Understanding the origins of persistent organic pollutants POPs exposure in wi...
Understanding the origins of persistent organic pollutants POPs exposure in wild migratory birds and their health consequences
Human activities are imposing major environmental alterations in natural populations and ecosystems. One of these alterations is pollution, which is the introduction in natural environments of contaminants that can alter the healt...
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Información proyecto POPHEALTH
Duración del proyecto: 27 meses
Fecha Inicio: 2021-04-29
Fecha Fin: 2023-08-14
Fecha límite de participación
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Descripción del proyecto
Human activities are imposing major environmental alterations in natural populations and ecosystems. One of these alterations is pollution, which is the introduction in natural environments of contaminants that can alter the health, reproduction and survival of free living organisms. Consequently, there is increasing concerns about the sources of exposure to persistent organic pollutants (POPs) and about their consequences on human health and on natural populations and ecosystems. POPs are known to persist in the environment and to bioaccumulate through the lifetime of organisms as well as to increase in concentration with each successive step in the food chain (biomagnification), therefore top predators as birds are used as bioindicators. Moreover, migratory animals as birds don’t have borders, and hence, one growing issue is that European breeding species may also become exposed to POPs when visiting non-European ecosystems, such as during migration to Africa where many POPs banned in the EU are still used there as pesticides. POPs can be measured in different tissues (e.g. feathers, preen oil, and blood), although it is less clear to which extent these measure. For instance, blood samples are expected to reflect rather recent exposure to POPs. Currently, no study has addressed how POPs accumulate in different tissues using repeated measures from the same individuals, and as such explore what types of samples are best describing POPs bioaccumulation. Therefore, by applying in a European migratory bird species (the Alpine swift, Tachymarptis melba) new tracking technologies and state-of-the-art physiological and biomolecular tools, the overarching aim of POPHEALTH is to improve our understanding of how wintering and breeding areas influence the exposure to POPs in the wild, to provide novel insights on the health and fitness consequences of exposure to POPs in a long-term perspective, and to validate which tissue best describe exposure to POPs in birds.