残杀威喷洒在透水墙壁上的持效期较短及其对埃塞俄比亚室内滞留喷洒项目的影响
Short persistence of bendiocarb sprayed on pervious walls and its implication for the indoor residual spray program in Ethiopia.
作者信息
Yeebiyo Yemane, Dengela Dereje, Tesfaye Alemayehu Getachew, Anshebo Gedeon Yohannes, Kolyada Lena, Wirtz Robert, Chibsa Sheleme, Fornadel Christen, George Kristen, Belemvire Allison, Taffese Hiwot Solomon, Lucas Bradford
机构信息
The President's Malaria Initiative Africa Indoor Residual Spraying Project, Abt Associates, Gerji Road, Sami Building, 1st Floor, Addis Ababa, Ethiopia.
The President's Malaria Initiative Africa Indoor Residual Spraying Project, Abt Associates, 4550 Montgomery Ave., Suite 800 North, Bethesda, MD, 20814, USA.
出版信息
Parasit Vectors. 2016 May 5;9:266. doi: 10.1186/s13071-016-1549-7.
BACKGROUND
With the emergence and spread of vector resistance to pyrethroids and DDT in Africa, several countries have recently switched or are considering switching to carbamates and/or organophosphates for indoor residual spraying (IRS). However, data collected on the residual life of bendiocarb used for IRS in some areas indicate shorter than expected bio-efficacy. This study evaluated the effect of pH and wall type on the residual life of the carbamates bendiocarb and propoxur as measured by the standard World Health Organization (WHO) cone bioassay test.
METHODS
In phase I of this study, bendiocarb and propoxur were mixed with buffered low pH (pH 4.3) local water and non-buffered high pH (pH 8.0) local water and sprayed on two types of wall surface, mud and dung, in experimental huts. In the six month phase II study, the two insecticides were mixed with high pH local water and sprayed on four different surfaces: painted, dung, mud and mud pre-wetted with water. The residual bio-efficacy of the insecticides was assessed monthly using standard WHO cone bioassay tests.
RESULTS
In phase I, bendiocarb mixed with high pH water killed more than 80% of susceptible Anopheles arabiensis mosquitoes for two months on both dung and mud surfaces. On dung surfaces, the 80% mortality threshold was achieved for three months when the bendiocarb was mixed with low pH water and four months when it was mixed with high pH water. Propoxur lasted longer than bendiocarb on dung surfaces, staying above the 80% mortality threshold for four and five months when mixed with high and low pH water, respectively. Phase II results also showed that the type of surface sprayed has a significant impact on the bio-efficacy of bendiocarb. Keeping the spray water constant at the same high pH of 8.0, bendiocarb killed 100% of exposed mosquitoes on impervious painted surfaces for the six months of the study period compared with less than one month on mud surfaces.
CONCLUSIONS
Mixing the insecticides in alkaline water did not reduce the residual bio-efficacy of bendiocarb. However, bendiocarb performed much better on impervious (painted) surfaces than on porous dung or mud ones. Propoxur was less affected by wall type than was bendiocarb. Studies on the interaction between wall materials, soil, humidity, temperature and pH and the residual bio-efficacy of new and existing insecticides are recommended prior to their wide use in IRS.
背景
随着非洲病媒对拟除虫菊酯和滴滴涕产生抗药性并传播开来,一些国家最近已改用或正考虑改用氨基甲酸盐和/或有机磷用于室内滞留喷洒(IRS)。然而,在某些地区收集的关于用于IRS的残杀威残留寿命的数据表明其生物活性比预期的短。本研究通过标准的世界卫生组织(WHO)锥形生物测定试验评估了pH值和墙面类型对氨基甲酸盐残杀威和残杀威的残留寿命的影响。
方法
在本研究的第一阶段,将残杀威和残杀威与缓冲的低pH值(pH 4.3)当地水和未缓冲的高pH值(pH 8.0)当地水混合,并喷洒在实验小屋的两种墙面,即泥墙和粪墙上。在为期六个月的第二阶段研究中,将这两种杀虫剂与高pH值的当地水混合,并喷洒在四种不同的表面上:涂漆表面、粪墙、泥墙和预先用水浸湿的泥墙。每月使用标准的WHO锥形生物测定试验评估杀虫剂的残留生物活性。
结果
在第一阶段,与高pH值水混合的残杀威在粪墙和泥墙表面上两个月内杀死了超过80%的易感阿拉伯按蚊。在粪墙表面,当残杀威与低pH值水混合时,三个月达到80%的死亡率阈值,与高pH值水混合时四个月达到该阈值。残杀威在粪墙表面的持续时间比残杀威长,与高pH值水和低pH值水混合时,分别在四个月和五个月内保持在80%的死亡率阈值以上。第二阶段的结果还表明,喷洒表面的类型对残杀威的生物活性有显著影响。在整个六个月的研究期间,将喷雾水的pH值保持在相同的高pH值8.0时,残杀威在不透水的涂漆表面上杀死了100%暴露的蚊子,而在泥墙表面上不到一个月。
结论
在碱性水中混合杀虫剂不会降低残杀威的残留生物活性。然而,残杀威在不透水(涂漆)表面上的表现比在多孔的粪墙或泥墙表面上好得多。残杀威受墙面类型的影响比残杀威小。建议在IRS中广泛使用新型和现有杀虫剂之前,先研究墙面材料、土壤、湿度、温度和pH值与它们的残留生物活性之间的相互作用。
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