly naiads in the control of mosquito larvae (Culex pipiens quinquefasciatus Say). 66 pp. M.Sc. thesis, Faculty of Agriculture, Kasetsart University, Bangkok.Google Scholar