Use of Remote Sensing for Monitoring Climate Variability for Integrated Early Warning Systems: Applications for Human Diseases and Desert Locust Management
Pietro N. Ceccato; Michael A. Bell; Martin Benno Blumenthal; Stephen J. Connor; Tufa Dinku; Emily K. Grover-Kopec; Chester F. Ropelewski; Madeleine C. Thomson
- Use of Remote Sensing for Monitoring Climate Variability for Integrated Early Warning Systems: Applications for Human Diseases and Desert Locust Management
Ceccato, Pietro N.
Bell, Michael A.
Blumenthal, Martin Benno
Connor, Stephen J.
Grover-Kopec, Emily K.
Ropelewski, Chester F.
Thomson, Madeleine C.
- International Research Institute for Climate and Society
- Permanent URL:
- Book/Journal Title:
- 2006 IEEE International Geoscience and Remote Sensing Symposium: 31 July-04 August 2006, Denver, Colorado
- Publisher Location:
- Los Alamitos, Calif.
- A number of the major human infectious diseases (like malaria and dengue) and Desert Locusts that still plague the developing world are sensitive to inter-seasonal and inter-decadal changes in environment and climate. Monitoring variations in environmental conditions such as rainfall and vegetation helps decision-makers at Ministries of Agriculture and Ministries of Health to assess the risk levels of Desert Locust outbreaks or malaria epidemics. The International research institute for climate and society (IRI) has developed products based on remotely sensed data to monitor those changes and provide the information directly to the decision-makers. This paper presents recent developments which use remote sensing to monitor climate variability, environmental conditions and their impacts on the dynamics of infectious diseases (malaria) and Desert Locust outbreaks.
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