Abstract
Vector-borne diseases are not only accounted responsible for their burden on human health-care systems, but also known to cause economic constraints to livestock and animal production. Animals are affected directly by the transmitted pathogens and indirectly when animal movement is restricted. Distribution of such diseases depends on climatic and social factors, namely, environmental changes, globalization, trade and unplanned urbanization. Culicoides biting midges are responsible for the transmission of several pathogenic agents with relevant economic impact. Due to a fragmentary knowledge of their ecology, occurrence is difficult to predict consequently, limiting the control of these arthropod vectors. In order to understand the distribution of Culicoides species, in mainland Portugal, data collected during the National Entomologic Surveillance Program for Bluetongue disease (2005–2013), were used for statistical evaluation. Logistic regression analysis was preformed and prediction maps (per season) were obtained for vector and potentially vector species. The variables used at the present study were selected from WorldClim (two climatic variables) and CORINE databases (twenty-two land cover variables). This work points to an opposite distribution of C. imicola and species from the Obsoletus group within mainland Portugal. Such findings are evidenced in autumn, with the former appearing in Central and Southern regions. Although appearing northwards, on summer and autumn, C. newsteadi reveals a similar distribution to C. imicola. The species C. punctatus appears in all Portuguese territory throughout the year. Contrary, C. pulicaris is poorly caught in all areas of mainland Portugal, being paradoxical present near coastal areas and higher altitude regions.
Highlights
Vector-borne diseases (VBD) are influenced by complex ecological processes that regulate the distribution and abundance of vectors [1]
C. pulicaris is poorly caught in all areas of mainland Portugal, being paradoxical present near coastal areas and higher altitude regions
Different environmental aspects associated with VBD [5] and different techniques, such as environmental niche modelling (ENM), can be used to understand the potential distribution of species involved in disease transmission, as well as to predict areas of potential risk [5,6,7,8]
Summary
Vector-borne diseases (VBD) are influenced by complex ecological processes that regulate the distribution and abundance of vectors [1]. In order to understand VBD dynamics it is crucial to recognize the influencing factors of all its components, the interactions occurring between vectors and their physical or biological environments. A broad range of data regarding vegetation, water, atmosphere, weather and land use is continuously collected by satellites, globally. Such information is available for research and may have its direct applications in VBD [4]. Different environmental aspects associated with VBD [5] and different techniques, such as environmental niche modelling (ENM), can be used to understand the potential distribution of species involved in disease transmission, as well as to predict areas of potential risk [5,6,7,8]
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