A multi-disciplinary analysis of the exceptional flood event of July 2021 in central Europe – Part 1: Event description and analysis

Mohr, Susanna; Ehret, Uwe; Kunz, Michael; Ludwig, Patrick; Caldas-Álvarez, Alberto; Daniell, James; Ehmele, Florian; Feldmann, Hendrik; Franca, Mário J.; Gattke, Christian; Hundhausen, Marie; Knippertz, Peter; Küpfer, Katharina; Mühr, Bernhard; Pinto, Joaquim G.; Quinting, Julian; Schäfer, Andreas; Scheibel, Marc; Seidel, Frank; Wisotzky, Christina

doi:10.5194/nhess-23-525-2023

Cited by 65 publications

(44 citation statements)

References 59 publications

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“…Similar observations were made for the July 2021 event (e.g. Mohr et al, 2023). Given the exceptional xWEI values of both the August 2002 and the July 2021 events, it might be worthy to discuss, in the future, whether heavy precipitation events that are extreme across scales could be framed as hydrometeorological compound events.…”

Section: Discussionsupporting

confidence: 55%

“…Numerous studies have been published since the event, e.g. related to meteorological, hydrological and impact-related aspects (Mohr et al, 2023); hydro-geomorphological processes (Dietze et al, 2022); or early warning (Fekete and Sandholz, 2021;Thieken et al, 2022a). The temporal development of the event (Fig.…”

Section: Introductionmentioning

confidence: 99%

“…With regard to the extremeness of the event's precipitation, Germany's National Meteorological Service (Deutscher Wetterdienst; DWD hereafter) estimated return periods of well over 100 years for large parts of North Rhine-Westphalia and Rhineland-Palatinate (Junghänel et al, 2021). Mohr et al (2023) reported return periods of more than 700 years over large areas. Junghänel et al (2021) and Dietze et al (2022) highlighted that an important feature of the July 2021 precipitation event was not only high rainfall accumulation at a large spatial extent but also the occurrence of high return periods at various durations as well as a remarkable heterogeneity in space.…”

Section: Introductionmentioning

confidence: 99%

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Brief communication: On the extremeness of the July 2021 precipitation event in western Germany

Lengfeld

Voit

Kaspar

et al. 2023

Nat. Hazards Earth Syst. Sci.

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Abstract. The weather extremity index (WEI) and the cross-scale WEI (xWEI) are useful for determining the extremeness of precipitation events. Both require the estimation of return periods across different precipitation duration levels. For this purpose, previous studies determined annual precipitation maxima from radar composites in Germany and estimated the parameters of a generalized extreme value (GEV) distribution. Including the year 2021 in the estimation of GEV parameters, the devastating event in July 2021 drops from a rank of first to fourth regarding the WEI compared to all events between 2001 and 2020 but remains the most extreme regarding the xWEI. This emphasizes that it was extreme across multiple spatial and temporal scales and the importance of considering different scales to determine the extremeness of rainfall events.

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Section: Discussionsupporting

confidence: 55%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Brief communication: On the extremeness of the July 2021 precipitation event in western Germany

Lengfeld

Voit

Kaspar

et al. 2023

Nat. Hazards Earth Syst. Sci.

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“…While research [88, [94][95][96] and reports [97] focus on the shocking amounts of debris transported by the rivers, ultimately exacerbating the event by clogging bridges that failed later on, little attention has been paid to the ne fraction of the ood sediments. However, as the transport capacity for ne materials is particularly high, they are spread over larger areas.…”

Section: Methodsmentioning

confidence: 99%

The risk may not be limited to the flooding – Polluted high flood sediments pose a health threat to the unaware public

Weber

Wolf

Becker

et al. 2023

Preprint

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Background Because of global climate change, extreme flood events will increase in quantity and intensity in the upcoming decades. In catchments affected by ore mining, flooding leads to the deposition of fine sediments enriched in trace metal(loid)s. Depending on their concentration, trace metal(loid)s can be a health hazard. Therefore, the exposure of the local population to flood sediments, either by ingestion (covering direct ingestion and consuming food grown on these sediments) or via inhalation of dried sediments contributing to atmospheric particulate matter, is of concern. Results The extreme flood of July 2021 deposited enormous amounts of sediment across the town of Eschweiler (western Germany), with the inundation area exceeding previously mapped extreme flood limits (HQextreme). These sediments are rich in fine material (with the < 63 µm fraction making up 32% to 96%), which either can stick to the skin and be ingested or be inhaled. They are moderately to heavily enriched in Zn>Cu>Pb>Cd>Sn compared to local background concentrations. The concentrations of Zn, Pb, Cd, Cu, and As in flood sediments exceed international trigger action values. A simple assessment of uptake reveals that the tolerable daily intake is exceeded for Pb. Despite the enrichment of other trace elements like Zn, Cu, Cd, and Sn, they presumably do not pose a risk to human well-being. However, exposure to high dust concentrations may be a health risk. Conclusions In conclusion, flood sediments, especially in catchments impacted by mining, may pose a risk to the affected public. Hence, we propose to (I) improve the flood mapping by incorporating potential pollution sources, (II) extend warning messages to incorporate specific guidance, (III) use appropriate clean-up strategies in the aftermath of such flooding events, (IV) provide medical support, and (V) clue the public and medical professionals in on this topic accordingly.

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“…Taszarek et al (2019) showed based on European Severe Weather Database reports (ESWD; Dotzek et al, 2009) that much of Germany reports 8 or more days per year with heavy convective precipitation (their Figure 7). Recent events such as the exceptional floods of Central Europe in July 2021 (Mohr et al, 2023), which was exacerbated by embedded convection, highlight the need for further information on the underlying processes that lead to heavy convective precipitation.…”

Section: Introductionmentioning

confidence: 99%

The climatology and nature of warm-season convective cells in cold-frontal environments over Germany

Pacey¹,

Schielicke

Wapler

2023

Preprint

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Abstract. Cold fronts provide an environment particularly favourable for convective initiation in the mid-latitudes and can also be associated with convective hazards such as wind, rain and hail. We build a climatology of cold-frontal convective cells between 2007–2016 for April–September in a cell-front distance framework by combining a radar-based cell detection and tracking dataset and automatic front detection methods applied to reanalysis data. We find that on average around twice as many cells develop on cold-frontal cell days compared to non-cold-frontal cell days. Using the 700 hPa level as a reference point we show the maximum cell frequency is 350–400 km ahead of the 700 hPa front which is marginally ahead of the mean surface front location. The 700 hPa front location marks the minimum cell frequency and a clear shift in regime between cells with a weakened diurnal cycle on the warm-side of the 700 hPa cold front and strongly diurnally driven cells on the cold-side of the 700 hPa front. High cell frequencies are found several hundreds of kilometres ahead of the surface front and cells in this region are most likely to be associated with mesocyclones, intense convective cores and lightning. These results are an important step towards a better understanding of cold-frontal convection climatology and links between cold fronts and convective hazards.

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A multi-disciplinary analysis of the exceptional flood event of July 2021 in central Europe – Part 1: Event description and analysis

Cited by 65 publications

References 59 publications

Brief communication: On the extremeness of the July 2021 precipitation event in western Germany

Brief communication: On the extremeness of the July 2021 precipitation event in western Germany

The risk may not be limited to the flooding – Polluted high flood sediments pose a health threat to the unaware public

The climatology and nature of warm-season convective cells in cold-frontal environments over Germany

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