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Flood event and catchment characteristics in Germany and Austria (2021)

Macdonald, Elena ; Merz, Bruno ; Ullrich, Sophie ; [weitere]

GFZ Data Services

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Publikationsdatum: 2022-06-15

Beschreibung: Abstract

Beschreibung: The dataset comprises a range of variables describing characteristics of flood events and river catchments for 480 gauging stations in Germany and Austria. The event characteristics are asscoiated with annual maximum flood events in the period from 1951 to 2010. They include variables on event precipitation, antecedent catchment state, event catchment response, event timing, and event types. The catchment characteristics include variables on catchment area, catchment wetness, tail heaviness of rainfall, nonlinearity of catchment response, and synchronicity of precipitation and catchment state. The variables were compiled as potential predictors of heavy tail behaviour of flood peak distributions. They are based on gauge observations of discharge, E-OBS meteorological data (Haylock et al. 2008), mHM hydrological model simulations (Samaniego et al., 2010), 4DAS climate reanalysis data (Primo et al., 2019), and the 25x25 m resolution EU-DEM v1.1. A short description of the data processing is included in the file inventory and more details can be found in Macdonald et al. (202x) (Citation of article “Event and Catchment Controls of Heavy Tail Behavior of Floods” when available).

Schlagwort(e): flood event-causing precipitation ; pre-event moisture state ; catchment response ; flood event types ; catchment characteristics ; climate 〉 meteorological phenomenon 〉 atmospheric precipitation ; EARTH SCIENCE 〉 ATMOSPHERE 〉 PRECIPITATION 〉 PRECIPITATION AMOUNT ; EARTH SCIENCE 〉 LAND SURFACE 〉 SOILS 〉 SOIL MOISTURE/WATER CONTENT ; EARTH SCIENCE 〉 TERRESTRIAL HYDROSPHERE 〉 SURFACE WATER 〉 FLOODS ; EARTH SCIENCE 〉 TERRESTRIAL HYDROSPHERE 〉 SURFACE WATER 〉 RIVERS/STREAMS ; EARTH SCIENCE 〉 TERRESTRIAL HYDROSPHERE 〉 SURFACE WATER 〉 WATERSHED CHARACTERISTICS ; hydrosphere 〉 hydrologic cycle 〉 flood 〉 flood runoff ; hydrosphere 〉 water (geographic) 〉 surface water 〉 freshwater 〉 rain water ; pedosphere 〉 soil 〉 soil water 〉 soil moisture ; science 〉 natural science 〉 atmospheric science 〉 meteorology 〉 hydrometeorology

Materialart: Dataset , Dataset

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Mediterranean extreme precipitation: a multi-model assessment (2019)

Cavicchia, Leone ; Scoccimarro, Enrico ; Gualdi, Silvio ; [weitere]

Springer-Verlag Berlin Heidelberg

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Publikationsdatum: 2021-07-14

Beschreibung: Abstract Exploiting the added value of the ensemble of high-resolution model simulations provided by the Med- CORDEX coordinated initiative, an updated assessment of Mediterranean extreme precipitation events as represented in different observational, reanalysis and modelling datasets is presented. A spatiotemporal characterisation of the long-term statistics of extreme precipitation is performed, using a number of different diagnostic indices. Employing a novel approach based on the timing of extreme precipitation events a number of physically consistent subregions are defined. The comparison of different diagnostics over the Mediterranean domain and physically homogeneous sub-domains is presented and discussed, focussing on the relative impact of several model configuration features (resolution, coupling, physical parameterisations) on the performance in reproducing extreme precipitation events. It is found that the agreement between the observed and modelled long-term statistics of extreme precipitation is more sensitive to the model physics, in particular convective parameterisation, than to other model configurations such as resolution and coupling.

Beschreibung: Published

Beschreibung: 901-913

Beschreibung: 4A. Oceanografia e clima

Beschreibung: JCR Journal

Schlagwort(e): Extreme precipitation · Mediterranean climate · Regional climate modelling ; Mediterranean climate ·

Repository-Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Materialart: article

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Convective rain cell characteristics and scaling in climate projections for Germany (2021)

Purr, Christopher ; Brisson, Erwan ; Ahrens, Bodo

John Wiley & Sons, Ltd. | Chichester, UK

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Publikationsdatum: 2021-07-03

Beschreibung: Extreme convective precipitation is expected to increase with global warming. However, the rate of increase and the understanding of contributing processes remain highly uncertain. We investigated characteristics of convective rain cells like area, intensity, and lifetime as simulated by a convection‐permitting climate model in the area of Germany under historical (1976–2005) and future (end‐of‐century, RCP8.5 scenario) conditions. To this end, a tracking algorithm was applied to 5‐min precipitation output. While the number of convective cells is virtually similar under historical and future conditions, there are more intense and larger cells in the future. This yields an increase in hourly precipitation extremes, although mean precipitation decreases. The relative change in the frequency distributions of area, intensity, and precipitation sum per cell is highest for the most extreme percentiles, suggesting that extreme events intensify the most. Furthermore, we investigated the temperature and moisture scaling of cell characteristics. The temperature scaling drops off at high temperatures, with a shift in drop‐off towards higher temperatures in the future, allowing for higher peak values. In contrast, dew point temperature scaling shows consistent rates across the whole dew point range. Cell characteristics scale at varying rates, either below (mean intensity), at about (maximum intensity and area), or above (precipitation sum) the Clausius–Clapeyron rate. Thus, the widely investigated extreme precipitation scaling at fixed locations is a complex product of the scaling of different cell characteristics. The dew point scaling rates and absolute values of the scaling curves in historical and future conditions are closest for the highest percentiles. Therefore, near‐surface humidity provides a good predictor for the upper limit of for example, maximum intensity and total precipitation of individual convective cells. However, the frequency distribution of the number of cells depending on dew point temperature changes in the future, preventing statistical inference of extreme precipitation from near‐surface humidity.

Beschreibung: We investigated characteristics of convective rain cells under historical and future conditions in convection‐permitting climate simulations using a tracking algorithm. There are more intense and larger cells in the future yielding an increase in hourly precipitation extremes. The temperature scaling curves of cell characteristics shift towards higher peak values at higher temperatures in the future. In contrast, cell characteristics scale consistently with dew point temperature. Therefore, near‐surface humidity provides a good predictor for the upper limit of for example, maximum intensity, and total precipitation of convective cells.

Schlagwort(e): 551.6 ; Clausius–Clapeyron scaling ; convection‐permitting simulation ; convective storms ; COSMO‐CLM ; precipitation ; tracking

Materialart: article

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