TY  - GEN
A1  - Rözer, Viktor
A1  - Müller, Meike
A1  - Bubeck, Philip
A1  - Kienzler, Sarah
A1  - Thieken, Annegret
A1  - Pech, Ina
A1  - Schröter, Kai
A1  - Buchholz, Oliver
A1  - Kreibich, Heidi
T1  - Coping with pluvial floods by private households
N2  - Pluvial floods have caused severe damage to urban areas in recent years. With a projected increase in extreme precipitation as well as an ongoing urbanization, pluvial flood damage is expected to increase in the future. Therefore, further insights, especially on the adverse consequences of pluvial floods and their mitigation, are needed. To gain more knowledge, empirical damage data from three different pluvial flood events in Germany were collected through computer-aided telephone interviews. Pluvial flood awareness as well as flood experience were found to be low before the respective flood events. The level of private precaution increased considerably after all events, but is mainly focused on measures that are easy to implement. Lower inundation depths, smaller potential losses as compared with fluvial floods, as well as the fact that pluvial flooding may occur everywhere, are expected to cause a shift in damage mitigation from precaution to emergency response. However, an effective implementation of emergency measures was constrained by a low dissemination of early warnings in the study areas. Further improvements of early warning systems including dissemination as well as a rise in pluvial flood preparedness are important to reduce future pluvial flood damage.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 355 
KW  - pluvial floods
KW  - surface water flooding
KW  - emergency response
KW  - early warning
KW  - preparedness
KW  - damage
KW  - mitigation
Y1  - 2017
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-400465
ER  - 
TY  - JOUR
A1  - Rözer, Viktor
A1  - Müller, Meike
A1  - Bubeck, Philip
A1  - Kienzler, Sarah
A1  - Thieken, Annegret
A1  - Pech, Ina
A1  - Schröter, Kai
A1  - Buchholz, Oliver
A1  - Kreibich, Heidi
T1  - Coping with Pluvial Floods by Private Households
JF  - Water
N2  - Pluvial floods have caused severe damage to urban areas in recent years. With a projected increase in extreme precipitation as well as an ongoing urbanization, pluvial flood damage is expected to increase in the future. Therefore, further insights, especially on the adverse consequences of pluvial floods and their mitigation, are needed. To gain more knowledge, empirical damage data from three different pluvial flood events in Germany were collected through computer-aided telephone interviews. Pluvial flood awareness as well as flood experience were found to be low before the respective flood events. The level of private precaution increased considerably after all events, but is mainly focused on measures that are easy to implement. Lower inundation depths, smaller potential losses as compared with fluvial floods, as well as the fact that pluvial flooding may occur everywhere, are expected to cause a shift in damage mitigation from precaution to emergency response. However, an effective implementation of emergency measures was constrained by a low dissemination of early warnings in the study areas. Further improvements of early warning systems including dissemination as well as a rise in pluvial flood preparedness are important to reduce future pluvial flood damage.
KW  - pluvial floods
KW  - surface water flooding
KW  - emergency response
KW  - early warning
KW  - preparedness
KW  - damage
KW  - mitigation
Y1  - 2016
U6  - https://doi.org/10.3390/w8070304
SN  - 2073-4441
VL  - 8
PB  - MDPI
CY  - Basel
ER  - 
TY  - RPRT
A1  - Agarwal, Ankit
A1  - Boessenkool, Berry
A1  - Fischer, Madlen
A1  - Hahn, Irene
A1  - Köhn, Lisei
A1  - Laudan, Jonas
A1  - Moran, Thomas
A1  - Öztürk, Ugur
A1  - Riemer, Adrian
A1  - Rözer, Viktor
A1  - Sieg, Tobias
A1  - Vogel, Kristin
A1  - Wendi, Dadiyorto
A1  - Bronstert, Axel
A1  - Thieken, Annegret
T1  - Die Sturzflut in Braunsbach, Mai 2016
T1  - The flash flood of Braunsbach, May 2006
BT  - eine Bestandsaufnahme und Ereignisbeschreibung
BT  - a hydrological survey and event analysis
N2  - Im Graduiertenkolleg NatRiskChange der Universität Potsdam und anderen Forschungseinrichtungen werden beobachtete sowie zukünftig mögliche Veränderungen von Naturgefahren untersucht. Teil des strukturierten Doktorandenprogramms sind sogenannte Task-Force-Einsätze, bei denen die Promovierende zeitlich begrenzt ein aktuelles Ereignis auswerten. Im Zuge dieser Aktivität wurde die Sturzflut vom 29.05.2016 in Braunsbach (Baden-Württemberg) untersucht.
In diesem Bericht werden erste Auswertungen zur Einordnung der Niederschläge, zu den hydrologischen und geomorphologischen Prozessen im Einzugsgebiet des Orlacher Bachs sowie zu den verursachten Schäden beleuchtet.

Die Region war Zentrum extremer Regenfälle in der Größenordnung von 100 mm innerhalb von 2 Stunden. Das 6 km² kleine Einzugsgebiet hat eine sehr schnelle Reaktionszeit, zumal bei vorgesättigtem Boden. Im steilen Bachtal haben mehrere kleinere und größere Hangrutschungen über 8000 m³ Geröll, Schutt und Schwemmholz in das Gewässer eingetragen und möglicherweise kurzzeitige Aufstauungen und Durchbrüche verursacht. Neben den großen Wassermengen mit einer Abflussspitze in einer Größenordnung von 100 m³/s hat gerade die Geschiebefracht zu großen Schäden an den Gebäuden entlang des Bachlaufs in Braunsbach geführt.
N2  - The DFG graduate school “Natural Hazards and Risks in a Changing World” (NatRiskChange), which is located at the University of Potsdam and its partner institutions, studies previous as well as ongoing and potential future changes in the risk posed by natural hazards. The education program includes so-called task force activities, where the PhD students conduct a rapid event assessment directly after the occurrence of a hazardous natural event. Within this context the flash flood that hit the village Braunsbach (Baden-Württemberg, Germany) at May 29th, 2016 was investigated.
This report summarizes first results describing the rainfall amount and intensities as well as hydrological and geomorphological processes in the corresponding catchment area of the Orlacher Bach. Further, the damages caused in Braunsbach are investigated.

Rainfall intensity measures documented extreme precipitation in the area of Braunsbach with a cumulative amount of about 100 mm within 2 hours. The small catchment area, with a size of 6 km², has a small response time, especially under pre-saturated soil conditions. Several landslides, that occurred at the steep slopes of the river valley, transported more than 8000 m³ of gravel, debris and organic material into the water runoff. They may have caused temporal blockades, that collapsed after a certain amount of water accumulated. In addition to the high discharge, with peak values in the order of 100 m³/s, the high sediment content of the flash flood is mainly responsible for the large damages caused to the buildings in Braunsbach.
KW  - Sturzflut
KW  - Naturgefahren
KW  - Extremniederschlag
KW  - Schadensabschätzung
KW  - Hangrutschungen
KW  - flash flood
KW  - natural hazards
KW  - extreme precipitation
KW  - damage assessment
KW  - landslides
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-394881
ER  - 
TY  - JOUR
A1  - Sairam, Nivedita
A1  - Schroeter, Kai
A1  - Rözer, Viktor
A1  - Merz, Bruno
A1  - Kreibich, Heidi
T1  - Hierarchical Bayesian Approach for Modeling Spatiotemporal Variability in Flood Damage Processes
JF  - Water resources research
N2  - Flood damage processes are complex and vary between events and regions. State-of-the-art flood loss models are often developed on the basis of empirical damage data from specific case studies and do not perform well when spatially and temporally transferred. This is due to the fact that such localized models often cover only a small set of possible damage processes from one event and a region. On the other hand, a single generalized model covering multiple events and different regions ignores the variability in damage processes across regions and events due to variables that are not explicitly accounted for individual households. We implement a hierarchical Bayesian approach to parameterize widely used depth-damage functions resulting in a hierarchical (multilevel) Bayesian model (HBM) for flood loss estimation that accounts for spatiotemporal heterogeneity in damage processes. We test and prove the hypothesis that, in transfer scenarios, HBMs are superior compared to generalized and localized regression models. In order to improve loss predictions for regions and events for which no empirical damage data are available, we use variables pertaining to specific region- and event-characteristics representing commonly available expert knowledge as group-level predictors within the HBM.
KW  - flood risk
KW  - flood loss model transfer
KW  - multilevel probabilistic flood loss model
Y1  - 2019
U6  - https://doi.org/10.1029/2019WR025068
SN  - 0043-1397
SN  - 1944-7973
VL  - 55
IS  - 10
SP  - 8223
EP  - 8237
PB  - American Geophysical Union
CY  - Washington
ER  -