东南比利牛斯前陆盆地的年代地层学和构造沉积史(西班牙东北部的里波尔群山)

IF 1.9 3区 地球科学 Q1 GEOLOGY
Philémon Juvany, Miguel Garcés, Miguel Lopez-Blanco, Carles Martín Closas, Elisabet Beamud Amorós, Josep Tosquella, Susanna Emilia Bekkevold
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引用次数: 0

摘要

本文通过回顾南比利牛斯前陆系统东段盆地充填的年代地层框架,有助于了解南比利牛斯前陆系统的构造沉积演化。通过对六个断面的分析和交叉关联,建立了 6.5 千米厚的复合磁地层学,代表了里波尔斜长带 Cadí Nappe 的完整记录。新的和以前的磁地层剖面与现有的生物地层学相结合,为 Cadí Nappe 沉积演替提供了新的年龄校准,包括从古新世到中吕特世的年龄。建议与地磁极性时间尺度进行相关性分析,目的是将磁地层学数据与基于海洋浅层底栖生物分带(SBZ 生物分带)、大陆哺乳动物生物时间学(MP 水平)和新收集的叶绿体数据建立的区域生物时间学进行最佳协调。对校准后的复合演替进行了沉降分析,得出了两个界限分明的断代。古新世至早始新世区间的总下沉率较低(11-21 厘米/千米),而早始新世至中始新世区间的总下沉率较高(70-75 厘米/千米)。沉降和沉积的详细趋势标志着前陆剥蚀带的发展和演变,从远端前陆剥蚀带到前深部和楔顶剥蚀带,这与佩德拉福卡断块和卡迪推覆断块的形成有关。卡迪断层最明显的沉积转变发生在 49 Ma,碳酸盐岩平台迅速淹没,并过渡到滑石和深盆地环境。碳酸盐岩平台坍塌并沉积在新形成的与造山运动前沿平行的拉长海槽的距土上。这标志着下佩德拉福卡岩层的海底隆起引发了构造沉降。造山楔的喷发推动了滞后 1 Myr 的硅质岩进入里波尔海槽。与南比利牛斯山脉的其他地区相比,前深槽的填充速度很快(在不到 7 Myr 的时间内填充了 5.5 公里的厚度),这得益于其半封闭的古地理环境。早在中吕梯纪(43Ma),Vallfogona 山脉的形成就将卡迪断层带入了楔顶环境。然而,里波尔生长突岩继续充当冲积沉积的临时沉淀池,而在自生的埃布罗盆地更南面则形成了前深海。伊比利亚板块对轴心区构造增厚的挠曲反应在一定时期内抵消了卡迪断陷的局部隆起,为填充里波尔向斜的顶部沉积物提供了容纳空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Chronostratigraphy and tectono-sedimentary history of the Eastern South Pyrenean foreland basin (Ripoll Syncline, North-East Spain)

Chronostratigraphy and tectono-sedimentary history of the Eastern South Pyrenean foreland basin (Ripoll Syncline, North-East Spain)

This paper contributes to an understanding of the tectono-sedimentary evolution of the South Pyrenean foreland system by reviewing the chronostratigraphic framework of the basin infill in its eastern sector. Six sections are analysed and cross-correlated to build a 6.5 km thick composite magnetostratigraphy that represents the complete record of the Cadí Nappe in the Ripoll Syncline. New and previous magnetostratigraphic sections are integrated with available biostratigraphy to provide a new age calibration of the sedimentary succession of the Cadí Nappe, encompassing from Palaeocene to Middle Lutetian age. The proposed correlation with the Geomagnetic Polarity Time Scale aims at best reconcile magnetostratigraphic data with the regional biochronology built on the marine Shallow Benthic Zonation (SBZ biozones), the continental mammalian biochronology (MP levels) and the newly collected charophyte data. A subsidence analysis was performed on the calibrated composite succession, resulting in two well-defined intervals bounded by a hiatus. A Palaeocene to Early Eocene interval with low (11–21 cm/kyr) total subsidence rates, and an Early to Middle Eocene interval, characterised by high (70–75 cm/kyr) total subsidence rates. The detailed trends in both subsidence and sedimentation mark the development and evolution of the foreland depozones, from distal foreland depozones to foredeep and wedge-top depozones, relative to the emplacement of the Pedraforca Nappe and Cadí Thrust Nappe. The most pronounced sedimentary shift in the Cadí Nappe occurred at 49 Ma, with the rapid drowning of the carbonate platforms and its transition into talus and deep basinal environments. Carbonate platforms collapsed and resedimented on the talus of the elongated trough, newly formed parallel to the orogenic front. This marked the onset of tectonic subsidence triggered by the submarine emplacement of the Lower Pedraforca Nappe. The emersion of the orogenic wedge drove the entry of siliciclastics, lagged by 1 Myr, into the Ripoll Trough. The foredeep filled rapidly (5.5 km thickness in less than 7 Myr) compared to other South Pyrenean regions, favoured by its semi-enclosed palaeogeography. The emplacement of the Vallfogona Thrust as early as the Middle Lutetian (43 Ma) brought the Cadi Nappe into a wedge-top setting. However, the Ripoll growth syncline continued acting as a temporary sink for alluvial sedimentation while a foredeep developed further south in the autochthonous Ebro Basin. The flexural response of the Iberian plate to the tectonic thickening of the Axial Zone counterbalanced for a period the local uplift of the Cadi Nappe, providing accommodation space for the top sediments filling the Ripoll Syncline.

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CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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