Kolbe, Tamara; de Dreuzy, Jean-Raynald; Abbott, Benjamin W; Aquilina, L; Babey, T; Green, C; Fleckenstein, JH; Labasque, T; Laverman, AM; Marçais, Jean; Peiffer, S; Thomas, Zahra; Pinay, G: Stratification of reactivity determines nitrate removal in groundwater, Proceedings of the National Academy of Science USA (2019), doi:10.1073/pnas.1816892116 | |
Stichworte: groundwater; dentrification; reactivity pattern; transit times; reaction times | |
Abstract: Biogeochemical reactions occur unevenly in space and time, but this heterogeneity is often simplified as a linear average due to sparse data, especially in subsurface environments where access is limited. For example, little is known about the spatial variability of groundwater denitrification, an important process in removing nitrate originating from agriculture and land use conversion. Information about the rate, arrangement, and extent of denitrification is needed to determine sustainable limits of human activity and to predict recovery time frames. Here, we developed and validated a method for inferring the spatial |
Antrittsvorlesung: |
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Mi. 22.05.2024 Funktionelle Pilzökologie: Diversität und Prozesse auf unterschiedlichen Skalen |
BayCEER-Kolloquium: |
Do. 06.06.2024 Tracking plant diversity dynamics on islands over thousands of years |
Mo. 10.06.2024 Arsenic biogeochemistry from paddy soil to rice grain |
Do. 13.06.2024 Seeing the forest beneath the trees: Mycorrhizal fungi as trait integrators of ecosystem processes |
Ökologisch-Botanischer Garten: |
Mi. 29.05.2024 Führung | "Grüne Apotheke: Heilpflanzen" |