Dr. Peter Fokker
- reservoir engineering
- data assimilation
- induced seismicity
Human activity is causing subsidence in large areas of the Netherlands. Primary causes are the extraction of gas, oil, and salt, the lowering of the groundwater level to keep our feet dry and the construction of residential areas and roads on soft soil. In clay- and peat-rich areas subsidence has been a problem for decades: groundwater levels are artificially kept low and these soils are highly compressible. It is evident that subsidence causes social problems and involves costs.
What processes cause subsidence? What is the level of subsidence? And how can we predict the amount of subsidence yet to come? Investigating these issues together will increase our understanding and give us a clearer picture of the options to influence these processes.
The two most important processes that currently cause subsidence in the shallow subsurface are the compression of clay and the oxidation of peat. On their turn, these are largely caused by groundwater level adjustments as a result of drainage. The effects of subsidence are the sinking of roads, bridges, dykes or houses, but also an enhanced risk of flooding of low-lying areas. Such effects make it necessary to look critically at potential subsidence and its consequences as resulting from what we are doing or plan to do in the subsurface. An increased level of understanding facilitates the alignment of policy and regulations, to minimize the impact of subsidence and to promote a sustainable and safe living environment.
We have knowledge of the processes that cause subsidence – as a result of human intervention – in the shallow and deep subsurface. We investigate the deep and shallow causes of subsidence in relationship with each other, so that we can unravel the different causes. In addition to this knowledge, we also have access to lots of data about the structure of the subsurface and the rate of subsidence. We measure, monitor and model subsidence in order to continuously improve our forecasting capability. Opportunities and risks can thus be analysed and considered in a balanced way and incorporated in policy development.
Many activities in the subsurface require subsidence estimates. It is no coincidence that this is a key objective of the Geological Survey of the Netherlands. The combination is our strength: knowledge and data; deep and shallow; measuring, understanding and predicting. We make clear where and how much the ground is subsiding, so that policy can be adjusted accordingly. If you like to know more, please feel free to contact us.