水稻种植模式对马里水稻种植村庄疟疾媒介丰度的影响。
Effect of rice cultivation patterns on malaria vector abundance in rice-growing villages in Mali.
作者信息
Diuk-Wasser Maria A, Touré Mahamoudou B, Dolo Guimogo, Bagayoko Magaran, Sogoba Nafoman, Sissoko Ibrahim, Traoré Sékou F, Taylor Charles E
机构信息
Department of Epidemiology and Public Health, Yale School of Medicine, New Haven, Connecticut 06510, USA.
出版信息
Am J Trop Med Hyg. 2007 May;76(5):869-74.
Abstract
Irrigation for rice cultivation increases the production of Anopheles gambiae, the main vector of malaria in Mali. Mosquito abundance is highly variable across villages and seasons. We examined whether rice cultivation patterns mapped using remotely sensed imagery can account for some of this variance. We collected entomologic data and mapped land use around 18 villages in the two cropping seasons during two years. Land use classification accuracy ranged between 70% and 86%. The area of young rice explained 86% of the inter-village variability in An. gambiae abundance in August before the peak in malaria transmission. Estimating rice in a 900-meter buffer area around the villages resulted in the best correlation with mosquito abundance, larger buffer areas were optimum in the October and dry season models. The quantification of the relationship between An. gambiae abundance and rice cultivation could have management applications that merit further study.
摘要
水稻种植灌溉增加了冈比亚按蚊的繁殖,冈比亚按蚊是马里疟疾的主要传播媒介。蚊虫数量在不同村庄和季节差异很大。我们研究了利用遥感影像绘制的水稻种植模式是否能解释这种差异的一部分。我们收集了昆虫学数据,并在两年中的两个种植季节绘制了18个村庄周围的土地利用情况。土地利用分类准确率在70%至86%之间。幼龄稻田面积解释了疟疾传播高峰前8月冈比亚按蚊数量在村庄间变异的86%。对村庄周围900米缓冲区的水稻进行估算,与蚊虫数量的相关性最佳,在10月和旱季模型中,更大的缓冲区是最佳的。冈比亚按蚊数量与水稻种植之间关系的量化可能具有管理应用价值,值得进一步研究。
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