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Area of damaged forest and other wooded land by biotic agents
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Data: Albania, Austria, Bulgaria, Cyprus (partly), Czech Republic (partly), Estonia, Finland, France (partly), Hungary, Italy, Norway (partly), Portugal (partly), Serbia, Slovakia, Slovenia, Sweden, Turkey (partly), the United Kingdom
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Areas of possible establishment of Aedes albopictus (the tiger mosquito) in Europe for 2010 and 2030
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Developed by Francis Schaffner (BioSys Consultancy, Zurich), in partnership with Guy Hendrickx/Ernst-Jan Scholte (AviaGIS, Zoersel, Belgium) and Jolyon M Medlock (Health Protection Agency, United Kingdom) for the ECDC TigerMaps project
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Maps and graphs
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Areas of possible establishment of Aedes albopictus (the tiger mosquito) in Europe for 2010 and 2030
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Developed by Francis Schaffner (BioSys Consultancy, Zurich), in partnership with Guy Hendrickx/Ernst-Jan Scholte (AviaGIS, Zoersel, Belgium) and Jolyon M Medlock (Health Protection Agency, United Kingdom) for the ECDC TigerMaps project
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Change in the distribution of Aedes albopictus in Europe
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Areas marked as ‘2011’ indicate that the tiger mosquito was detected in 2011 for the first time. They include areas of known geographical expansion of A. albopictus in France, northern Italy and Spain where vector surveillance has been in place since 2008 but also areas in Albania, Greece, and central and southern Italy, where the first detection of the vector in 2011 could be the result of increased vector surveillance rather than actual geographical expansion. ‘2008–2011’ refers to all areas where the vector has been present before 2011. Indoor presence corresponds to the presence recorded in greenhouses.
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Climatic suitability for the mosquitos Aedes aegypti and Aedes albopictus in Europe
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This figure shows the climatic suitability for the mosquitos Aedes aegypti (left) and Aedes albopictus (right) in Europe. Darker to lighter green indicates conditions not suitable for the vector whereas yellow to red colours indicate conditions that are increasingly suitable for the vector. Grey indicates that no prediction is possible.
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European distribution of Borrelia burgdorferi in questing I. ricinus ticks
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The risks described in this figure are relative to each other according to a standard distribution scale. Risk is defined as the probability of finding nymphal ticks positive for Borrelia burgdorferi. For each prevalence quartile, associated climate traits were used to produce a qualitative evaluation of risk according to Office International des Epizooties (OIE) standards at five levels (high, moderate, low, negligible, and null), which directly correlate with the probability of finding nymphal ticks with prevalence in the four quartiles.
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Health benefits of green spaces
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Every 10% increase in green space is associated with a reduction in diseases equivalent to an increase of five years of life expectancy.
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Forests, health and climate change
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Key facts
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Percentage change of weekly salmonella cases by 1 oC temperature increase
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The figure shows the percentage change of weekly salmonella cases 1 degree Celcius
temperature increase
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Presence of Aedes albopictus (the tiger mosquito) in Europe in January 2008
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Developed by Francis Schaffner (BioSys Consultancy, Zurich), in partnership with Guy Hendrickx/Ernst-Jan Scholte (AviaGIS, Zoersel, Belgium) and Jolyon M Medlock (Health Protection Agency, UK) for the ECDC TigerMaps project
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Standardised death rates (per 100 000) for diarrhoeal diseases in children under 5 years
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