BayLik II
At the border of terrestrial and aquatic ecosystems nutrients as well as microbiota are transferred to the water body, where they can contribute to the displacement of the established microbiome, which can further cause a dysbiosis of host-microbe interactions. In addition, it is likely that potentially human-pathogenic microorganisms or microorganisms with multiple antibiotic resistances will be displaced to neighboring ecosystems, especially at sites where liquid manure is spread. Understanding such interactions under climate change conditions is the aim of BayLik II. The project is support by the Bayerisches Staatsministerium für Umwelt und Verbraucherschutz.
At the border of terrestrial and aquatic ecosystems nutrients as well as microbiota are transferred to the water body, where they can contribute to the displacement of the established microbiome, which can further cause a dysbiosis of host-microbe interactions. In addition, it is likely that potentially human-pathogenic microorganisms or microorganisms with multiple antibiotic resistances will be displaced to neighboring ecosystems, especially at sites where liquid manure is spread. Understanding such interactions under climate change conditions is the aim of BayLik II. The project is support by the Bayerisches Staatsministerium für Umwelt und Verbraucherschutz.
