黄荆刺的杀幼虫作用。(片翅目:片翅科)埃及伊蚊叶提取物(Linnaeus, 1762)(双翅目:库蚊科)

Mukamilliya Aziz, Emir Izad Hashan Arif, Nur Insyirah Muhammad Dimyati, I. Ishak, R. H. Hamdan, S. Syazwan, T. Peng
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引用次数: 1

摘要

根据世界卫生组织的数据,每年有70多万人死于媒介疾病,如疟疾、登革热、恰加斯病、黄热病和日本脑炎。埃及伊蚊是登革热病毒的主要传播媒介,在世界各地,特别是热带和亚热带国家引起了极大关注。通过施用杀虫剂控制病媒是控制疾病传播的最佳方法之一。因此,埃及伊蚊对杀虫剂的耐药性对全世界的公众健康构成了重大威胁。使用对环境危害较小且没有已知耐药性发展的植物天然产品杀虫剂是化学杀虫剂的替代品。鉴于此,从Vitex ovata植物中制备了甲醇提取物,并测试了其对埃及伊蚊的杀幼虫作用。采用世界卫生组织标准方法对埃及伊蚊幼虫进行了药敏试验。结果表明,卵曲霉甲醇提取物对埃及伊蚊具有杀幼虫活性,LC50值为2114mg/L,最高浓度为10000mg/L,死亡率为84%。这项研究表明,V.ovata生物活性分子的粗提取物可能被开发为控制伊蚊媒介的生物灭活剂。这项研究建议未来研究使用不同的溶剂从瓦伊蚊中分离活性成分,鉴定具有杀幼虫特性的植物化学物质,进行毒性研究,最后评估在环境安全的植物杀虫剂干预的小规模田间试验中控制伊蚊的有效性。
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Larvicidal Effect of Vitex ovata Thunb. (Lamiales: Lamiaceae) Leaf Extract towards Aedes (Stegomyia) aegypti (Linnaeus, 1762) (Diptera: Culicidae)
According to the WHO there are more than 700,000 deaths every year involving vector-borne diseases such as malaria, dengue, Chagas disease, yellow fever and Japanese encephalitis. Aedes aegypti, the principal vector of the dengue virus, is of great concern in various parts of the world, especially in tropical and subtropical countries. Vector control through insecticide application is one of the best ways to control the disease’s transmission. Thus, insecticide resistance in Ae. aegypti poses a significant threat to public health worldwide. The use of plant natural product-based insecticides that are less harmful to the environment, and without known resistance development, constitutes an alternative to chemical insecticides. Given this, a methanolic extract from Vitex ovata plants was prepared and tested for its larvicidal effect against Ae. aegypti. A susceptibility test on Ae. aegypti larvae was conducted using the standard WHO method. Results showed that the methanolic extract of V. ovata had larvicidal activity against Ae. aegypti with LC50 values of 2114 mg/L, and achieved 84% mortality with the highest concentration at 10,000 mg/L. This study showed that the crude extract of V. ovata bioactive molecules could be potentially developed as biolarvicides for Aedes mosquito vector control. This study recommends future research on using different solvents in the isolation of active ingredients from V. ovata, identification of phytochemicals with larvicidal properties, a toxicity study and lastly, an evaluation of the effectiveness of controlling Aedes in small-scale field trials for environmentally safe botanical insecticide intervention.
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