Estuaries connect our rivers and oceans, and support densely populated regions worldwide. These estuaries are increasingly threatened by salt intrusion due to climate change and side effects of human interventions, limiting freshwater availability. Nature-based solutions (NBSs), e.g. sand waves or wetlands, show potential to increase mixing of freshand salt water and have shown to be adaptable to a changing climate. Hence, they may provide a resilient way to reduce salt intrusion, while also supporting important ecosystem services. An efficient modelling framework will be developed, that is able to evaluate NBSs to counteract salt intrusion, estuarine wide, including CC. It will be applied to establish a knowledge base around the interactions between estuarine ecomorphology, related to NBSs, and salt intrusion. This way, the proposed research will improve understanding and provide modelling tools on the interaction between NBSs and estuarine wide salt intrusion.
[1]
S. Hulscher,et al.
Historic Flood Reconstruction With the Use of an Artificial Neural Network
,
2019,
Water Resources Research.
[2]
Suzanne Hulscher,et al.
Efficient uncertainty quantification for impact analysis of human interventions in rivers
,
2018,
Environ. Model. Softw..
[3]
D. Roelvink,et al.
Assessing climate change impacts on the stability of small tidal inlets : Part 1-Data poor environments
,
2017
.
[4]
D. Roelvink,et al.
Assessing climate change impacts on the stability of small tidal inlet systems: Why and how?
,
2016
.