Nitrous oxide (N2O) is a potent greenhouse gas whose atmospheric growth rate has accelerated over the past decade. The largest share of anthropogenic N2O emissions results from the fertilization of soils with nitrogen, which is converted into N2O via various abiotic and biological processes.
A team of scientists led by Eliza Harris and Michael Bahn from the Functional Ecology research group at the University of Innsbruck has now been able to trace in detail the N2O production and consumption pathways that occur within the nitrogen cycle, and ultimately lead to the emission of this greenhouse gas, as part of the FWF-funded project “NitroTrace”. In an experimental setup at the University of Innsbruck, 16 intact grassland monoliths of the subalpine Long-Term Ecosystem Research (LTER) site “Kaserstattalm” in the Stubaital region of Tyrol were studied. The soil blocks were exposed to extreme drought and subsequent rewetting. These weather conditions reflect the climatic changes to which many regions across the globe, including the Alps, are increasingly exposed. “Our goal was to quantify the net effect of drought and rewetting on N2O formation processes and emissions, which is currently largely unexplored“, says Eliza Harris.
Read more at: Universitat Innsbrunk