A new way to predict sediment production and deposition: integrated Source to Sink maps at pluri-basins-scale

Alexandre Ortiz; Charlotte Fillon; Eric Lasseur; Justine Briais; Francois Guillocheau; Paul Bessin; Guillaume Baby; Julien Baptiste; Jessica Uzel; Cécile Robin; Sylvain Calassou; Sébastien Catelltort; Giunluca Frasca

doi:https://doi.org/10.5194/egusphere-egu21-12133

[Back] [Session GM3.17]

EGU21-12133

https://doi.org/10.5194/egusphere-egu21-12133

EGU General Assembly 2021

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

A new way to predict sediment production and deposition: integrated Source to Sink maps at pluri-basins-scale

Alexandre Ortiz¹, Charlotte Fillon¹, Eric Lasseur², Justine Briais², Francois Guillocheau³, Paul Bessin⁴, Guillaume Baby⁵, Julien Baptiste², Jessica Uzel³, Cécile Robin³, Sylvain Calassou¹, Sébastien Catelltort⁶, and Giunluca Frasca⁷

Alexandre Ortiz et al.

¹TOTAL, CSTJF, Pau
²BRGM, Orléans
³Géosciences Rennes, Université de Rennes
⁴Université du Mans
⁵Institut de Physique du Globe, Université de Paris
⁶Université de Genève
⁷Institute of Gesciences and Earth Ressources, Italy

The knowledge acquired on the exhumation of the Pyrenean chain and the evolution of the adjacent foreland basins makes this Alpine-type domain a good laboratory to better constrain a full sediment routing system in a compressive context and to apprehend the driving processes controlling the sediment routing in space and time. This integrated approach aims at enhancing our basin mastering approach as well as improving our predictions of reservoir properties for oil and gas exploration and storage.

This Source-to-Sink study seeks to understand the evolution of sedimentary routing from the Source (orogenic relief, craton, basin recycling) through the transfer zone (peripheral or internal to the basin) to the final sink (flexural basin, deep turbiditic margin). Within the framework of this new cartography, we propose to compile the available and newly acquired data from the S2S project (TOTAL, BRGM), over the entire peri-Pyrenean domain. We produced large scale quantitative and qualitative maps and wheeler diagrams to better observe and interpret the tectonic, climatic and surface processes impacts of the SRS behavior.

The maps include kinematic reconstructions of the Iberian-European-Mediterranean system, restored sequential cross-sections, history/magnitude of exhumation by thermochronology, source tracking, characterization of weathering and erosion surfaces, synthesis of the major structural accidents activity, paleogeographic reconstructions, analysis of sedimentary geometries and transport directions as well as the quantification of volumes preserved in the basins. Their interpretation is combined with a time representation along the routing system, linking classical basin wheeler diagram representation to source erosion and lithologies to obtain a continuous view on the sediment journey.

The time steps chosen for these 5 maps account for the different stages of tectono-sedimentary evolution of the peri-Pyrenean system at the early-orogenic, syn-orogenic and post-orogenic stages. The compilations carried out compare exhumed domains and sedimentation zones in terms of fluxes and volumes and make it possible to map the routing systems and discuss the drivers for the surface evolution during the construction/destruction cycle of an orogen.

Research work financed and carried out as part of the BRGM-TOTAL Source-to-Sink program

How to cite: Ortiz, A., Fillon, C., Lasseur, E., Briais, J., Guillocheau, F., Bessin, P., Baby, G., Baptiste, J., Uzel, J., Robin, C., Calassou, S., Catelltort, S., and Frasca, G.: A new way to predict sediment production and deposition: integrated Source to Sink maps at pluri-basins-scale, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-12133, https://doi.org/10.5194/egusphere-egu21-12133, 2021.

Corresponding displays formerly uploaded have been withdrawn.