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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 #222648

Title: The Role of Global Climate Patterns in the Spatial and Temporal Distribution of Vector-Borne Disease: Implications for California in 2008

Author
item Linthicum, Kenneth - Ken
item ANYAMBA, ASSAF - GODDARD SPACE FLIGHT CTR
item CHRETIEN, JEAN-PAUL - DOD-GEIS SILVER SPRING,MD
item SMALL, JENNIFER - GODDARD SPACE FLIGHT CTR
item PAK, ED - GODDARD SPACE FLIGHT CTR
item TUCKER, COMPTON - GODDARD SPACE FLIGHT CTR
item Gibson, Seth

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 1/13/2008
Publication Date: 1/13/2008
Citation: Linthicum, K., Anyamba, A., Chretien, J., Small, J., Pak, E., Tucker, C.J., Britch, S.C. 2008. The Role of Global Climate Patterns in the Spatial and Temporal Distribution of Vector-Borne Disease: Implications for California in 2008. Presented at the 76th Annual Conference of the Mosquito and Vector Control Association of California in Palm Springs, CA on January 13-16, 2008.

Interpretive Summary:

Technical Abstract: Global climate patterns, such as the El Niño/Southern Oscillation (ENSO), have been shown to have an impact on vector-borne infectious disease outbreaks. Evidence of the links between ENSO driven climate anomalies and infectious diseases, particularly those transmitted by insects, can allow us to provide improved long range forecasts of an epidemic or epizootic. Using satellite generated data developing climate anomalies suggested potential disease risks for 2006 and 2007. Sea surface temperatures in the equatorial east Pacific Ocean anomalously increased significantly during July – October 2006 indicating the typical development of El Niño conditions. The persistence of these conditions led to extremes in global-scale climate anomalies comparable to what has been observed during similar conditions in the past. The 2006 development of El Niño conditions had significant implications for global public health. Extremes in climate events with above normal rainfall and flooding in some regions and extended drought periods in other regions occurred. Now we are in a Cold or La Nina phase. In Forecasting disease is critical for timely and effective planning of operational control programs. Here we describe global climate anomalies that led to forecasts of elevated disease risks that gave decision makers additional tools to make rational judgments concerning implementation of vector-borne disease prevention and mitigation strategies with emphasis on California.