Project description
Finding global hotspots of drought-to-flood events
Scientists warn of more drought-to-flood disasters in the future due to global climate change. While droughts and floods are currently studied and managed separately, the ERC-funded PerfectSTORM project will study drought-to-flood events to improve our understanding about the underlying interactions between hydrology and society. Specifically, qualitative storylines will be collected through narrative interviews and mental simulation workshops. Quantitative storylines will be developed from a time series of hydrological and social data that will be analysed and modelled. Researchers will also study global data sets to uncover global types and hotspots of drought-to-flood events. Additionally, socio-hydrological modelling will be used to develop a 3D future possibility space.
Objective
Future climate projections show a strengthening of the hydrological cycle with more droughts and floods expected. This means a higher likelihood of cascading drought-to-flood disasters such as the Millennium Drought – Brisbane flooding in Australia or the California drought – Oroville spillway collapse in the US. Current research and management treat floods and droughts as independent, which leads to large underestimations of their future risk. Droughts allow ample time for impacts and adaptation, which influence hazard, exposure, and vulnerability of a subsequent flood. There are anecdotal examples of these events, but research is needed on the underlying interactions between hydrology and society. In the PerfectSTORM project (‘STOrylines of futuRe extreMes’), I propose to study drought-to-flood events to provide the understanding needed to prevent major disasters in the future. The innovative approach that I will develop is based on a combination of qualitative and quantitative storylines of past and future drought-to-flood risk in case studies and extrapolation of this rich case study information to the global scale. Qualitative storylines will be collected with narrative interviews and mental simulation workshops and will be edited and analysed. Quantitative storylines will be developed from timeseries of hydrological and social data that will be analysed and modelled. These storylines will then be combined in an iterative way using innovative data visualisation. A range of global datasets will be analysed to find global types and hotspots of drought-to-flood events and a global future 3D possibility space will be developed using socio-hydrological modelling. Positive pathways for future management of drought-to-flood events in different parts of the world will then be explored. The PerfectSTORM project will provide in-depth understanding of the hydrosocial feedbacks and dynamic vulnerability of cascading hazards.
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Funding Scheme
ERC-STG - Starting GrantHost institution
1081 HV Amsterdam
Netherlands