Remote sensing and spatial modelling: Applications to the surveillance and control of mosquito-borne diseases - Tapa blanda

Acerca de los autores

Thibault Catry is a research engineer in remote sensing at IRD, within the UMR Espace-dev in Montpellier. He develops processing methods for satellite imagery dedicated to the characterization of environmental dynamics, with a particular interest in the relationship between environment and health.

Éric Daudé est directeur de recherche au CNRS et directeur adjoint de l'UMR IDEES à Normandie Université. Ses recherches portent sur l'étude de la vulnérabilité des territoires aux risques et le développement de méthodes de modélisation spatiale appliquées à la gestion de crise.

Annelise Tran est chercheuse au Cirad, au sein de l’UMR TETIS à Montpellier. Ses recherches portent sur le développement de méthodes en télédétection et modélisation spatiale avec des applications dans le domaine de la santé.

De la contraportada

Mosquitoes are vectors of many disease-causing pathogens, including malaria, dengue, chikungunya, and yellow fever. According to the World Health Organization, these vector-borne diseases account for several hundred thousand deaths annually. They also cause zoonoses, such as Rift Valley fever and West Nile fever.

In this context, the development of operational tools to support surveillance and control strategies is essential-not only in countries of the Global South, where mosquito-borne diseases are most prevalent in tropical and subtropical regions, but also in the countries of the North, where the establishment of invasive species such as the tiger mosquito is increasing the risk of disease emergence. To address these challenges, Earth observation imagery offers valuable potential: the spatial distribution and seasonal dynamics of mosquito populations are closely linked to climatic factors (such as temperatures, rainfall, and humidity) and environmental variables (such as the presence of water bodies and vegetation), many of which can be monitored through satellite data.

Numerous recent studies have led to the development of innovative methods that combine remote sensing with spatial modelling to predict the spatial and temporal dynamics of vector mosquitoes and associated diseases. Moving beyond proof-of-concept, some of these approaches have given rise to operational tools and processing chains that are now actively used by public health authorities and vector control agencies.

This book, intended for students, researchers, and public health professionals, offers a synthesis of current research and operational tools in the field.