Modeling Spatio-temporal Malaria Risk Using Remote Sensing and Environmental Factors

Modeling Spatio-temporal Malaria Risk Using Remote Sensing and Environmental Factors

Background: Remote sensing have been intensively used across many disciplines, however, such information was limited in spatial epidemiology. Methods: Two years (2009 & 2010) Landsat TM satellite data was used to develop vegetation, water bodies, air temperature and humidity criterion maps to...

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Bibliographic Details
Main Authors: Muhammad Haris MAZHER, Javed IQBAL, Muhammad Ahsan MAHBOOB, Iqra ATIF
Format: Article
Language:English
Published: Tehran University of Medical Sciences 2018-08-01
Series:Iranian Journal of Public Health
Subjects:
Malaria
Climatic and environmental variables
Remote sensing
Malaria risk modeling
Pakistan
Online Access:https://ijph.tums.ac.ir/index.php/ijph/article/view/14580
Description
Summary:Background: Remote sensing have been intensively used across many disciplines, however, such information was limited in spatial epidemiology. Methods: Two years (2009 & 2010) Landsat TM satellite data was used to develop vegetation, water bodies, air temperature and humidity criterion maps to model malaria risk and its spatiotemporal seasonal variation. The criterion maps were used in weighted overlay analysis to generate final categorized malaria risk map. Results: Overall, 25%, 68%, 18% and 16% of the total area of Rawalpindi region was categorized as danger zone for Jun 2009, Oct 2009, Jan 2010 and Jun 2010, respectively. The malaria risk reached at its peak during the monsoon season whereas air temperature and relative humidity were the main contributing factors in seasonal variation. Conclusion: Malaria risk maps could be used for prioritizing areas for malaria control measures.
ISSN:2251-6085
2251-6093

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