In soil, storage of organic carbon contributes to its fertility and mitigates climate warming. However, until now we have only little insight to the spatial arrangement of organic matter and how this controls its residence time in soil, due to a lack of techniques that allow detection of organic carbon within an undisturbed soil environment.
We established a laser-ablation isotope-ratio-monitoring method, that allows to detect carbon and its stable isotope composition in soil and other materials with a resolution down to 10 µm. This technique now provides first results on, e.g., input rates of C through root systems, or on hot spots of soil organic carbon turnover in C3/C4 vegetation change experiments.
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BayCEER-Kolloquium: |
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Do. 25.04.2024 Perspectives and challenges in the restoration and conservation of two isolated habitats: gypsum and cliffs |
BayCEER Short Courses: |
Mi. 24.04.2024 Mobile Film Making Workshop (for PhDs/PostDosc/Profs of BayCEER) |
Fr. 26.04.2024 Mobile Film Making Workshop (for students of BayCEER) |
Ökologisch-Botanischer Garten: |
Fr. 19.04.2024 aktuell Führung | Gesteine im Ökologisch-Botanischen Garten |
So. 21.04.2024 Führung | Den ÖBG kennenlernen: Allgemeine Gartenführung |