Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe
Warming temperatures may increase the geographic spread of vector-borne diseases into temperate areas. Although a tropical mosquito-borne viral disease, a dengue outbreak occurred in Madeira, Portugal, in 2012; the first in Europe since 1920s. This outbreak emphasizes the potential for dengue re-eme...
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2016
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sg-ntu-dr.10356-805242022-02-16T16:29:38Z Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe Liu-Helmersson, Jing Quam, Mikkel Wilder-Smith, Annelies Stenlund, Hans Ebi, Kristie Massad, Eduardo Rocklöv, Joacim Lee Kong Chian School of Medicine (LKCMedicine) Dengue Vectorial capacity Aedes aegypti Aedes albopictus Temperature Climate change Warming temperatures may increase the geographic spread of vector-borne diseases into temperate areas. Although a tropical mosquito-borne viral disease, a dengue outbreak occurred in Madeira, Portugal, in 2012; the first in Europe since 1920s. This outbreak emphasizes the potential for dengue re-emergence in Europe given changing climates. We present estimates of dengue epidemic potential using vectorial capacity (VC) based on historic and projected temperature (1901–2099). VC indicates the vectors' ability to spread disease among humans. We calculated temperature-dependent VC for Europe, highlighting 10 European cities and three non-European reference cities. Compared with the tropics, Europe shows pronounced seasonality and geographical heterogeneity. Although low, VC during summer is currently sufficient for dengue outbreaks in Southern Europe to commence–if sufficient vector populations (either Ae. aegypti and Ae. albopictus) were active and virus were introduced. Under various climate change scenarios, the seasonal peak and time window for dengue epidemic potential increases during the 21st century. Our study maps dengue epidemic potential in Europe and identifies seasonal time windows when major cities are most conducive for dengue transmission from 1901 to 2099. Our findings illustrate, that besides vector control, mitigating greenhouse gas emissions crucially reduces the future epidemic potential of dengue in Europe. Published version 2016-05-11T02:20:27Z 2019-12-06T13:51:27Z 2016-05-11T02:20:27Z 2019-12-06T13:51:27Z 2016 Journal Article Liu-Helmersson, J., Quam, M., Wilder-Smith, A., Stenlund, H., Ebi, K., Massad, E., et al. (2016). Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe. EBioMedicine, in press. 2352-3964 https://hdl.handle.net/10356/80524 http://hdl.handle.net/10220/40518 10.1016/j.ebiom.2016.03.046 27322480 en EBioMedicine © 2016 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). 11 p. application/pdf |
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Dengue Vectorial capacity Aedes aegypti Aedes albopictus Temperature Climate change |
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Dengue Vectorial capacity Aedes aegypti Aedes albopictus Temperature Climate change Liu-Helmersson, Jing Quam, Mikkel Wilder-Smith, Annelies Stenlund, Hans Ebi, Kristie Massad, Eduardo Rocklöv, Joacim Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| description |
Warming temperatures may increase the geographic spread of vector-borne diseases into temperate areas. Although a tropical mosquito-borne viral disease, a dengue outbreak occurred in Madeira, Portugal, in 2012; the first in Europe since 1920s. This outbreak emphasizes the potential for dengue re-emergence in Europe given changing climates. We present estimates of dengue epidemic potential using vectorial capacity (VC) based on historic and projected temperature (1901–2099). VC indicates the vectors' ability to spread disease among humans. We calculated temperature-dependent VC for Europe, highlighting 10 European cities and three non-European reference cities. Compared with the tropics, Europe shows pronounced seasonality and geographical heterogeneity. Although low, VC during summer is currently sufficient for dengue outbreaks in Southern Europe to commence–if sufficient vector populations (either Ae. aegypti and Ae. albopictus) were active and virus were introduced. Under various climate change scenarios, the seasonal peak and time window for dengue epidemic potential increases during the 21st century. Our study maps dengue epidemic potential in Europe and identifies seasonal time windows when major cities are most conducive for dengue transmission from 1901 to 2099. Our findings illustrate, that besides vector control, mitigating greenhouse gas emissions crucially reduces the future epidemic potential of dengue in Europe. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Liu-Helmersson, Jing Quam, Mikkel Wilder-Smith, Annelies Stenlund, Hans Ebi, Kristie Massad, Eduardo Rocklöv, Joacim |
| format |
Article |
| author |
Liu-Helmersson, Jing Quam, Mikkel Wilder-Smith, Annelies Stenlund, Hans Ebi, Kristie Massad, Eduardo Rocklöv, Joacim |
| author_sort |
Liu-Helmersson, Jing |
| title |
Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| title_short |
Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| title_full |
Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| title_fullStr |
Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| title_full_unstemmed |
Climate Change and Aedes Vectors: 21st Century Projections for Dengue Transmission in Europe |
| title_sort |
climate change and aedes vectors: 21st century projections for dengue transmission in europe |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/80524 http://hdl.handle.net/10220/40518 |
| _version_ |
1725985557618622464 |