Ammonia As an Attractive Component of Host Odour for the Yellow Fever Mosquito, Aedes Aegypti
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Behavioural responses of Aedes aegypti mosquitoes to ammonia were investigated in a modified Y-tube olfactometer. Ammonia was attractive in concentrations from 17 ppb to 17 ppm in air when presented together with lactic acid. Aqueous solutions of ammonia salts in concentrations comparable to those found in human sweat also increased the attractiveness of lactic acid. The role of lactic acid as an essential synergist for ammonia became further apparent by the fact that ammonia alone or in combination with carbon dioxide was not effective, even though the synergistic effect of carbon dioxide and lactic acid was corroborated. An extract from human skin residues, which attracts approximately 80% of the tested mosquitoes, contains both lactic acid and ammonia. The combination of these compounds, however, attracts no more than 45%, indicating that other components on human skin also play a role in host finding. Preparative liquid chromatography of the skin extract yielded three behaviourally active fractions which work together synergistically. Fraction III contains lactic acid as the effective principle; the compositions of the other two have not been clarified yet. The attractiveness of fraction I was augmented considerably when ammonia was added, whereas the effect of fraction II was not influenced by ammonia. These results suggests that ammonia is part of the effective principle of fraction II and contributes to the attractive effect of host odours.
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Wood M, Bull J, Kanagachandran K, Butt T PLoS One. 2024; 19(3):e0299144.
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Pusawang K, Sriwichai P, Aupalee K, Yasanga T, Phuackchantuck R, Zhong D Arthropod Struct Dev. 2023; 76:101296.
PMID: 37657362 PMC: 10530502. DOI: 10.1016/j.asd.2023.101296.