Neogene to modern foreland basin development in the Sub-Andean zone of southern Bolivia and northern Argentina, 21−23°S

Felipe R. Ferroni, P. DeCelles, Jaime Oller Veramendi
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Abstract

The Sub-Andean retroarc region is a unique example of an active continental-scale retroarc foreland basin system. Heavily targeted for hydrocarbon exploration, the region hosts a large volume of subsurface data coupled to surface studies dedicated to refining its evolution in time and space. This paper presents a regional correlation of stratigraphic markers from seismic reflection and well logs across the Sub-Andean foothills at 23−21°S in southern Bolivia and northern Argentina, which reveals the contrasting along-strike history of Mesozoic to Cenozoic tectonics that preceded the foreland basin setting. Supported by published geochronological data and new zircon U-Pb maximum depositional ages, we describe the depositional transition from pre-Andean to Andean stratigraphy and discrete episodes of foreland basin subsidence and shortening. Based on interpreted stratigraphic breaks, we define the extent and stepwise evolution of this foreland basin, which was characterized by the progressive eastward migration of foreland basin depozones. Based on restored thickness profiles, we present flexural models of basin subsidence for the Sub-Andean foothills region. The modeling of discrete episodes of foreland basin subsidence refines the widely accepted bimodal elastic strength in the foreland basin at 21−23°S, which is weaker in the western ranges (∼20 km effective elastic thickness) and stronger eastward (>40 km). Modeling results also reveal minimum values of subsidence rates (up to 1.2 mm/yr) in the sequential foredeep depozones and suggest that the modeled tectonic load migration—as constrained by the record of syntectonic strata—probably increased over time through the incorporation of Sub-Andean rocks into the orogenic wedge.
玻利维亚南部和阿根廷北部(21-23°S)次安第斯山区从新近纪到现代的前陆盆地发育情况
次安第斯弧后地区是活跃的大陆尺度弧后前陆盆地系统的独特范例。该地区是油气勘探的重点目标,拥有大量的地下数据和地表研究,致力于完善其在时间和空间上的演变。本文介绍了玻利维亚南部和阿根廷北部南纬 23-21 度副安第斯山麓地区地震反射和测井记录的地层标记的区域相关性,揭示了前陆盆地形成之前的中生代到新生代构造的沿线历史对比。在已公布的地质年代数据和新的锆石 U-Pb 最大沉积年龄的支持下,我们描述了从前安第斯地层到安第斯地层的沉积过渡以及前陆盆地下沉和缩短的离散事件。根据对地层断裂的解释,我们确定了前陆盆地的范围和逐步演化过程,其特点是前陆盆地的剥蚀带逐步东移。根据恢复的厚度剖面,我们提出了次安第斯山麓地区盆地下沉的挠曲模型。对前陆盆地下沉的离散事件的建模,完善了被广泛接受的南纬 21-23 度前陆盆地的双峰弹性强度,即西部范围较弱(有效弹性厚度∼20 千米),东部较强(>40 千米)。建模结果还揭示了前深部连续沉降带的最小沉降速率值(最多为 1.2 毫米/年),并表明建模的构造荷载迁移--受综合构造地层记录的约束--很可能随着时间的推移,通过将次安第斯岩石纳入造山楔而增加。
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