Soil Physical and Biochemical Processes. Wahlpflicht Master FES; Schwerpunkt Ecosystem Sciences
Semester: SoSe 2024
Zeit: Wed.. 14:00 - 16:00 (weekly), Dates on Tuesday, 21.05.2024 - Thursday, 23.05.2024 08:30 - 16:00
Erster Termin: Wednesday, 10.04.2024 14:00 - 16:00, Room: (FSR 2.1 (Forst Büsgenweg 2 (1660)))
Vorbesprechung:
Veranstaltungsort: (FSR 2.1 (Forst Büsgenweg 2 (1660))): Wed.. 14:00 - 16:00 (13x), (FSR 2.3 (Forst Büsgenweg 2 (1660))): Tuesday, 21.05.2024 - Thursday, 23.05.2024 08:30 - 16:00
DozentIn: Veranstaltungstyp: Vorlesung mit Übung
Veranstaltungsnummer: 700549
Soil chemistry (cation exchange capacity, soil acidification and alkalinization, nutrient element solubility), soil biochemistry (redox reactions, microbial biochemistry), soil greenhouse gas production and consumption, decomposition (energy flow, nutrient release), soil N cycling (biochemistry, energy and N transformation rates), application of stable isotopes (13C and 15N) in quantifying soil C and N cycling, landscape-scale approaches of quantifying soil biochemical processes (e.g. greenhouse gas fluxes, nutrient cycling rates), nutrient leaching fluxes.
Zeit: Wed.. 14:00 - 16:00 (weekly), Dates on Tuesday, 21.05.2024 - Thursday, 23.05.2024 08:30 - 16:00
Erster Termin: Wednesday, 10.04.2024 14:00 - 16:00, Room: (FSR 2.1 (Forst Büsgenweg 2 (1660)))
Vorbesprechung:
Veranstaltungsort: (FSR 2.1 (Forst Büsgenweg 2 (1660))): Wed.. 14:00 - 16:00 (13x), (FSR 2.3 (Forst Büsgenweg 2 (1660))): Tuesday, 21.05.2024 - Thursday, 23.05.2024 08:30 - 16:00
DozentIn: Veranstaltungstyp: Vorlesung mit Übung
Veranstaltungsnummer: 700549
Voraussetzungen
Examination requirements: Nutrient leaching calculations; field measurements and calculations of soil greenhouse gas fluxes and nutrient cycling rates; measurements of cation exchange capacity and nutrient stock calculations.Kommentar/Beschreibung
Learning outcome, core skills:Soil chemistry (cation exchange capacity, soil acidification and alkalinization, nutrient element solubility), soil biochemistry (redox reactions, microbial biochemistry), soil greenhouse gas production and consumption, decomposition (energy flow, nutrient release), soil N cycling (biochemistry, energy and N transformation rates), application of stable isotopes (13C and 15N) in quantifying soil C and N cycling, landscape-scale approaches of quantifying soil biochemical processes (e.g. greenhouse gas fluxes, nutrient cycling rates), nutrient leaching fluxes.