Potential of Organic Infusion as a Preferred Attractant for Mosquito Oviposition: A Literature Review
Keywords:
organic, mosquito, trap
Abstract
This study reviews the potential of organic substances (organic infusion) as an attractant for oviposition of gravid mosquito trap in surveillance and control of the mosquito mosquito-borne disease based
on literature indexed by Scopus and Web of Science (WOS), such as PubMed, ScienceDirect, MDPI, Springer, Wely, SiELO, and Cochrane Database of Systematic Reviews. A total of 1,804 scientific
papers were obtained, and only 12 articles met the inclusion criteria. All selected articles were quantitative studies (laboratory, semifield, and field studies). The results showed that the Ae. aegypti,
Ae. albopictus and various species of Culex are attracted to organic infusion. The organic infusion is effective in attracting mosquitoes to lay eggs in traps, especially Aedes spp. It can be used as
surveillance and the best solution in environmentally friendly disease vector control.
References
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Acevedo, N. (2021). Gravid Infusion Water Compari-son For Collection of The West Nile Virus Vector Culex Quinquefasciatus Say. Journal of the Florida Mosquito Control Association, 67(1), 10–14. https://doi.org/10.32473/jfmca.v67i1.127630
Alfiantya, P. F., Baskoro, A. D., & Zuhriyah, L. (2018). Pengaruh Variasi Lama Penyim-panan Air Rendaman Jerami Padi terhadap Jumlah Telur Nyamuk Aedes aegypti di Ovitrap Model Kepanjen medical education View project Optimus Prime View project. Global Medical and Health Communication (GMHC), April. https://doi.org/10.29313/gmhc.v6i1.2652
Allan, S A, & Kline, D. L. (1995). Evaluation of organ-ic infusions and synthetic compounds medi-ating oviposition inAedes albopictus an-dAedes aegypti (Diptera: Culicidae). Journal of Chemical Ecology, 21(11), 1847–1860. https://doi.org/10.1007/BF02033681
Allan, Sandra A., & Kline, D. L. (1995). Evaluation of organic infusions and synthetic compounds mediating oviposition inAedes albopictus andAedes aegypti (Diptera: Culicidae). Jour-nal of Chemical Ecology, 21(11), 1847–1860. https://doi.org/10.1007/BF02033681
Boyer, S., Lopes, S., Prasetyo, D., Hustedt, J., Sarady, A. S., Doum, D., Yean, S., Peng, B., Bunleng, S., Leang, R., Fontenille, D., & Hii, J. (2018). Resistance of Aedes aegypti (Diptera: Culicidae) Populations to Deltame-thrin, Permethrin, and Temephos in Cambo-dia. Asia Pacific Journal of Public Health, 30(2), 158–166. https://doi.org/10.1177/1010539517753876
Burkett-Cadena, N. D., & Mullen, G. R. (2007). Field comparison of Bermuda-hay infusion to infusions of emergent aquatic vegetation for collecting female mosquitoes. Journal of the American Mosquito Control Associa-tion, 23(2), 117–123. https://doi.org/10.2987/8756-971X(2007)23[117:FCOBIT]2.0.CO;2
Burkett-Cadena, N. D., & Mullen, G. R. (2008). Com-parison of infusions of commercially availa-ble garden products for collection of con-tainer-breeding mosquitoes. Journal of the American Mosquito Control Association, 24(2), 236–243. https://doi.org/10.2987/5597.1
Díaz-Santiz, E., Rojas, J. C., Casas-Martínez, M., Cruz-López, L., & Malo, E. A. (2020). Rat volatiles as an attractant source for the Asian tiger mosquito, Aedes albopictus. Scientific Reports, 10(1), 5170. https://doi.org/10.1038/s41598-020-61925-z
Du, Y., & Millar, J. G. (1999). Oviposition responses of gravid Culex quinquefasciatus and Culex tarsalis to bulrush (Schoenoplectus acutus) infusions. Journal of the American Mosqui-to Control Association, 15(4), 500–509.
El Amri, H., Boukharta, M., Zakham, F., & Ennaji, M. M. (2020). Emergence and Reemergence of Viral Zoonotic Diseases: Concepts and Fac-tors of Emerging and Reemerging Globaliza-tion of Health Threats. In Emerging and Reemerging Viral Pathogens (pp. 619–634). Elsevier. https://doi.org/10.1016/B978-0-12-819400-3.00027-2
Eneh, L. K., Okal, M. N., Borg-Karlson, A.-K., Fill-inger, U., & Lindh, J. M. (2016). Gravid Anopheles gambiae sensu stricto avoid ovi-positing in Bermuda grass hay infusion and it’s volatiles in two choice egg-count bioas-says. Malaria Journal, 15(1), 276. https://doi.org/10.1186/s12936-016-1330-6
Kim, D.-Y., Leepasert, T., Bangs, M. J., & Chareonviriyaphap, T. (2021). Dose–Response Assay for Synthetic Mosquito (Diptera: Culicidae) Attractant Using a High-Throughput Screening System. Insects, 12(4), 355. https://doi.org/10.3390/insects12040355
Lamaningao, P., Kanda, S., Shimono, T., Inthavong-sack, S., Xaypangna, T., & Nishiyama, T. (2020). Aedes mosquito surveillance and the use of a larvicide for vector control in a rural area of the Lao People’s Democratic Republic. Tropical Medicine and Health, 48(1), 54. https://doi.org/10.1186/s41182-020-00242-7
Lampman, R. L., & Novak, R. J. (1996). Oviposition preferences of Culex pipiens and Culex res-tuans for infusion-baited traps. Journal of the American Mosquito Control Associa-tion, 12(1), 23–32. http://www.ncbi.nlm.nih.gov/pubmed/8723254
Li, Y., Zhou, G., Zhong, D., Wang, X., Hem-ming‐Schroeder, E., David, R. E., Lee, M., Zhong, S., Yi, G., Liu, Z., Cui, G., & Yan, G. (2021). Widespread multiple insecticide resistance in the major dengue vector Ae-des albopictus in Hainan Province, China. Pest Management Science, 77(4), 1945–1953. https://doi.org/10.1002/ps.6222
Published
2023-12-31
How to Cite
Saleh, M., Basri, S., & Ekasari, R. (2023). Potential of Organic Infusion as a Preferred Attractant for Mosquito Oviposition: A Literature Review. HIGIENE: Jurnal Kesehatan Lingkungan, 9(3), 145-156. https://doi.org/10.24252/higiene.v9i3.46646
Section
Artikel
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