Assessing lithological uncertainty in dikes: Simulating construction history and its implications for flood safety assessment

Teun van Woerkom; Rens van Beek; Hans Middelkoop; Marc F.P. Bierkens

doi:10.1111/jfr3.12848

Assessing lithological uncertainty in dikes: Simulating construction history and its implications for flood safety assessment

Teun van Woerkom^*, Rens van Beek, Hans Middelkoop, Marc F.P. Bierkens

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Dikes often have a long history of reinforcement, with each reinforcement adding new material resulting in a heterogeneous dike. As data on the dike internal heterogeneity is sparse, it is generally overlooked in the stability assessment of dikes. We present an object-based and process-based model simulating dike construction history on archeological dike cross, yielding similar patterns of heterogeneity as observed in real dikes, and apply it in a dike safety assessment. Model predictions improve when being based on more accurate statistics of dike buildup, or when being conditioned to ground truth data. When incorporated in a dike stability assessment, multiple model runs can be coupled to hydrological simulations and dike slope stability calculations, resulting in a probabilistic stability assessment considering internal dike heterogeneity. While high-resolution observations are still sparse, good model accuracies can be reached by combining regional information on dike buildup with local point observations and this model provides a parsimonious basis to include information of internal dike heterogeneity in safety assessments.

Original language	English
Article number	e12848
Journal	Journal of Flood Risk Management
Volume	15
Issue number	4
DOIs	https://doi.org/10.1111/jfr3.12848
Publication status	Published - Dec 2022

Bibliographical note

Funding Information:
We greatly appreciated the support of Martin van der Meer and Johan Hockx providing data on the case-study and ideas on the application of the algorithm. We also greatly thank the late Michel Lascaris for providing references on archaeological dike cross-sections.

Publisher Copyright:
© 2022 The Authors. Journal of Flood Risk Management published by Chartered Institution of Water and Environmental Management and John Wiley & Sons Ltd.

Funding

We greatly appreciated the support of Martin van der Meer and Johan Hockx providing data on the case-study and ideas on the application of the algorithm. We also greatly thank the late Michel Lascaris for providing references on archaeological dike cross-sections.

Keywords

construction history
dike lithology
flood safety
groundwater
heterogeneity

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10.1111/jfr3.12848Licence: CC BY

Assessing lithological uncertainty in dikes Simulating construction history andFinal published version, 4.61 MBLicence: CC BY

Cite this

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title = "Assessing lithological uncertainty in dikes: Simulating construction history and its implications for flood safety assessment",

abstract = "Dikes often have a long history of reinforcement, with each reinforcement adding new material resulting in a heterogeneous dike. As data on the dike internal heterogeneity is sparse, it is generally overlooked in the stability assessment of dikes. We present an object-based and process-based model simulating dike construction history on archeological dike cross, yielding similar patterns of heterogeneity as observed in real dikes, and apply it in a dike safety assessment. Model predictions improve when being based on more accurate statistics of dike buildup, or when being conditioned to ground truth data. When incorporated in a dike stability assessment, multiple model runs can be coupled to hydrological simulations and dike slope stability calculations, resulting in a probabilistic stability assessment considering internal dike heterogeneity. While high-resolution observations are still sparse, good model accuracies can be reached by combining regional information on dike buildup with local point observations and this model provides a parsimonious basis to include information of internal dike heterogeneity in safety assessments.",

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note = "Funding Information: We greatly appreciated the support of Martin van der Meer and Johan Hockx providing data on the case-study and ideas on the application of the algorithm. We also greatly thank the late Michel Lascaris for providing references on archaeological dike cross-sections. Publisher Copyright: {\textcopyright} 2022 The Authors. Journal of Flood Risk Management published by Chartered Institution of Water and Environmental Management and John Wiley & Sons Ltd.",

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AU - Bierkens, Marc F.P.

N1 - Funding Information: We greatly appreciated the support of Martin van der Meer and Johan Hockx providing data on the case-study and ideas on the application of the algorithm. We also greatly thank the late Michel Lascaris for providing references on archaeological dike cross-sections. Publisher Copyright: © 2022 The Authors. Journal of Flood Risk Management published by Chartered Institution of Water and Environmental Management and John Wiley & Sons Ltd.

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N2 - Dikes often have a long history of reinforcement, with each reinforcement adding new material resulting in a heterogeneous dike. As data on the dike internal heterogeneity is sparse, it is generally overlooked in the stability assessment of dikes. We present an object-based and process-based model simulating dike construction history on archeological dike cross, yielding similar patterns of heterogeneity as observed in real dikes, and apply it in a dike safety assessment. Model predictions improve when being based on more accurate statistics of dike buildup, or when being conditioned to ground truth data. When incorporated in a dike stability assessment, multiple model runs can be coupled to hydrological simulations and dike slope stability calculations, resulting in a probabilistic stability assessment considering internal dike heterogeneity. While high-resolution observations are still sparse, good model accuracies can be reached by combining regional information on dike buildup with local point observations and this model provides a parsimonious basis to include information of internal dike heterogeneity in safety assessments.

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Assessing lithological uncertainty in dikes: Simulating construction history and its implications for flood safety assessment

Abstract

Bibliographical note

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Keywords

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