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ARS Home » Southeast Area » Gainesville, Florida » Center for Medical, Agricultural and Veterinary Entomology » Mosquito and Fly Research » Research » Publications at this Location » Publication #233815

Title: Climate Change and Evolution of Vector Associated Pathogens: Potential to Increase or Decrease Duration and Intensity of Epidemics

Author
item Linthicum, Kenneth - Ken
item Gibson, Seth
item ANYAMBA, ASSAF - NASA GODDARD SPACE FLT CT
item SMALL, JENNIFER - NASA GODDARD SPACE FLT CT
item PAK, ED - NASA GODDARD SPACE FLT CT
item TUCKER, COMPTON - NASA GODDARD SPACE FLT CT
item CHRETIEN, JEAN-PAUL - WALTER REED ARMY INST.

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 11/24/2008
Publication Date: 11/24/2008
Citation: Linthicum, K., Britch, S.C., Anyamba, A., Small, J., Pak, E., Tucker, C.J., Chretien, J. 2008. Climate Change and Evolution of Vector Associated Pathogens: Potential to Increase or Decrease Duration and Intensity of Epidemics. Presented at the Climate Changes and Changes in Epidemiology Meeting in Anncey/Les Pensieres, France on November 24-26, 2008.

Interpretive Summary:

Technical Abstract: Population growth, frontier agricultural expansion, and urbanization transform the landscape and the surrounding ecosystem, affecting climate, diseases, and interactions between animals and humans. Additionally, the Earth’s oceans serve as the engine of the Earth’s climate and ecosystems, and they are closely linked. Several examples will be used to demonstrate that we share a global environment that strongly influences vector-borne disease transmission. First, we will describe how temperature plays a major role in the ability of Ae. aegypti to transmit dengue virus in Southeast Asia and possibly chikungunya virus in Africa. Second, we will describe how rainfall affects the ability of Aedes and Culex species to transmit RVF in sub-Saharan Africa. Third, we will describe how modifications to environment such as the construction of a dam and development of rice irrigation projects affect the ability of Culex species to transmit RVF in Mauritania and Senegal. During periods of elevated transmission there is a significantly increased risk of globalization of these and other arboviruses. The ability to predict periods of elevated risk might permit us to design better prevention, containment, or exclusion strategies to limit globalization of these and other pathogens.