Waterbirds as vectors for the dispersal of resistance: the role of bird ecology and environmental pollution
Aves acuáticas como vectores de dispersión de resistencias: papel de la ecología y la contaminación ambiental (DARABI)
Principal investigator
Marta I. Sánchez
Financial institution
MIN CIENCIA E INNOVACION
Fecha de inicio
Fecha de fin
Code
PID2019-108962GB-C21
Department
Conservation Biology and Global Change
Researchers
Green, Andy J; Figuerola, Jordi; Blas, Julio;Jarma, Dayana;Borrego Moré, Carles (Fundació Institut Catala De Recerca De L Aigua); Serrano, Laura (Universidad de Sevilla); Pulido, Marina (IBIS-US); Hortas, Francisco (universidad de Cádiz); Hofle, Ursula (UCLM)
Brief description
La resistencia antimicrobiana (AR) es una de las mayores amenazas a la que se enfrenta la salud pública a nivel global. Sin embargo, la información sobre la dispersión de las bacterias resistentes a antibióticos (ARB) y los genes asociados (ARG) por la fauna salvaje en sistemas naturales es limitada. Esto es especialmente preocupante si se considera que algunos animales (aves) pueden viajar largas distancias cruzando diferentes biomas durante sus migraciones. Teniendo en cuenta que la AR no puede contenerse mediante barreras biológicas, físicas o geográficas, y que las ARB se transfieren fácilmente entre huéspedes (humanos o animales) y desde éstos al ambiente, o viceversa, resulta vital evaluar, tanto desde un punto de vista ecológico como epidemiológico, el papel de las aves como vectores para la diseminación de ARB y ARGs. El proyecto DARABi plantea investigar la abundancia de ARB y ARG en diferentes especies de aves acuáticas que difieren: i) en las relaciones ecológicas (dieta, tiempo de forrajeo, rutas migratorias) que establecen con sus hábitats (diferentes ambientes en Andalucía que difieren en su grado de contaminación antrópica), y ii) en su capacidad de migrar largas distancias (especies migratorias vs. sedentarias). También se determinará si las aves acuáticas actúan como sumideros o como emisores de ARB, ya sea captando ARB de su hábitat o, por el contrario, inoculando en éste ARB previamente captados en otros sistemas. El proyecto DARABi se enmarca en el contexto Una Salud, asumiendo que la salud humana, animal y ambiental están íntimamente relacionadas. DARABi se articula a través de dos subproyectos liderados por experimentados ornitólogos y microbiólogos clínicos (Subproyecto#1) y ecólogos microbianos y biólogos moleculares (Subproyecto#2) y combina diferentes aproximaciones metodológicas que incluyen técnicas de última generación en química analítica, metagenómica y sistemas de detección por GPS para monitorizar el movimiento de las aves. Considerando la creciente preocupación sobre la AR, estamos seguros que los resultados que genere DARABi serán especialmente útiles en el marco del nuevo plan de actuación de la estrategia One Health de la Comisión Europea y del nuevo Plan Estratégico y de Acción para Reducir el Riesgo de Selección y Diseminación de la Resistencia a los Antibióticos del Ministerio de Sanidad, Servicios Sociales e Igualdad y de la Agencia Española de Medicamentos y Productos Sanitarios.
Antimicrobial Resistance (AR) is one of the biggest threats to public health at a global scale. However, information about the spread ofantibiotic-resistant-bacteria (ARB) and antibiotic resistance genes (ARG) by wildlife in natural systems is scarce. This is especially worrisome considering that some animals (e.g. wild birds) travel long distances across different biomes during their migratory routes. Being aware that AR is not contained by any biological, physical or geographical barrier, and that resistant microbes easily spread between infected hosts (either humans or animals) and from them to the environment, and vice-versa, it is vital to assess the role of wild birds as vectors for the dissemination of ARB and ARG from an ecological and epidemiological perspective. Project DARABi aims to investigate the prevalence of ARB and ARG in different waterbird species, which differ: i) in their ecological relationships (dietary habits, foraging time, migratory routes) with environments affected by anthropogenic pollution (sites across Andalusia differing in their degree of pollution), and ii) in their capacity to travel over long distances (migratory vs. sedentary species). We will also determine if the selected waterbird species act as a sink or source for ARB, either acquiring ARB from their local habitat or, in turn, by releasing ARB collected abroad into the system
through their droppings. Our project has been planned under the One Health framework acknowledging that human, animal, and environmental health are intimately related. Project DARABi is assembled by the coordination of two Subprojects lead by expert bird ecologists and clinical microbiologists (Subproject#1) and microbial ecologists and molecular biologists (Subproject#2) and combines a multidisciplinary methodological approach including state-of-the-art analytical chemistry, gene-based molecular techniques, and last generation GPS systems to track bird movement. Considering the current global concern about AR, we are confident that the results of the project will be especially useful for the new One Health Action Plan of the European Commission and the Strategic Action Plan to Reduce the Risk of Selection and Dissemination of Antibiotic Resistance of the Spanish Agency of Medicines and Medical Devices (AEMPS).
Antimicrobial Resistance (AR) is one of the biggest threats to public health at a global scale. However, information about the spread ofantibiotic-resistant-bacteria (ARB) and antibiotic resistance genes (ARG) by wildlife in natural systems is scarce. This is especially worrisome considering that some animals (e.g. wild birds) travel long distances across different biomes during their migratory routes. Being aware that AR is not contained by any biological, physical or geographical barrier, and that resistant microbes easily spread between infected hosts (either humans or animals) and from them to the environment, and vice-versa, it is vital to assess the role of wild birds as vectors for the dissemination of ARB and ARG from an ecological and epidemiological perspective. Project DARABi aims to investigate the prevalence of ARB and ARG in different waterbird species, which differ: i) in their ecological relationships (dietary habits, foraging time, migratory routes) with environments affected by anthropogenic pollution (sites across Andalusia differing in their degree of pollution), and ii) in their capacity to travel over long distances (migratory vs. sedentary species). We will also determine if the selected waterbird species act as a sink or source for ARB, either acquiring ARB from their local habitat or, in turn, by releasing ARB collected abroad into the system
through their droppings. Our project has been planned under the One Health framework acknowledging that human, animal, and environmental health are intimately related. Project DARABi is assembled by the coordination of two Subprojects lead by expert bird ecologists and clinical microbiologists (Subproject#1) and microbial ecologists and molecular biologists (Subproject#2) and combines a multidisciplinary methodological approach including state-of-the-art analytical chemistry, gene-based molecular techniques, and last generation GPS systems to track bird movement. Considering the current global concern about AR, we are confident that the results of the project will be especially useful for the new One Health Action Plan of the European Commission and the Strategic Action Plan to Reduce the Risk of Selection and Dissemination of Antibiotic Resistance of the Spanish Agency of Medicines and Medical Devices (AEMPS).