<p>Mosquito-borne diseases continue to pose a global health threat, particularly in tropical and subtropical regions. As increasing insecticide resistance and ecological concerns challenge traditional vector control methods, semiochemical attractants have emerged as a promising enhancement for surveillance and population management. This review compiles recent advances in the chemical ecology of adult mosquitoes, focusing on volatile organic compounds (VOCs) that influence key behaviours: sugar foraging, blood-feeding, mating and oviposition. We assess the behavioural relevance, chemical composition and experimental validation of attractant blends across major mosquito vector genera, including <i>Aedes</i>, <i>Anopheles</i> and <i>Culex</i>. Special attention is given to host- and microbe-derived VOCs, pathogen-modulated odours, plant-based lures and conspecific cues. By comparing the efficacy of synthetic and natural attractants and highlighting methodological limitations in VOC collection and testing, we identify knowledge gaps and propose directions for developing species- and context-specific lures. This comprehensive review provides a foundation for integrating attractant-based tools into sustainable vector control strategies.</p> Graphical Abstract <p></p>

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Making scents of mosquito lures: semiochemical attractants for adult mosquitoes

  • Nyasha K. T. Thomas,
  • Colin Berry,
  • Islam S. Sobhy

摘要

Mosquito-borne diseases continue to pose a global health threat, particularly in tropical and subtropical regions. As increasing insecticide resistance and ecological concerns challenge traditional vector control methods, semiochemical attractants have emerged as a promising enhancement for surveillance and population management. This review compiles recent advances in the chemical ecology of adult mosquitoes, focusing on volatile organic compounds (VOCs) that influence key behaviours: sugar foraging, blood-feeding, mating and oviposition. We assess the behavioural relevance, chemical composition and experimental validation of attractant blends across major mosquito vector genera, including Aedes, Anopheles and Culex. Special attention is given to host- and microbe-derived VOCs, pathogen-modulated odours, plant-based lures and conspecific cues. By comparing the efficacy of synthetic and natural attractants and highlighting methodological limitations in VOC collection and testing, we identify knowledge gaps and propose directions for developing species- and context-specific lures. This comprehensive review provides a foundation for integrating attractant-based tools into sustainable vector control strategies.

Graphical Abstract