An advection-deposition-survival model to assess the risk of introduction of vector-borne diseases through the wind: Application to bluetongue outbreaks in Spain

This work develops a methodology for estimating risk of wind-borne introduction of flying insects into a country, identifying areas and periods of high risk of vector-borne diseases incursion. This risk can be characterized by the role of suitable temperatures and wind currents in small insects'...

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Veröffentlicht in:	PloS one 2018-03, Vol.13 (3), p.e0194573-e0194573
Hauptverfasser:	Fernández-Carrión, Eduardo, Ivorra, Benjamin, Ramos, Ángel Manuel, Martínez-López, Beatriz, Aguilar-Vega, Cecilia, Sánchez-Vizcaíno, José Manuel
Format:	Artikel
Sprache:	eng
Schlagworte:	Advection Africa, Northern - epidemiology Agriculture - methods Analysis Animals Applied mathematics Biology and Life Sciences Bluetongue Bluetongue - epidemiology Bluetongue - transmission Bluetongue - virology Bluetongue virus - pathogenicity Ceratopogonidae Ceratopogonidae - virology Climatic conditions Computer simulation Culicoides Data processing Deposition Diptera Disease Disease Outbreaks - veterinary Earth Sciences Epidemics Flight Health risk assessment Health risks Insect Vectors - pathogenicity Insect Vectors - virology Insects Livestock Mathematical models Medicine and Health Sciences Models, Biological Mortality Numerical experiments Outbreaks Partial differential equations People and places Physics Risk Assessment - methods Risk factors Seasons Sheep Spain - epidemiology Surveillance Survival Temperature Vector-borne diseases Vectors (Biology) Veterinary medicine Viruses West Nile virus Wind Wind currents Winds
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creator	Fernández-Carrión, Eduardo Ivorra, Benjamin Ramos, Ángel Manuel Martínez-López, Beatriz Aguilar-Vega, Cecilia Sánchez-Vizcaíno, José Manuel
description	This work develops a methodology for estimating risk of wind-borne introduction of flying insects into a country, identifying areas and periods of high risk of vector-borne diseases incursion. This risk can be characterized by the role of suitable temperatures and wind currents in small insects' survival and movements, respectively. The model predicts the number density of introduced insects over space and time based on three processes: the advection due to wind currents, the deposition on the ground and the survival due to climatic conditions. Spanish livestock has suffered many bluetongue outbreaks since 2004 and numerous experts point to Culicoides transported by wind from affected areas in North Africa as a possible cause. This work implements numerical experiments simulating the introduction of Culicoides in 2004. The model identified southern and eastern Spain, particularly between June and November, as being at greatest risk of wind-borne Culicoides introduction, which matches field data on bluetongue outbreaks in Spain this year. This validation suggests that this model may be useful for predicting introduction of airborne pathogens of significance to animal productivity.
doi_str_mv	10.1371/journal.pone.0194573
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subjects	Advection Africa, Northern - epidemiology Agriculture - methods Analysis Animals Applied mathematics Biology and Life Sciences Bluetongue Bluetongue - epidemiology Bluetongue - transmission Bluetongue - virology Bluetongue virus - pathogenicity Ceratopogonidae Ceratopogonidae - virology Climatic conditions Computer simulation Culicoides Data processing Deposition Diptera Disease Disease Outbreaks - veterinary Earth Sciences Epidemics Flight Health risk assessment Health risks Insect Vectors - pathogenicity Insect Vectors - virology Insects Livestock Mathematical models Medicine and Health Sciences Models, Biological Mortality Numerical experiments Outbreaks Partial differential equations People and places Physics Risk Assessment - methods Risk factors Seasons Sheep Spain - epidemiology Surveillance Survival Temperature Vector-borne diseases Vectors (Biology) Veterinary medicine Viruses West Nile virus Wind Wind currents Winds
title	An advection-deposition-survival model to assess the risk of introduction of vector-borne diseases through the wind: Application to bluetongue outbreaks in Spain
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