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Revista de Salud Pública
versión impresa ISSN 0124-0064
Resumen
DUQUE L., Jonny E.; MUNOZ L., Anibal y NAVARRO-SILVA, Mario A.. A simulation model for the control of the Aedes aegypti, the mosquito vector of dengue and yellow fever, by the crustacean Mesocyclops spp.. Rev. salud pública [online]. 2004, vol.6, n.1, pp.87-99. ISSN 0124-0064.
OBJETIVE: A simulation model is presented to show the predation dynamics of Mesocyclops spp. over Aedes aegypti.i METHODS: The system is represented through four differential equations. H'(t), quantity of eggs; L'(t), quantity of larvae; A'(t), quantity of adults and C'(t), quantity of copepods. Initially the equations are of the classic predator-prey type, according to Lotka (1924) and Volterra (1926). Then it is modified into a system with functional response for invertebrates, according to Holling. RESULTS: The first system effectively controls and stabilizes the mosquito population, while the second suggests that copepods may be ineffective as mosquito controllers. CONCLUSIONS: The need to study predator-prey systems (copepodos-mosquitos) with projects that integrate laboratory and of field tests is recognized. Only then will it be possible to establish the validity of predators as effective biological controllers of mosquitoes.
Palabras clave : Mosquito control; mathematical models; dengue.