Project

GroundedExtremes: Understanding and governing groundwater to reduce the risk of hydrological extremes

Hydrological extremes are expected to occur more frequently and become more severe, making drought and flood risk management essential for adaptation. The GroundedExtremes project aims to investigate groundwater and hydrological extremes, and design improved groundwater management as a powerful adaptation strategy to both droughts and floods, avoiding long-term unintended consequences and unwanted trade-offs.

BACKGROUND

Hydrological extremes are expected to occur more frequently and become more severe, making drought and flood risk management essential for adaptation. The GroundedExtremes project aims to investigate groundwater and hydrological extremes, and design improved groundwater management as a powerful adaptation strategy to both droughts and floods, avoiding long-term unintended consequences and unwanted trade-offs. The GroundedExtremes project is built around knowledge exchange and transferability concepts and is organised along two axes: 1) three work packages (WPs) and 2) four case studies. WP1 analyses physical groundwater drought processes (i.e., development, duration, and recovery) and drivers such as climate, land use, groundwater abstractions, and subsurface characteristics. It also explores potential futures through stress tests. WP2 investigates drought management and groundwater governance and maps the involved actors to assess the arrangements that contribute to dealing with extremes (lead by PAP colleague Johanna Koehler). WP3 studies adaptation measures using a socio-hydrological model that integrates the drought drivers and physical processes from WP1 and the actor mapping and policy analysis of WP2 to model how combinations of drought adaptation measures can result in different future groundwater conditions using storylines. Solutions are assessed with a view to potential trade-offs and consequences on flood risk.

Groundwater hydrological behaviour and adaptation strategies are explored in four regions in Europe with different physical, societal and water governance contexts. An approach of cross-case study collaboration and learning is applied by focusing on differences and similarities, thus enabling general recommendations to be given from local adaptations. Key to the project is the involvement of local stakeholders, which guide the modelling and ground the adaptation measures investigated and the proposed storylines in reality.

Link to the website of the project