Joren Janzing
Swiss Federal Institute of Technology, Zurich
| Subject Areas: | Drought science and applications,Mountain hydrology,Large-scale dynamics |
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ABSTRACT:
This dataset accompanies the paper "Spatiotemporal dynamics of streamflow drought in the larger Alpine region" by Janzing et al. (2026, WRR).
All data is based on the runs with the PCR-GLOBWB2.0 model, run at a spatial resolution of 30 arcsec over 1990-2019 as described in Janzing et al., (2025). The dataset contains all modelled data needed to recreate the figures in the manuscript.
The modelled domain is 2.5--18.5 degree longitude and 42.5--51.5 degree latitude, whereas the analysis was caried out over a smaller study domain (3--18 longitude and 43--51 latitude).
For an extended description of the variables and data, we refer the reader to the research paper.
References:
Janzing, J., Wanders, N., Van Tiel, M., & Brunner, M. I. (2026). Spatiotemporal dynamics of streamflow drought in the larger Alpine region.
Janzing, J., Wanders, N., Van Tiel, M., Van Jaarsveld, B., Karger, D. N., & Brunner, M. I. (2025). Hyper-resolution large-scale hydrological modelling benefits from improved process representation in mountain regions. Hydrology and Earth System Sciences, 29(23), 7041-7071.
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Created: March 17, 2025, 3:15 p.m.
Authors: Janzing, Joren · Wanders, Niko · Van Tiel, Marit · Brunner, Manuela
ABSTRACT:
This dataset accompanies the paper "Spatiotemporal dynamics of streamflow drought in the larger Alpine region" by Janzing et al. (2026, WRR).
All data is based on the runs with the PCR-GLOBWB2.0 model, run at a spatial resolution of 30 arcsec over 1990-2019 as described in Janzing et al., (2025). The dataset contains all modelled data needed to recreate the figures in the manuscript.
The modelled domain is 2.5--18.5 degree longitude and 42.5--51.5 degree latitude, whereas the analysis was caried out over a smaller study domain (3--18 longitude and 43--51 latitude).
For an extended description of the variables and data, we refer the reader to the research paper.
References:
Janzing, J., Wanders, N., Van Tiel, M., & Brunner, M. I. (2026). Spatiotemporal dynamics of streamflow drought in the larger Alpine region.
Janzing, J., Wanders, N., Van Tiel, M., Van Jaarsveld, B., Karger, D. N., & Brunner, M. I. (2025). Hyper-resolution large-scale hydrological modelling benefits from improved process representation in mountain regions. Hydrology and Earth System Sciences, 29(23), 7041-7071.