See more from this Division: Joint Sessions
See more from this Session: Land Subsidence Attributable to Subsurface Fluid Extraction in Coastal Lowlands: Contributions to Relative Sea-Level Rise
Abstract:
At present, we focus on the unravelling of the natural, shallow causes of subsidence: settlement, clay compaction and peat oxidation. We have developed an inversion scheme which utilizes the Koppejan (1948) equations for primary and secondary settlement and an exponential model for peat oxidation. The inversion procedure uses all available geological information to derive a model estimate for each process. The method incorporates both the prior model covariance matrix and the data covariance matrix, which contain the temporal and spatial correlations between the model parameters and data, respectively. Taking the model correlations into account through the covariance matrix enhances the influence of the data on the inverted model estimate.
The method is applied to the Krimpenerwaard, a polder in the western Netherlands. As a first step, the method is validated by using all geological information in an inversion of synthetic data. Once the method has been proven to provide a proper model estimate for each process, the method is applied to the levelling data available for the polder. We will show the results of these inversion exercises.
See more from this Division: Joint Sessions
See more from this Session: Land Subsidence Attributable to Subsurface Fluid Extraction in Coastal Lowlands: Contributions to Relative Sea-Level Rise