环境改良对埃塞俄比亚西南部 Arjo-Dedessa 灌溉发展区按蚊蚊媒栖息地多样性和阳性率的影响。
Effects of environmental modification on the diversity and positivity of anopheline mosquito aquatic habitats at Arjo-Dedessa irrigation development site, Southwest Ethiopia.
机构信息
Yirgalem Hospital Medical College, Yirgalem, Ethiopia.
Department of Medical Laboratory Sciences and Pathology, Institute of Health, Jimma University, Jimma, Ethiopia.
出版信息
Infect Dis Poverty. 2020 Jan 27;9(1):9. doi: 10.1186/s40249-019-0620-y.
BACKGROUND
Irrigated agriculture is key to increase agricultural productivity and ensure food security in Africa. However, unintended negative public health impacts (e.g. malaria) of such environmental modification have been a challenge. This study assessed the diversity and distribution of breeding habitats of malaria vector mosquitoes around Arjo-Dedessa irrigation development site in Southwest Ethiopia.
METHODS
Anopheline mosquito larvae were surveyed from two agroecosystems, 'irrigated' and 'non-irrigated' areas during the dry (December 2017-February 2018) and wet (June 2018-August 2018) seasons. Mosquito habitat diversity and larval abundance were compared between the irrigated and non-irrigated areas. The association between anopheline mosquito larvae occurrence and environmental parameters was analysed using Pearson chi-square. Multiple logistic regression analysis was used to determine primary parameters that influence the occurrence of anopheline larvae.
RESULTS
Overall, 319 aquatic habitats were surveyed during the study period. Around 60% (n = 152) of the habitats were positive for anopheline mosquito larvae, of which 63.8% (n = 97) and 36.2% (n = 55) were from irrigated and non-irrigated areas, respectively. The number of anopheline positive habitats was two-fold higher in irrigated than non-irrigated areas. Anopheline larval abundance in the irrigated area was 16.6% higher than the non-irrigated area. Pearson's chi-square analysis showed that season (χ = 63.122, df = 1, P < 0.001), agroecosystem (being irrigated or non-irrigated) (χ = 6.448, df = 1, P = 0.011), and turbidity (χ = 7.296, df = 2, P = 0.025) had a significant association with larval anopheline occurrence.
CONCLUSIONS
The study showed a higher anopheline mosquito breeding habitat diversity, larval occurrence and abundance in the irrigated than non-irrigated areas in both dry and wet seasons. This indicates that irrigation development activities contribute to proliferation of suitable mosquito breeding habitats that could increase the risk of malaria transmission. Incorporating larval source management into routine malaria vector control strategies could help reduce mosquito population density and malaria transmission around irrigation schemes.
背景
灌溉农业是提高农业生产力和确保非洲粮食安全的关键。然而,这种环境改变带来的意外负面公共卫生影响(例如疟疾)一直是一个挑战。本研究评估了在埃塞俄比亚西南部的 Arjo-Dedessa 灌溉发展项目周围,疟疾媒介蚊子的滋生地的多样性和分布。
方法
在旱季(2017 年 12 月至 2 月)和雨季(2018 年 6 月至 8 月)期间,从两个农业生态系统(“灌溉”和“非灌溉”区)中调查了按蚊幼虫。比较了灌溉区和非灌溉区的蚊子滋生地多样性和幼虫丰度。使用皮尔逊卡方检验分析按蚊幼虫发生与环境参数之间的关系。使用多因素逻辑回归分析确定影响按蚊幼虫发生的主要参数。
结果
在整个研究期间,共调查了 319 个水生栖息地。约 60%(n=152)的栖息地检测到按蚊幼虫阳性,其中 63.8%(n=97)和 36.2%(n=55)分别来自灌溉区和非灌溉区。与非灌溉区相比,灌溉区的按蚊阳性栖息地数量高出两倍。灌溉区按蚊幼虫的丰度比非灌溉区高 16.6%。皮尔逊卡方分析显示,季节(χ²=63.122,df=1,P<0.001)、农业生态系统(灌溉或非灌溉)(χ²=6.448,df=1,P=0.011)和浊度(χ²=7.296,df=2,P=0.025)与按蚊幼虫的发生有显著关联。
结论
本研究表明,在旱季和雨季,与非灌溉区相比,灌溉区的按蚊滋生地多样性、幼虫发生和丰度更高。这表明灌溉发展活动有助于滋生更多适合蚊子滋生的栖息地,从而增加疟疾传播的风险。将幼虫源管理纳入常规疟疾媒介控制策略中,有助于降低灌溉计划周围的蚊子种群密度和疟疾传播。
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