Microbial communities have a central role in many ecosystem functions such as biogeochemical cycling, filtering and climate regulation. This talk will highlight how trait-based approaches can help understanding the role of microbial diversity in ecosystem functioning.
For this purpose, denitrification, a microbial process involved in N-cycling, was selected as a model functional trait. Denitrification is a microbial respiratory process during which soluble nitrogen oxides are used as alternative electron acceptor when oxygen is limiting. It is involved in ecosystem services such as filtering but also disservices. Thus, denitrification can results in considerable losses of nitrogen, which is the most limiting nutrient for crop production in agriculture. It is also responsible for emissions of nitrous oxide, one of the six greenhouse gases considered by the Kyoto protocol.
In addition to natural variations, agroecosystems are characterized by the use of numerous practices, such as fertilization and tillage, which influence N-fluxes by denitrification. This has been widely documented in the literature, mirroring the complexity of the underlying mechanisms regulating this process. However, in the last decade application of molecular biology approaches has given the opportunity to look beyond denitrification rates and study the ecology of the microorganisms involved in this process, the denitrifying community.
Examples will be provided on how this microbial guild can be used a model for bridging microbial community ecology, microbial processes and ecosystem functioning.
Austausch zwischen Grundwasser und Seewasser und die Auswirkung auf die Seechemie und Ökologie am Beispiel des Steißlinger Sees.
Kartierung der Grundwasserabflüsse zum Steißlinger See und des Einflusses auf die Seechemie
Absolventenfeier Geoökologie 2018/19