Department of Public Health and Infectious Diseases, University of Rome La Sapienza, Rome, Italy.
Biotechnology and Agroindustry Division, ENEA (Italian National Agency for New Technologies, Energy and Sustainable Economic Development), Casaccia Research Center, Rome, Italy.
Pest Manag Sci. 2023 Sep;79(9):3167-3176. doi: 10.1002/ps.7495. Epub 2023 May 9.
Incompatible insect technique (IIT) is a population suppression approach based on the release of males with manipulated Wolbachia infection inducing egg inviability in wild females. We here present results of multiple field releases of incompatible ARwP males carried out in 2019 in a 2.7-ha green area within urban Rome (Italy) to assess the effect on Aedes albopictus egg viability. Data are compared with results obtained in 2018, when the approach was tested for the first time in Europe.
An average of 4674 ARwP males were released weekly for 7 weeks, resulting in a mean ARwP:wild male ratio of 1.1:1 (versus 0.7:1 in 2018). Egg-viability dynamics in ovitraps significantly varied between treated and control sites, with an estimated overall reduction of 35% (versus 15% in 2018). The estimated proportion of females classified as mated with ARwP males was 41.8% and the viability rate of eggs laid by these females (9.5%) was on average significantly lower than that of females only mated with wild males (87.8%); however, high variability in fertility was observed. Values of ARwP male competitiveness were 0.36 and 0.73 based on the overall viability rate of eggs in ovitraps and on female fertility, respectively; thus, well above the conventional 0.2 threshold for an effective suppressive impact in the field.
Results further support the potential of IIT as a tool to contribute to Ae. albopictus control in the urban context, stressing the need for larger field trials to evaluate the cost-efficacy of the approach in temperate regions. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.
不相容昆虫技术(IIT)是一种基于释放携带人工沃尔巴克氏体感染的雄性个体以在野生雌性中诱导卵不育的种群抑制方法。我们在此介绍了 2019 年在罗马市(意大利)一个 2.7 公顷的绿地内进行的多次田间释放不可交配 ARwP 雄性个体的结果,以评估其对白纹伊蚊卵活力的影响。数据与 2018 年首次在欧洲进行的测试结果进行了比较。
每周平均释放 4674 只 ARwP 雄性个体,持续 7 周,导致 ARwP:野生雄性个体的平均比例为 1.1:1(而 2018 年为 0.7:1)。诱卵器中的卵活力动态在处理和对照地点之间有显著差异,估计总体减少了 35%(而 2018 年为 15%)。被归类为与 ARwP 雄性个体交配的雌性个体的比例估计为 41.8%,这些雌性个体所产卵的活力率(9.5%)平均显著低于仅与野生雄性个体交配的雌性个体(87.8%);然而,生育率存在很大的变异性。基于诱卵器中卵总活力率和雌性生育率,ARwP 雄性个体竞争力的值分别为 0.36 和 0.73;因此,远高于田间有效抑制所需的传统 0.2 阈值。
结果进一步支持 IIT 作为一种有助于控制城市环境中白纹伊蚊的工具的潜力,强调需要进行更大规模的田间试验来评估该方法在温带地区的成本效益。© 2023 作者。害虫管理科学由约翰威立父子公司代表化学工业协会出版。
