Tran Annelise, Soti Valérie, Diallo Mawlouth, Lo Seen Danny, Degenne Pascal, Thiongane Yaya, Guégan Jean-François, Fontenille Didier, Chevalier Véronique.
2012. Remote sensing and dynamic modelling to forecast Rift Valley fever outbreaks in Senegal.
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Résumé : Rift Valley Fever (RVF) is a vector-borne viral zoonosis, transmitted either through exposure to infected animals or through bites from infected mosquitoes, mainly from the Aedes or Culex genera. In semi-arid areas, water bodies, which are full during the rainy season, allow the development of Aedes and Culex mosquito species. In East Africa, RVF outbreaks are known to be closely associated with heavy rainfall events, which lead to an above normal abundance of the vectorial populations. In Senegal, there is strong evidence that the disease is endemic. Yet, the correlation found in East Africa between extreme rainfall events and RVF outbreaks occurrence is not valid. We propose here a modelling approach which makes use of remote sensing data to investigate i) the role of rainfall temporal distribution in RVF outbreaks and ii) the possibility to develop an early-warning system for RVF in Senegal. The study area is an agropastoral zone located in Northern Senegal, a region characterized by a dense network of temporary water ponds which provide suitable breeding sites to RVF vectors. A pond hydrological model is combined with a mosquito population model to predict the abundance of the two main mosquito species involved in RVF virus transmission in Senegal (Aedes vexans arabiensis and Culex poicilipes). The hydrological model uses daily rainfall as input to simulate variations of pond surface areas. The mosquito population model is mechanistic, considers both aquatic and adult stages and is driven by pond dynamics. High spatial resolution remote sensing data are used to derive the hydrological and environmental characteristics of the ponds necessary to run the models. Once validated using hydrological and entomological field data, the model was used to simulate the abundance dynamics of the two mosquito species over a 43 year period (1961-2003). Analyzing the predicted dynamics of mosquito populations with regards to the years of main outbreaks showed that the main RVF outbreaks occurred during years with simultaneous high abundances of both species. Daily satellite rainfall estimates (TRMM) were used as alternative to ground-measured rainfall data to develop a forecasting tool of RVF in Senegal. Our study provides a mechanistic insight on RVF virus transmission in Northern Senegal. It highlights the complementary roles of Aedes vexans and Culex poicilipes mosquitoes in virus transmission and the potential of remote sensing and mechanistic modelling to develop an early-warning system of RVF outbreaks in Senegal. (Texte intégral)
Classification Agris : L72 - Organismes nuisibles des animaux
L73 - Maladies des animaux
U10 - Informatique, mathématiques et statistiques
U30 - Méthodes de recherche
Auteurs et affiliations
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Tran Annelise, CIRAD-ES-UPR AGIRs (FRA)
ORCID: 0000-0001-5463-332X
- Soti Valérie, CIRAD-PERSYST-UPR SCA (FRA)
- Diallo Mawlouth, Institut Pasteur de Dakar (SEN)
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Lo Seen Danny, CIRAD-ES-UMR TETIS (FRA) ORCID: 0000-0002-7773-2109
- Degenne Pascal, CIRAD-ES-UMR TETIS (FRA)
- Thiongane Yaya, ISRA (SEN)
- Guégan Jean-François, CNRS (FRA)
- Fontenille Didier, IRD (FRA)
- Chevalier Véronique, CIRAD-ES-UPR AGIRs (FRA)
Source : Cirad - Agritrop (https://agritrop.cirad.fr/568699/)
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