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WETSCAPES2.0
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Über Uns
Der Sonderforschungsbereich
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Warum Moore wiedervernässen?
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Teilprojekte
Überblick
A: Operational level (mm-m)
A1: Roots of fen peat formation
A2: Sources and sinks of N₂O in rewetted fens
A3: Plant–microbiome interactions in the fen rhizosphere
A4: Structure and function of below-ground (micro-)biome in rewetted fens – a trophic latch?
A5: Development and resilience of microbial CH₄ oxidizers in rewetted fens
A6: Drivers of methanogen abundance and activity in rewetted fens
A7: Process-based modeling of greenhouse gases and peat accumulation in rewetted fens
B: Functional Processes (m-km)
B1: Carbon cycling and greenhouse gas exchange in rewetted fens
B2: Spatial patterns of ecosystem–atmosphere flux in wetscapes 2.0
B3: Spatial variability and lateral connectivity of fen microbiomes
B4: Causes and effects of vegetation patterns and their role in ecosystem functioning of rewetted fens
B5: Dynamics of hydro-physical properties and solute release from rewetted fen peat soils
B6: Spatio-temporal monitoring of fen peatland subsidence and inundated area across different scales
C: Large-scale Interactions (km+)
C1: Novel tracer-aided ecohydrological modeling to quantify water storage, pathways and cycling of fens at the landscape scale
C2: Spatio-temporal assessment of rewetting effects on tree growth on and beyond peatlands
C3: Peatlands in the landscape – impact of rewetting on the surrounding
C4: Understanding the spatial and temporal dynamics of vegetation in wetscapes 2.0 through multi-sensor Earth observation time series data
C5: Assessment of the climate mitigation potential of peatland rewetting
Syntheseprojekte
S1: Integrating biotic and abiotic drivers of greenhouse gas production and consumption in wetscapes 2.0
S2: Carbon sequestration and buffer function of displacement peat in wetscapes 2.0
S3: From idiosyncrasy to understanding - how the flow of energy, matter, and information shapes wetscapes 2.0 and their development pathways
S4: Feedbacks in wetscapes 2.0 - novel, integrated modeling approaches to assess climate change mitigation and adaptation potential
Team
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WETSCAPES2.0
WETSCAPES2.0
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