Sebastian Gegenleithner scite author profile

Sebastian Gegenleithner

4Publications

0Citation Statements Received

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Affiliations

Bundesamt für Wasserwirtschaft, Graz University of Technology

Publications

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Determination of runoff and sediment transport in an Alpine torrent in Austria

Schneider¹,

Gegenleithner²,

Pessenteiner

et al. 2023

Preprint

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Floods including sediment transport are a significant threat to&#160; communities in Austria. With climate change impacting the Alps, it is crucial to enhance and reassess protective measures. Predictions for the future of the Alpine climate indicate that there will be more winter precipitation and stronger, convective rain in the summer, even if the temperature goals set by the&#160; Paris Agreement are met. However, analyzing the impact of increased extreme precipitation on flood events in small Alpine catchments remains a challenge, and knowledge of the subsequent impacts on sediment transport is still insufficient. The catchment area of the Sch&#246;ttlbach and thus the town of Oberw&#246;lz (Murtal, Styria) were affected by extreme flood events with extreme sediment transport in both 2011 and 2017, which caused heavy damage. The region was therefore selected to work with local stakeholders (especially the Austrian Torrent and Avalanche Control authorities) to improve the process understanding of flood events and sediment transport in a torrent catchment area and to draw possible climate change scenarios for the future. It was the aim of the project &#8222;RunSed-CC&#8220;&#160;(i) to estimate future runoff and sediment transport in an Alpine catchment using the latest climate projections (&#214;KS15), (ii) to consider them in the light of the associated model uncertainties, and (iii) the potential for extrapolating the results to other Alpine catchments to test. One focus of the project was the collection of natural data using a wide variety of measurements in the catchment area of an alpine torrent.The project RunSed-CC developed further a model that connects rainfall and runoff to sediment transport. The&#160; hydrological model WaSiM was used, in combination with data on the&#160; evolution of sediment source areas, to drive the 2D numerical models Telemac-2D (hydrodynamics) & Sisyphe (sediment transport). The main focus of the project was to&#160; understand the potential impacts of future climate change on the&#160; hydrologic regime, changes in sediment dynamics and sediment yield, and&#160; associated uncertainties in the model. This article is intended to provide a brief outline of the results of the extensive project, with a focus on the final findings of the sediment balances at the outlet of the catchment area. &#160;

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Hydrological flood forecast for the river Salzach using Open Source and Open Data

Krebs¹,

Gegenleithner²,

Schneider³

2022

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Analysis Of Flow Resistance Characteristics And Flow Velocities In High-Gradient Stream

Rusjan¹,

Sapač²,

Gegenleithner³

et al. 2022

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Modellierung vergangener und zukünftiger Abflüsse und Sedimentfrachten mit freier Software – Einblicke am Beispiel des Schöttlbach (Niedere Tauern)

Peßenteiner

Gegenleithner

Kamp

et al. 2020

Österr Wasser- und Abfallw

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ZusammenfassungRezent häufigere Hochwasserereignisse und die besondere Vulnerabilität des Alpenraums gegenüber dem Klimawandel erhöhen die gesellschaftliche und politische Nachfrage nach robusten Informationen über mögliche zukünftige Entwicklungen. Ergebnisse numerischer Modellierungen in Verbindung mit Expertenmeinungen stellen ein wichtiges Instrument zur Abschätzung zukünftiger Veränderungen dar und ermöglichen die Untersuchung von Gebieten, in denen es nur wenige oder gar keine Sediment- bzw. Abflussmessungen gibt. Die Verwendung von quelloffenen (Open Source) und frei verfügbaren Modellen trägt dabei wesentlich zu Transparenz und wissenschaftlicher Nachvollziehbarkeit bei. Im vorliegenden Beitrag möchten wir eine Modellkette aus frei verfügbaren bzw. Open-Source-Modellen zur Simulation von Abflüssen und Sedimentfrachten am Beispiel des Schöttlbachs (Niedere Tauern) vorstellen und Einblicke in erste Ergebnisse geben.

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