OBJECTIVE: To determine the relative importance of Aedes aegyti breeding sites for potential targeted dengue control interventions in Morelos. MATERIAL AND METHODS: Cross-sectional entomological surveys were conducted and collection of Ae. aegypti pupae was taken from all water-holding containers in Cuautla, Jojutla and Tlaquiltenango during dry (1,713 households) and rainy (1,677) seasons in 2008. Relative importance of different types of breeding sites was determined by the contribution (%) to total pupae production within each locality. RESULTS: In Cuautla most pupae during the dry season were found in wash basins (48.5%), tanks and buckets/pots (15% each); during the rainy season, diverse small items (21.3%), buckets/pots (19.3%) and plant pots (12.9%) were more productive. In Jojutla and Tlaquiltenango, 97% of all pupae was found in plant pots during the dry season; during the rainy season diverse small items (26.3%), washing/cooking utensils (13.9%), buckets/pots (12.9%) and plant pots (12.7%) were significant. CONCLUSION: Prevention and control of the dengue vector should be based on this kind of evidence to target the most productive breeding-sites.
OBJECTIVE: To determine the relative importance of Aedes aegyti breeding sites for potential targeted dengue control interventions in Morelos. MATERIAL AND METHODS: Cross-sectional entomological surveys were conducted and collection of Ae. aegypti pupae was taken from all water-holding containers in Cuautla, Jojutla and Tlaquiltenango during dry (1,713 households) and rainy (1,677) seasons in 2008. Relative importance of different types of breeding sites was determined by the contribution (%) to total pupae production within each locality. RESULTS: In Cuautla most pupae during the dry season were found in wash basins (48.5%), tanks and buckets/pots (15% each); during the rainy season, diverse small items (21.3%), buckets/pots (19.3%) and plant pots (12.9%) were more productive. In Jojutla and Tlaquiltenango, 97% of all pupae was found in plant pots during the dry season; during the rainy season diverse small items (26.3%), washing/cooking utensils (13.9%), buckets/pots (12.9%) and plant pots (12.7%) were significant. CONCLUSION: Prevention and control of the dengue vector should be based on this kind of evidence to target the most productive breeding-sites.
Authors: Carlos M Baak-Baak; Roger Arana-Guardia; Nohemi Cigarroa-Toledo; Maria Alba Loroño-Pino; Guadalupe Reyes-Solis; Carlos Machain-Williams; Barry J Beaty; Lars Eisen; Julián E García-Rejón Journal: J Med Entomol Date: 2014-03 Impact factor: 2.278
Authors: Arcadio Morales-Pérez; Elizabeth Nava-Aguilera; Alejandro Balanzar-Martínez; Antonio Juan Cortés-Guzmán; David Gasga-Salinas; Irma Esther Rodríguez-Ramos; Alba Meneses-Rentería; Sergio Paredes-Solís; José Legorreta-Soberanis; Felipe Gil Armendariz-Valle; Robert J Ledogar; Anne Cockcroft; Neil Andersson Journal: BMC Public Health Date: 2017-05-30 Impact factor: 3.295
Authors: Abel Jiménez-Alejo; Arcadio Morales-Pérez; Elizabeth Nava-Aguilera; Miguel Flores-Moreno; Sinahí Apreza-Aguilar; Wilhelm Carranza-Alcaraz; Antonio Juan Cortés-Guzmán; Ildefonso Fernández-Salas; Robert J Ledogar; Anne Cockcroft; Neil Andersson Journal: BMC Public Health Date: 2017-05-30 Impact factor: 3.295