Subsidence

Publication date

2025-10-01

Authors

Fokker, Peter A.
Candela, Thibault G.G.
Erkens, GillesISNI 0000000113672998
Hanssen, Ramon F.
Kooi, Henk
Koster, KayISNI 0000000442736446
van Leijen, Freek J.

Editors

Veen, Johan ten
Vis, Geert-Jan
Jager, Jan de
Wong, Theo

Advisors

Supervisors

Document Type

Part of book
Open Access logo

License

No license information available

Abstract

Subsidence is a complex problem, both in a technical sense and in governance. This is particularly the case in the Netherlands, which is a low-lying and densely populated country where various causes of subsidence interfere with each other. Coping with subsidence in the Netherlands started already woo years ago. This long history of subsidence, however, along with its slow manifestation, has resulted in a tendency to adaptation rather than mitigation. There is a growing awareness that this focus on adaptation is actually excluding alternative solutions. Potentially cheaper or more effective options may be unknown and not even considered. At the same time, Dutch society is becoming more aware of the severity of human-induced subsidence as it is one of the most prominent current geological hazards. What is needed therefore, is a sound knowledge base facilitating the exploration of solutions outside the traditional way of thinking. Here we present the different knowledge and governance issues at stake. We start with the description of the natural processes that cause subsidence, and the human-induced causes like groundwater management and exploitation of deep geological resources. Then we elaborate how subsidence can be estimated from measurements. We pay specific attention to the utilization of modern ensemble-based techniques to integrate multiple models and data. The objective is to avoid deterministic predictions and instead produce a range of subsidence forecasts with confidence intervals that are in agreement with observational data and their uncertainties. Finally, we describe how technical knowledge can be integrated in decision making by estimating the costs and benefits of different scenarios, thereby offering an array of options for decision makers. Subsidence will keep playing a role in shaping the future of the Netherlands. Human-induced subsidence will continue with new subsurface activities directed towards the energy transition. Incorporating the grim sea level rise predictions, the issue becomes even more serious. It is therefore of paramount importance to maintain and further develop the current knowledge position and to develop proactive mitigation activities.

Keywords

General Earth and Planetary Sciences, General Environmental Science, General Engineering, General Agricultural and Biological Sciences, SDG 7 - Affordable and Clean Energy

Citation

Fokker, P A, Candela, T G G, Erkens, G, Hanssen, R F, Kooi, H, Koster, K & van Leijen, F J 2025, Subsidence. in J T Veen, G-J Vis, J D Jager & T Wong (eds), Geology of the Netherlands : Second Edition. Taylor and Francis, pp. 824-847. https://doi.org/10.5117/9789463728362_ch23