Assessment of meteorological extremes using a synoptic weather generator and a downscaling model based on analogues

Assessment of meteorological extremes using a synoptic weather generator and a downscaling model based on analogues

Natural risk studies such as flood risk assessments require long series of weather variables. As an alternative to observed series, which have a limited length, these data can be provided by weather generators. Among the large variety of existing ones, resampling methods based on analogues have the...

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Bibliographic Details
Published in:Hydrology and earth system sciences Vol. 24; no. 9; pp. 4339 - 4352
Main Authors: Raynaud, Damien, Hingray, Benoit, Evin, Guillaume, Favre, Anne-Catherine, Chardon, Jérémy
Format: Journal Article
Language:English
Published: Katlenburg-Lindau Copernicus GmbH 04-09-2020
European Geosciences Union
Copernicus Publications
Subjects:
Analysis
Archives & records
Areal precipitation
Computer simulation
Earth Sciences
Electricity generators
Environmental risk
Environmental Sciences
Extreme values
Extreme weather
Flood risk
Generators
Global Changes
Hydrology
Length
Methods
Precipitation
Precipitation (Meteorology)
Precipitation-temperature relationships
Resampling
Risk assessment
Rivers
Sciences of the Universe
Simulation
Stochasticity
Temperature
Time series
Variables
Weather
Switzerland
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Summary:Natural risk studies such as flood risk assessments require long series of weather variables. As an alternative to observed series, which have a limited length, these data can be provided by weather generators. Among the large variety of existing ones, resampling methods based on analogues have the advantage of guaranteeing the physical consistency between local weather variables at each time step. However, they cannot generate values of predictands exceeding the range of observed values. Moreover, the length of the simulated series is typically limited to the length of the synoptic meteorological records used to characterize the large-scale atmospheric configuration of the generation day. To overcome these limitations, the stochastic weather generator proposed in this study combines two sampling approaches based on atmospheric analogues: (1) a synoptic weather generator in a first step, which recombines days of the 20th century to generate a 1000-year sequence of new atmospheric trajectories, and (2) a stochastic downscaling model in a second step applied to these atmospheric trajectories, in order to simulate long time series of daily regional precipitation and temperature. The method is applied to daily time series of mean areal precipitation and temperature in Switzerland. It is shown that the climatological characteristics of observed precipitation and temperature are adequately reproduced. It also improves the reproduction of extreme precipitation values, overcoming previous limitations of standard analogue-based weather generators.
ISSN:1607-7938
1027-5606
1607-7938
DOI:10.5194/hess-24-4339-2020