Evaluation of a CO2‐free commercial mosquito attractant to capture triatomines in the laboratory

Efforts have been made to develop vertebrate odor‐based attractants to lure hematophagous triatomines into traps. However, more work is needed to reach a practical, cheap, and efficient odor lure. We carried out attraction and capture tests in a dual‐choice olfactometer and a pitfall trap. Here we report that a three‐component, CO₂‐free, synthetic blend of vertebrate odor (consisting of ammonia, L(+) lactic acid and hexanoic acid, and known as Sweetscent®) significantly induces 3^rd‐instar Rhodnius prolixus and Triatoma infestans nymphs to fall into the test capture‐tube of the olfactometer. Blend constituents presented singly or in two‐component blends did not evoke a response and, therefore, we propose that the insects respond specifically to the three‐component blend in a synergistic way. When tested in a pitfall trap in an experimental arena, this blend induced capture in 37.5% of the lured traps, whereas 9% of the nymphs tested were captured in a single night. No insects were captured in control traps. Our work represents a proof‐of‐concept regarding capture of triatomines using host odor‐based, CO₂‐free synthetic mixtures as lures for pitfall traps. CO₂‐free lures are more practical for field work than natural or CO₂‐containing synthetic blends.