Abstract
Existing methods to detect domestic triatomines have low sensitivity. As early house infestation detection is epidemiologically important, the exploration of better methods is required. Hence, we measured the attractiveness of a yeast-baited trap to adults and nymphs of Triatoma infestans, under laboratory conditions. The assays were conducted in an experimental arena, with an experimental and a control traps placed at opposite sides and one refuge in the center area. Insects were released and the number of triatomines in the yeast and control traps were counted, after 3, 6 and 24 h of the beginning of the experiment. We used generalized linear models within a multimodel inference approach to model the number of insects in the trap, using insect age classes, time after assay initiation and date of the experiment as predictors. Our results show that the attraction to CO2 depends upon the life stage of the insects. During the 24 h of experiment a constant number of adults (3.5; 95% CI [3.0; 4.1]) were attracted to the yeast trap, while nymphs show attraction only up to the first three hours after the initiation of CO2 liberation (2.7; 95% CI [2.0; 3.5]). Undoubtedly, the orientation response to chemical cues deserves further studies to be fully understood.
Highlights
Chagas disease is considered one of the most important endemic diseases inLatin America, affecting approximately 5–6 million individuals
[2.97;4.09]) adults and 2.71 nymph instar that moved out of the refuge where attracted by the yeast trap, and only 5% of adults and 7% of nymph instars remained in the refuge after 24 hs
Our results confirm the effectiveness of CO2 liberated by a small yeast culture to attract T. infestans
Summary
Chagas disease is considered one of the most important endemic diseases inLatin America, affecting approximately 5–6 million individuals. Triatoma infestans, characterized by its high adaptive capacity to domestic environments, is the vector with the greatest epidemiological importance in the Southern Cone countries of South America (Rabinovich 1972; Lent and Wygodzinsky 1979). The maximum geographical expansion of T. infestans distribution occurred between 1970 and 1980 with an estimated occupation area of 6.28 million km 2, including Argentina, Bolivia, Brazil, Chile, Paraguay, Peru and Uruguay. The. Southern Cone Initiative, coordinated by the Pan American Health Organization to control the transmission of Chagas disease in Latin America from 1991 interrupted the vector transmission of T. cruzi in Chile, Uruguay and Brazil through insecticide-based vector control, health education and house improvement programs (Dias et al 2002). The Initiative produced a significant reduction of the distribution area of T. infestans to less than 1 million km
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