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Main Authors: Vitagliano, Eleonora, D'Ambrogi, Chiara, Spassiani, Ilaria, Di Maio, Rosa
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.12147
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author Vitagliano, Eleonora
D'Ambrogi, Chiara
Spassiani, Ilaria
Di Maio, Rosa
author_facet Vitagliano, Eleonora
D'Ambrogi, Chiara
Spassiani, Ilaria
Di Maio, Rosa
contents Numerical back-stripping procedure is crucial for understanding the geological mechanisms of basin formation or for reconstructing the palaeo-bathymetry in the oceanic regions. However, the importance of errors associated with data acquisition, processing and interpretation is often underestimated. These errors, which can impact the final results, are not part of the computational workflow, although they often affect the model parameters with large uncertainties. In this study, we have qualitatively classified and quantified all the main errors affecting the workflow of the back-stripping technique using linear interpolation and combinatorics. We found that the errors influence different model parameters, some of which have an equiprobability of occurrence, while others are characterized by an intrinsic probability. We applied the proposed method to the Po Delta in northern Italy, historically influenced by anthropogenic and natural subsidence. By studying a 2D geological section characterized by thin Holocene sedimentary successions, we identified 12 sources of error that fall into three basic categories: geometry of the model layers; distribution of lithologies and petrophysical properties; past depositional environments. We then assessed the error ranges and their probability of occurrence. The study shows that the errors can vary significantly from metre- to millimetre-scale, defining the magnitude and distribution of each error source, which is essential for interpreting model results and assessing related uncertainties. It establishes a workflow for future uncertainty management and aims to enhance open-source tools based on the back-stripping procedure.
format Preprint
id arxiv_https___arxiv_org_abs_2504_12147
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantitative error analysis of back-stripping based models: case study from Po Delta (northern Italy)
Vitagliano, Eleonora
D'Ambrogi, Chiara
Spassiani, Ilaria
Di Maio, Rosa
Geophysics
Numerical back-stripping procedure is crucial for understanding the geological mechanisms of basin formation or for reconstructing the palaeo-bathymetry in the oceanic regions. However, the importance of errors associated with data acquisition, processing and interpretation is often underestimated. These errors, which can impact the final results, are not part of the computational workflow, although they often affect the model parameters with large uncertainties. In this study, we have qualitatively classified and quantified all the main errors affecting the workflow of the back-stripping technique using linear interpolation and combinatorics. We found that the errors influence different model parameters, some of which have an equiprobability of occurrence, while others are characterized by an intrinsic probability. We applied the proposed method to the Po Delta in northern Italy, historically influenced by anthropogenic and natural subsidence. By studying a 2D geological section characterized by thin Holocene sedimentary successions, we identified 12 sources of error that fall into three basic categories: geometry of the model layers; distribution of lithologies and petrophysical properties; past depositional environments. We then assessed the error ranges and their probability of occurrence. The study shows that the errors can vary significantly from metre- to millimetre-scale, defining the magnitude and distribution of each error source, which is essential for interpreting model results and assessing related uncertainties. It establishes a workflow for future uncertainty management and aims to enhance open-source tools based on the back-stripping procedure.
title Quantitative error analysis of back-stripping based models: case study from Po Delta (northern Italy)
topic Geophysics
url https://arxiv.org/abs/2504.12147