Structural styles of the Tierra del Fuego fold-thrust belt foothills, Argentina

Regional structural cross-sections based on seismic, borehole and surface data portray the foothills geometry of the Tierra del Fuego fold-thrust belt. Andean contraction was accommodated by two main deformation mechanisms: (1) a lower duplex thrust system that involves mainly Cretaceous deposits, with floor and roof thrusts at the base of the Cretaceous and close to the base of the Cenozoic, respectively; and (2) a series of detachment and faulted detachment anticlines in the Cenozoic, detached in mudstones above the roof thrust of the underlying duplex thrust system. Less common structures include fault-bend and fault-propagation folds. Basement fault reactivation is only locally important, with most Jurassic graben and half-graben preserved without inversion. Shortening along the foothills is modest, with values ranging from & SIM;8 to 4.6 km. This region of the fold-thrust belt has hydrocarbon exploration interest, but is still largely underexplored. Several large anticlines preserving Cenozoic clastic rocks have not yet been tested. The key risk for these structures is the charge because the thick mudstone package forming their detachment isolates potential Cenozoic reservoirs from the Lower Cretaceous source rocks. Duplex thrust systems at depth may constitute a potential exploration play if the brittle intervals are naturally fractured.

Automated summary

Regional cross-sections reveal the complex geometry and deformation mechanisms of the Tierra del Fuego fold-thrust belt. The dominant mechanisms include a duplex thrust system in the Cretaceous and detachment and faulted detachment anticlines in the Cenozoic. Fault-bend and fault-propagation folds are also present, while basement fault reactivation is limited. The region has potential for hydrocarbon exploration, with untested large anticlines preserving Cenozoic reservoirs.