Basin tectonic history and paleo‐physiography of the pelagian platform, northern Tunisia, using vitrinite reflectance data

Cavailhès, Thibault; Rotevatn, Atle; Monstad, Ståle; Khala, Atef Ben; Funk, Erich; Canner, Kathryn; Looser, Mirko; Chalabi, Ali; Gay, Aurélien; Travé, Anna; Ferhi, F; Skanji, Ahmed; Chebbi, Riadh Mohamed; Bang, Nils

doi:10.1111/bre.12287

Cited by 2 publications

(1 citation statement)

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“…The Cretaceous paleotectonic blocks' geometry in northern Tunisia is complex and has been misreported in the literature. Rare are the previous studies which targeted the regional compartmentalization of northern basin of Tunisia with regards to the southern Tethyan margin framework [13,22,46,73,84]. These non-advanced interpretations are also due to the fact that the basin characteristics were disrupted and overprinted by the Tertiary Alpine compressions [65] .Taking into consideration the previous studies, a schematic cross section of the Cretaceous basin in northwest Tunisia has been constructed (Fig.…”

Section: Resultsmentioning

confidence: 99%

Atlantic-Type Passive Margin Structural Style of the Cretaceous Basin in Northern Tunisia: Paleoslope Reconstruction and Regional Tectonics

et al. 2022

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The purpose of this paper is to characterize the configuration of northern Tunisia's basin during the Cretaceous on the basis of abundant slump folds and frequent synsedimentary faults. The slump folds are studied to determine the slumps transport vergence on the synsedimentary submarine paleoslope. The local and regional stress field is used to characterize the syn-sedimentary deformation. During Valanginian-Aptian times, the basin is characterized by southward submarine slope. From Albian to Santonian times, the slump folds analysis provides a NNW-to NW-ward sloping topography. The fault kinematic analysis reveals a regional NW-to NNW-trending Cretaceous tectonic extension. Locally, a NE-to N-trending extension is characterized. A perturbation of paleoslope orientation is locally observed probably related to salt tectonics hyperactive during Aptian-Albian. The constructed regional cross-section shows a tilted block geometry governed by major basement faults associated to other intra-basin growth faults. The basin shows a ±5° seaward facing submarine paleoslope. In addition, some structures are probably dominated by raft tectonics.2 All these features are fairly consistent with the conclusion that the basin is very similar to the present-day Atlantic-type passive margins.

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Section: Resultsmentioning

confidence: 99%

Atlantic-Type Passive Margin Structural Style of the Cretaceous Basin in Northern Tunisia: Paleoslope Reconstruction and Regional Tectonics

et al. 2022

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A thermal maturity map based on vitrinite reflectance of British coals

Bullock

Parnell

Muirhead

et al. 2019

JGS

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A compilation of new and previously published vitrinite reflectance (R 0 ) data from Carboniferous coals constitutes the most comprehensive map of reflectance across Great Britain. Values of R 0 range from 0.38 to 3.29%, recording an ambient thermal maturity in the early oil window (standard reference point for reflectance studies), modified by elevated heat flow in northern England and along the Variscan orogenic front. The map provides a context for other geological datasets.

show abstract

Basin tectonic history and paleo‐physiography of the pelagian platform, northern Tunisia, using vitrinite reflectance data

Cited by 2 publications

References 46 publications

Atlantic-Type Passive Margin Structural Style of the Cretaceous Basin in Northern Tunisia: Paleoslope Reconstruction and Regional Tectonics

Atlantic-Type Passive Margin Structural Style of the Cretaceous Basin in Northern Tunisia: Paleoslope Reconstruction and Regional Tectonics

A thermal maturity map based on vitrinite reflectance of British coals

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