Microbial services addressing climate change risks for biodiversity and for agri...
Microbial services addressing climate change risks for biodiversity and for agricultural and forestry ecosystems: enabling curiosity-driven research and advancing frontier knowledge
Terrestrial biodiversity and ecosystems are being challenged by global changes, and threats to agricultural and forestry ecosystems represent some of the most serious environmental and socio-economic menaces that the planet and hu...
Terrestrial biodiversity and ecosystems are being challenged by global changes, and threats to agricultural and forestry ecosystems represent some of the most serious environmental and socio-economic menaces that the planet and humanity are facing. Climate change (CG) is widely recognised as one of the most impactful global changes, and since it goes hand-by-hand with biodiversity and services loss in terrestrial ecosystems, they should be tackled together. Microbes constitute the life support system of the biosphere, but they are its most overlooked fraction and are not considered in the context of CG. The overall understanding of the impact of CG on the assembly and functions of microbiomes is still very limited. How the complex microbes-plants-soil interactions and its consequences on plant performance and productivity are impacted by CG is still largely unknown. Additional knowledge also needs to be obtained on the overall ecosystem functioning, and to what extent microbiomes may mitigate stress conditions due to CG. The project MICROBES-4-CLIMATE will provide a wider community of users/researchers, irrespective of location, efficient access to a cluster of complementary world-class Research Infrastructures and their integrated, advanced services along with training and scientific and/or technical support, to address such need. An excellence-driven programme of Transnational Access, which is at the core of the project, will enable users to conduct curiosity-driven research addressing terrestrial biodiversity and ecosystems, in light of the abovementioned multidimensional and still poorly understood microbiomes-plants-soil-environment interactions, and its roles in CG responses, resilience, and mitigation. This will foster the advancement of frontier knowledge and also pave the way to applied research on harnessing plant-microbiome interactions to improve the climate resiliency of plants/crops and to enable e.g., precision, sustainable and resilient agriculture.ver más
Seleccionando "Aceptar todas las cookies" acepta el uso de cookies para ayudarnos a brindarle una mejor experiencia de usuario y para analizar el uso del sitio web. Al hacer clic en "Ajustar tus preferencias" puede elegir qué cookies permitir. Solo las cookies esenciales son necesarias para el correcto funcionamiento de nuestro sitio web y no se pueden rechazar.
Cookie settings
Nuestro sitio web almacena cuatro tipos de cookies. En cualquier momento puede elegir qué cookies acepta y cuáles rechaza. Puede obtener más información sobre qué son las cookies y qué tipos de cookies almacenamos en nuestra Política de cookies.
Son necesarias por razones técnicas. Sin ellas, este sitio web podría no funcionar correctamente.
Son necesarias para una funcionalidad específica en el sitio web. Sin ellos, algunas características pueden estar deshabilitadas.
Nos permite analizar el uso del sitio web y mejorar la experiencia del visitante.
Nos permite personalizar su experiencia y enviarle contenido y ofertas relevantes, en este sitio web y en otros sitios web.