Abstract

Abstract The genetic analysis of fold and thrust belts is facilitated by tracking the evolution of their organic endowment (petroleum tectonics). Petroleum tectonic analysis of convergent orogenic systems provides an audit of the processes that control the deformation and kinematics of orogenic belts. The distribution and deformation paths of the organic endowment intervals are key factors in determining the petroleum system evolution of fold and thrust belts. This comparison of orogenic systems illustrates the importance of flexural v. dynamic processes, orogenic wedge taper, mechanical stratigraphy and inherited architecture on the creation, preservation and destruction of petroleum accumulations. The Zagros, Pyrenees, Sevier and Beni Sub-Andean convergent systems share key characteristics of fold and thrust belts, with major differences in scale, degree of incorporation of organic endowment in evolution of the fold and thrust belt and its foreland, and preservation of fold and thrust belt wedge-top deposits. The Zagros is an orogen dominated by flexural processes that is a perfect storm for hydrocarbon generation and preservation. Its multiple stacked sources ensure continuous hydrocarbon generation while stacked detachments foster a low taper and thick wedge-top basins. The Pyrenees is also a flexurally dominated orogen, but the early consumption of its source rocks led to minimal survival of hydrocarbon accumulations during exhumation in a long lasting, high-taper orogenic wedge. The Sevier was initially a flexural orogen that was later dominated by dynamic uplift of the fold and thrust belt and distal foreland subsidence with foreland deformation. The consumption of its pre-orogenic sources during the early low-taper phase indicates a probable robust petroleum system at that time. However, the late high-taper phase exhumed and destroyed much of the early petroleum system. The addition of syntectonic foreland sources to be matured by both local and dynamic subsidence created an additional later set of petroleum systems. Post-orogenic events have left only remnants of world-class petroleum systems. The Beni segment of the Sub-Andean Orogen is a flexural system with probable dynamic overprints. Its most robust petroleum system probably occurred during its early low-taper flexural phase, with dynamic subsidence enhancement. Its late high-taper phase with possible dynamic uplift shuts down and stresses the petroleum systems. Comparison of these orogenic systems illustrates the importance of flexural v. dynamic processes, orogenic wedge taper kinematics, mechanical stratigraphy, distribution of source rocks relative to shortening and inherited architecture on the creation, preservation and destruction of petroleum accumulations in fold and thrust belts.

Highlights

  • The Zagros is an orogen dominated by flexural processes that is a perfect storm for hydrocarbon generation and preservation

  • Its late high-taper phase with possible dynamic uplift shuts down and stresses the petroleum systems. Comparison of these orogenic systems illustrates the importance of flexural v. dynamic processes, orogenic wedge taper kinematics, mechanical stratigraphy, distribution of source rocks relative to shortening and inherited architecture on the creation, preservation and destruction of petroleum accumulations in fold and thrust belts

  • The objective of this study is to introduce petroleum tectonic analysis (PTA), as described below, and apply it to document and compare the roles of multiple orogenic processes on the petroleum systems in four fold and thrust belts: Zagros, South Pyrenees, Sevier and Beni Sub-Andean

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Summary

Introduction

The Zagros is an orogen dominated by flexural processes that is a perfect storm for hydrocarbon generation and preservation. The objective of this study is to introduce petroleum tectonic analysis (PTA), as described below, and apply it to document and compare the roles of multiple orogenic processes on the petroleum systems in four fold and thrust belts: Zagros, South Pyrenees, Sevier and Beni Sub-Andean. The cross-sections analysed were chosen because they are sequentially restored with sufficient published petroleum system modelling along their lengths to allow high-level integrated analysis They do not capture all the major elements of the entire fold and thrust belts they represent but are sufficient to illustrate the potential usefulness of the applied analysis. The PTA approach is more dynamic, focusing on the full genetic evolution of the petroleum systems This analysis provides a method for auditing the role of various competing orogenic processes in fold and thrust belts while providing a context for examining their petroleum potential

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