Paul C. Astagneau
SLF Davos
| Subject Areas: | Mountain hydrology,Hydrologic extremes,Hydroclimatology |
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ABSTRACT:
This repository contains the datasets required to reproduce the five figures presented in Astagneau et al. (2026). These data were generated according to the methods described in the paper. Users are encouraged to consult the Methods section to understand the data processing and derivation steps. Users are also encouraged to read the readMe file. Simulations for individual locations are subject to significant uncertainty. Therefore, interpretations of these simulations must be made carefully, especially for catchments smaller than 50 km², where uncertainties are particularly high.
Reference:
Astagneau, P. C., Wood, R. R., & Brunner, M. I. (2026). Rethinking future flood hazard: Hourly data challenges daily flood projections in Alpine catchments. Science Advances [accepted].
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Created: Oct. 22, 2025, 12:13 p.m.
Authors: Astagneau, Paul C.
ABSTRACT:
This repository contains the datasets required to reproduce the five figures presented in Astagneau et al. (2026). These data were generated according to the methods described in the paper. Users are encouraged to consult the Methods section to understand the data processing and derivation steps. Users are also encouraged to read the readMe file. Simulations for individual locations are subject to significant uncertainty. Therefore, interpretations of these simulations must be made carefully, especially for catchments smaller than 50 km², where uncertainties are particularly high.
Reference:
Astagneau, P. C., Wood, R. R., & Brunner, M. I. (2026). Rethinking future flood hazard: Hourly data challenges daily flood projections in Alpine catchments. Science Advances [accepted].