TY - JOUR
T1 - Climate change and infectious diseases
T2 - Can we meet the needs for better prediction?
AU - Rodó, Xavier
AU - Pascual, Mercedes
AU - Doblas-Reyes, Francisco J.
AU - Gershunov, Alexander
AU - Stone, Dáithí A.
AU - Giorgi, Filippo
AU - Hudson, Peter J.
AU - Kinter, James
AU - Rodríguez-Arias, Miquel Àngel
AU - Stenseth, Nils Ch
AU - Alonso, David
AU - García-Serrano, Javier
AU - Dobson, Andrew P.
N1 - Funding Information:
Acknowledgements The authors want to thank the La Caixa Foundation and in particular, Paquita Ciller, for the support received to host and fund the meeting on climate, populations and infectious diseases held at the COSMOCAIXA museum in Barcelona, in November, 2006. We also thank Kyrre l. Kausrud, Sunetra Gupta, Kevin Lafferty, Menno Bouma, D. Volpi and three Anonymous Referees for many useful discussions and comments on earlier versions of the manuscript. FJDR received financial support from the ENSEMBLES project (GOCE-CT-2003-505539). Support for this work was also provided by CIRCE-EUFP6 to X.R., by NIH/NSF EID Grant 0430120 and a NOAA award to X.R., M.P., J.K. and A.J.D. J.G-S and X. Rodó wants to acknowledge support from the EU project QWeCI (Quantifying Weather and Climate Impacts on health in developing countries; funded by the European Commission’s Seventh Framework Research Programme under the grant agreement 243964). and the DENFREE: DENgue research Framework for Resisting Epidemics in Europe of the EUFP7 programme project. M. Pascual is an investigator of the Howard Hughes Medical Institute.
PY - 2013/6
Y1 - 2013/6
N2 - The next generation of climate-driven, disease prediction models will most likely require a mechanistically based, dynamical framework that parameterizes key processes at a variety of locations. Over the next two decades, consensus climate predictions make it possible to produce forecasts for a number of important infectious diseases that are largely independent of the uncertainty of longer-term emissions scenarios. In particular, the role of climate in the modulation of seasonal disease transmission needs to be unravelled from the complex dynamics resulting from the interaction of transmission with herd immunity and intervention measures that depend upon previous burdens of infection. Progress is also needed to solve the mismatch between climate projections and disease projections at the scale of public health interventions. In the time horizon of seasons to years, early warning systems should benefit from current developments on multi-model ensemble climate prediction systems, particularly in areas where high skill levels of climate models coincide with regions where large epidemics take place. A better understanding of the role of climate extremes on infectious diseases is urgently needed.
AB - The next generation of climate-driven, disease prediction models will most likely require a mechanistically based, dynamical framework that parameterizes key processes at a variety of locations. Over the next two decades, consensus climate predictions make it possible to produce forecasts for a number of important infectious diseases that are largely independent of the uncertainty of longer-term emissions scenarios. In particular, the role of climate in the modulation of seasonal disease transmission needs to be unravelled from the complex dynamics resulting from the interaction of transmission with herd immunity and intervention measures that depend upon previous burdens of infection. Progress is also needed to solve the mismatch between climate projections and disease projections at the scale of public health interventions. In the time horizon of seasons to years, early warning systems should benefit from current developments on multi-model ensemble climate prediction systems, particularly in areas where high skill levels of climate models coincide with regions where large epidemics take place. A better understanding of the role of climate extremes on infectious diseases is urgently needed.
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U2 - 10.1007/s10584-013-0744-1
DO - 10.1007/s10584-013-0744-1
M3 - Article
AN - SCOPUS:84878351455
SN - 0165-0009
VL - 118
SP - 625
EP - 640
JO - Climatic Change
JF - Climatic Change
IS - 3-4
ER -