Abstract
Because of inadequate supply of water, inhabitants of five villagesclose to Tapachula, Chiapas, México, store water in cement tanksthat support large populations of Aedes aegypti. Biologicalcontrol using indigenous fish species were studied to control A. aegypti larvae in thosecontainers, since other organisms used as biological control agents areexpensive and unfamiliar to inhabitants of those towns. Other measures(chemical or physical control) are expensive and time consuming. Fiveindigenous fish species, Lepisosteus tropicus (Gill)(Lepisosteiformes: Lepisosteidae), Astyanax fasciatus (Cuvier)(Cypriniformes: Characinidae), Brycon guatemalensis (Regan)(Cypriniformes: Characinidae), Ictalurus meridionalis(Günther) (Cypriniformes: Ictaluridae) and Poecilia sphenopsValenciennes (Cyprinodontiformes: Poeciliidae), currently used asmosquito control agents in the area were tested. Container indexes (ameasure of disease transmission potential) in the tested area werealways zero during the year of the study, independent of towns and fishspecies; this was significantly (P < 0.05) different from containerindexes prior to the test as well as from controls without fish. Nosignificant (P > 0.05) differences were recorded in the efficiency ofthe tested fish species feeding on A. aegypti larvae. Our resultsshow that all tested fish species can be considered as good biologicalagents for controlling A. aegypti larvae in Southern Mexico.
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Alio, A.Y., A. Isaq. and L.F. Delfini, 1985. Field trial on the impact of Oreochromis spilurus spilurus on malaria transmission in northern Somalia.WHO/MAL./85.1017,World Health Organization, Geneva.
Álvarez del Villar, J., 1970. Peces mexicanos (claves). Instituto Nacional de Investigaciones Biológico Pesqueras, Comisión Nacional Consultiva de Pesca, México. pp. 165.
Batra, C.P., P.K. Mittal and T. Adak, 2000. Control of Aedes aegypti breeding in desert coolers and tires by use of Bacillus thuringiensis var. israelensis formulation. J. Am. Mosq. Cont. Assoc. 16(4): 321–323.
Boklund, R.J., 1997. Mosquitofish in control programs. J. Am. Mosq. Cont. Assoc. 13(1): 99.
Borjas, G., G.G. Marten, E. Fernández and H. Portillo, 1993. Juvenile turtles for mosquito control in water storage tanks. J. Med. Entomol. 30(5): 943–946.
Gerberich, J.B. and M. Laird, 1968. Bibliography of papers relating to the control of mosquitoes by the use of fish. An annotated bibliography for the years 1901–1966. FAO Fisheries Tech. Paper 75. FRS/T. 75: 1–70.
Koldenkova, L., I.A. García, I.G. García and V.E. Vivas, 1993. Actividad biorreguladora de cinco especies de peces larvivoros en un criadero natural de Culex quinquefasciatus. Bol. Direc. San Amb. 13(Único): 23–31.
Lee, D.K., 2000. Predation efficacy of the fish muddy loach, Misgurnus mizolepis, against Aedes and Culex mosquitoes in laboratory and small rice plots. J. Am. Mosq. Cont. Assoc. 16(3): 258–261.
Marten, G.G., G. Borjas, M. Cush, E. Fernández and J.W. Reid, 1994. Control of larval Aedes aegypti (Diptera: Culicidae) by cyclopoid copepods in peridomestic breeding containers. J. Med. Entomol. 31(1): 36–44.
Nelson, S.M. and L.C. Keenan, 1992. Use of an indigenous fish species, Fundulus zebrinus, in a mosquito abatement program: a field comparison with the mosquitofish, Gambusia affinis. J. Am. Mosq. Cont. Assoc. 8(3): 301–304.
O. P. S. Organización Panamericana de la Salud, 1997. Dengue y dengue hemorrágico en las Américas: guías para su prevención y control. Pub. Cient. 548, p. 61.
Taylor, D.S., S.A. Ritchie and E. Johnson, 1992. The killfish Rivulus marmoratus: a potential biocontrol agent for Aedes taeniorhynchus and brackfish water Culex. J. Am. Mosq. Cont. Assoc. 8(1): 80–83.
Torrente, A., W. Rojas, A. Durán, T. Kano and S. Orduz, 1993. Fish species from mosquito breeding ponds in northwestern Colombia: evaluation of feeding habits and duistribution. Mem. Inst. Oswaldo Cruz 88(4): 625–627.
Wang, C.H., J.S. Hwang and J.R. Lay, 1990. Preliminary study on the biological control of dengue vectors by fish in Liu-Chiu, Pingtung County, Taiwan. Kaohsiung J. Med. Sci. 6: 382–388.
Wang, C.H., N.T. Chang, H.H. Wu and C.M. Ho, 2000. Integrated control of the dengue vector Aedes aegypti in Liu-Chiu Village, Ping-Tung County, Taiwan. J. Am. Mosq. Cont. Assoc. 16(2): 93–99.
WHO (World Health Organization), 1972. A system of worldwide surveillance for vectors. Wkly. Epidemiol. Rec. 47: 73–84.
Wu, N., S. Wang, G. Han, R. Xu, G. Tang and C. Quian, 1987. Control of Aedes aegypti larvae in household water containers by Chinese catfish. Bull. WHO 65: 503–506.
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MartíNez-Ibarra, J., Guillén, Y.G., Arredondo-Jiménez, J. et al. Indigenous fish species for the control of Aedes aegypti in water storage tanks in Southern México. BioControl 47, 481–486 (2002). https://doi.org/10.1023/A:1015691831489
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DOI: https://doi.org/10.1023/A:1015691831489