A Developed Hybrid Integrated Framework with Combined Analytical Approaches in mitigating the Flood and Drought Risk on River Severn Basin

Fasihi, Siavash (2024) A Developed Hybrid Integrated Framework with Combined Analytical Approaches in mitigating the Flood and Drought Risk on River Severn Basin. Doctoral thesis, Birmingham City University.

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Abstract

Floods and droughts are among the most devastating natural disasters, significantly impacting environmental and socio-economic systems. With climate change exacerbating these risks, it is crucial to develop robust frameworks in assessing and mitigating the risk. This thesis aims to develop a hybrid integrated framework for flood and drought risk assessment, combining multiple methodologies and modern predictive techniques. The research employs a combination of Interpretive Structural Modelling (ISM), Causal Loop Diagrams (CLD), and network theory to build the framework. Statistical and machine learning methods are used to calculate and test the framework, ensuring a comprehensive analysis. The integrated framework effectively identifies and assesses key risk factors and their interdependencies. The spatio-temporal mapping revealed significant trends in flood and drought occurrences. Despite the presence of flooding risk partly due to more intense rainfalls, the risk of drought coexists on a river basin scale. Validation using Receiver Operating Characteristic (ROC) curves demonstrated the model's accuracy. Sensitivity analysis highlighted critical variables such as community resilience, precipitation, access to transportation networks, and reservoirs, which contribute significantly to the variance of predicted risks. Other parameters aid in the accuracy of these predictions, while factors like elevation and slope assist with the spatial distribution of the risks. The developed framework has shaped and enhanced substantial understanding of flood and drought risks, providing a robust basis for future research. Future work should focus on integrating more diverse datasets and exploring long-term climate impacts to further refine and improve the assessment process.

Item Type:	Thesis (Doctoral)
Dates:	Date Event 16 December 2024 Submitted
Uncontrolled Keywords:	Flood risk assessment, drought risk assessment, hybrid integrated framework, spatio-temporal mapping, climate change, advanced analytical techniques, sensitivity analysis, receiver operating characteristic (ROC).
Subjects:	CAH26 - geography, earth and environmental studies > CAH26-01 - geography, earth and environmental studies > CAH26-01-02 - physical geographical sciences CAH26 - geography, earth and environmental studies > CAH26-01 - geography, earth and environmental studies > CAH26-01-04 - environmental sciences CAH26 - geography, earth and environmental studies > CAH26-01 - geography, earth and environmental studies > CAH26-01-06 - earth sciences
Divisions:	Doctoral Research College > Doctoral Theses Collection Faculty of Computing, Engineering and the Built Environment > College of Built Environment
Depositing User:	Louise Muldowney
Date Deposited:	17 Jan 2025 14:25
Last Modified:	17 Jan 2025 14:25
URI:	https://www.open-access.bcu.ac.uk/id/eprint/16085