Predictions of Adult Anopheles albimanus Densities in Villages Based on Distances to Remotely Sensed Larval Habitats

Eliska Rejmankova Division of Environmental Studies, University of California, Department of Preventive Medicine and Biometrics, Uniformed Services University of Health Sciences, Malaria Control Department, Ministry of Health, Davis, California, Belize

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Donald R. Roberts Division of Environmental Studies, University of California, Department of Preventive Medicine and Biometrics, Uniformed Services University of Health Sciences, Malaria Control Department, Ministry of Health, Davis, California, Belize

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Anitra Pawley Division of Environmental Studies, University of California, Department of Preventive Medicine and Biometrics, Uniformed Services University of Health Sciences, Malaria Control Department, Ministry of Health, Davis, California, Belize

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Sylvie Manguin Division of Environmental Studies, University of California, Department of Preventive Medicine and Biometrics, Uniformed Services University of Health Sciences, Malaria Control Department, Ministry of Health, Davis, California, Belize

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Jorge Polanco Division of Environmental Studies, University of California, Department of Preventive Medicine and Biometrics, Uniformed Services University of Health Sciences, Malaria Control Department, Ministry of Health, Davis, California, Belize

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Remote sensing is particularly helpful for assessing the location and extent of vegetation formations, such as herbaceous wetlands, that are difficult to examine on the ground. Marshes that are sparsely populated with emergent macrophytes and dense cyanobacterial mats have previously been identified as very productive Anopheles albimanus larval habitats. This type of habitat was detectable on a classified multispectral Systeme Probatoire d'Observation de la Terre image of northern Belize as a mixture of two isoclasses. A similar spectral signature is characteristic for vegetation of river margins consisting of aquatic grasses and water hyacinth, which constitutes another productive larval habitat. Based on the distance between human settlements (sites) of various sizes and the nearest marsh/river exhibiting this particular class combination, we selected two groups of sites: those located closer than 500 m and those located more than 1,500 m from such habitats. Based on previous adult collections near larval habitats, we defined a landing rate of 0.5 mosquitoes/human/min from 6:30 pm to 8:00 pm as the threshold for high (≥ 0.5 mosquitoes/human/min) versus low (< 0.5 mosquitoes/human/min) densities of An. albimanus. Sites located less than 500 m from the habitat were predicted as having values higher than this threshold, while lower values were predicted for sites located greater than 1,500 m from the habitat. Predictions were verified by collections of mosquitoes landing on humans. The predictions were 100% accurate for sites in the > 1,500-m category and 89% accurate for sites in the < 500-m category.

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