利用 X 射线荧光和锶同位素追踪大陆沉积中的盐水影响:对 Digne 地区(法国东南盆地)渐新世沉积物的研究

Alexandre Hamon, Damien Huyghe, Caroline Mehl, Alexandre Pichat, S. Révillon, J. Callot
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引用次数: 0

摘要

在造山带中,解读过去的盐构造事件往往十分困难。法国西南部阿尔卑斯山前陆具有漫长的中生代大面积盐构造历史,在新生代阿尔卑斯造山运动期间发生了逆转。由于前陆同时经历了缩短,因此很难确定新生代与盐有关的同步变形。本研究基于沉积学和地球化学方法(锶浓度和 87 Sr/ 86 Sr 比率)对法国迪涅地区圣热尼耶斯的渐新世非海相演替进行研究。新近纪盐的影响突出表现在:(1) 大部分系列的锶浓度较高(>1000 ppm);(2) 出现了卤代腹足类动物;(3) 有两个石膏床沉积。在石灰岩和石膏层中测量到的 87 Sr/86 Sr 比率证实了锶的三叠纪起源,在该系列的前半部分,锶来源于西南部的索里内斜坡,而在上半部分,锶来源于北部的奥特洪隆起。地球化学值还表明存在两个三叠纪蒸发岩层,一个是已知的卡尼安-诺里安(晚三叠世),另一个是奥伦基-安尼西亚(埃利-中三叠世)。这些结果证明,综合利用野外地质学和地球化学可以提供有关过去被抹去的盐构造的信息。
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Coupling of X-ray fluorescence and Strontium isotopes to track brine influences in continental deposits: study of the Oligocene sediments in the Digne area (SE basin, France)
Deciphering past salt tectonics events is often difficult in orogenic domains. The southwestern Alpine foreland in France presents a long Mesozoic extensive salt tectonics history, inverted during the Cenozoic Alpine orogeny. Syn-orogenic Cenozoic salt-related deformations are rather difficult to identify because of the contemporaneous shortening experienced by the foreland. This study is based on sedimentologic and geochemical approaches (Sr concentration and 87 Sr/ 86 Sr ratio) of the Oligocene non-marine succession of St Geniez (Digne region, France. Oligocene salt influences are highlighted by (1) high strontium concentrations (>1000 ppm) in most of the series, (2) the occurrence of Halophyticgastropods and (3) the deposit of two gypsum beds. 87 Sr/ 86 Sr ratio measured in the limestones and the gypsum beds confirm a Triassic origin for the strontium, originating from the diapir of Sorine, located to the south-west for the first part of the series, and from the Authon Thrust, located to the north, for the upper part. Geochemical values also suggest the occurrence of two Triassic evaporite levels, one already known and attributed to the Carnian-Norian (Late Triassic) and one attributed to the Olenekian-Anisian (Ealy-Middle Triassic). These results support that combined use of field geology and geochemistry can provide information on erased past salt-tectonics.
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