Flood Susceptibility Mapping Using Watershed Geomorphic Data in the Onkaparinga Basin, South Australia

In the near future, natural disasters and associated risks are expected to increase, mainly because of the impact of climate change. Australia is considered one of the most vulnerable areas for natural disasters, including flooding. Therefore, an evaluation of the morphometric characteristics of the...

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Bibliographic Details
Published in:Sustainability 2022-12, Vol.14 (23), p.16270
Main Authors: Ahmed, Alaa, Alrajhi, Abdullah, Alquwaizany, Abdulaziz, Al Maliki, Ali, Hewa, Guna
Format: Article
Language:English
Subjects:
Basins (Geology)
Catastrophic events
Climate change
Digital mapping
El Nino
Environment
Environmental aspects
Evaluation
Flash floods
Flood hazards
Flood mapping
Flooding
Floods
Geographic information systems
Geomorphology
Impact analysis
Landsat
Natural disasters
Population
Rain
Rainfall
Remote sensing
Satellite imagery
Sediments
Storm damage
Watersheds
Wind
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Summary:In the near future, natural disasters and associated risks are expected to increase, mainly because of the impact of climate change. Australia is considered one of the most vulnerable areas for natural disasters, including flooding. Therefore, an evaluation of the morphometric characteristics of the Onkaparinga basin in South Australia was undertaken using the integration of remote sensing and geospatial techniques to identify its impact on flash floods. The Shuttle Radar Topography Mission (SRTM) and Landsat images with other available geologic, topographic, and secondary data were analysed in geographic information system (GIS) to outline the drainage basins, estimate the morphometric parameters, and rank the parameters to demarcate the flash flood susceptibility zones of the basin. The main goal was to develop a flash flood susceptibility map showing the different hazard zones within the study areas. The results showed that 10.87%, 24.27%, and 64.85% are classified as low, moderate, and highly susceptible for flooding, respectively. These findings were then verified against secondary data relating to the historic flood events of the area. About 30.77% of the historical floods are found located within the high to extremely susceptible zones. Moreover, a significant correlation has been found between the high precipitation concentration index (PCI) and the irregular rainfall and high potential for flooding. Finally, the social and economic vulnerability was applied to determine the impact of the flood hazards. The result indicates a widespread threat to the economy, environment, and community in the study area. This study can be utilized to support and assist decision makers with planning and the devotion of alleviation measures to reducing and avoiding catastrophic flooding events, especially in highly susceptible areas in the world, such as South Australian basins.
ISSN:2071-1050
2071-1050
DOI:10.3390/su142316270