Microbial soil colonization and structure formation by fungal hyphae mediated tr...
Microbes in soil drive ecosystem services defining life on the Earth. Translocation of these microbes is key features in the spatial exploration of soil. This directly impacts major ecological processes such as niche colonization...
Microbes in soil drive ecosystem services defining life on the Earth. Translocation of these microbes is key features in the spatial exploration of soil. This directly impacts major ecological processes such as niche colonization and the development of soil structure, but knowledge of how microbes migrate in soil is scarce. A potential universal mechanism is fungal hyphae mediated transport (FHMT) where bacteria use hyphae of fungi as a route to translocate in a directed manner. However, this has been solely observed in the laboratory, but not in soil where single-cell level studies are restricted by technical limits. MICOL-FUNTRANS overcomes these limitations by developing and exploiting a novel system combining microfluidics, microbiological and microscopical methods to i) observe microbial movement in soil-like systems and ii) identify single involved organisms. Micro-channels will provide treatments to compare soil colonization and structure formation with and without FHMT. Ultimately, findings will be upscaled to an ecological level in a dedicated field study using a glacier forefield in the Arctic, which constitutes a unique natural laboratory to study initial soil development as ongoing climate change melts glaciers and frees vast areas of barren soil at present. The results of this project will foster an integrated view on the soil biome and push research on bacterial-fungal interactions to the centre of attention in soil microbiology and related industries. Specifically, knowledge of migration rates of microbes in soil will impact models on nutrient distribution and efforts in bioremediation of contaminated soil. A better understanding of the initial stages of soil structure formation at the micro-scale will impact efforts in soil quality and health preservation related actions, a topic of highest societal and economic interest as the degradation of soil is one of the most pressing environmental threads we are currently facing.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.