Post-depositional history of the Miocene Gorgoglione Formation (southern Apennines, Italy): inferences from mineralogical and structural analyses

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2015-07-01 DOI:10.2113/GSSGFBULL.186.4-5.243
F. Cavalcante, G. Prosser, F. Agosta, C. Belviso, Giuseppe Corrado
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引用次数: 11

Abstract

The Gorgoglione Formation represents the infill of a thrust-top basin, which records the tectonic evolution of the southern Apennines (Italy) since Upper Miocene times. The Upper Miocene basin was divided into two main sub-basins, showing both about NNW-SSW elongation. During ongoing contractional deformation, the Gorgoglione basin was incorporated into the allochthonous units of the Apennine fold-and-thrust belt, as outlined by the emplacement of thrust sheets of internal provenance (Sicilide Unit) and by the development of two main generations of tight to open folds. In this work, the modalities of deformation associated to the incorporation of the Gorgoglione Formation into the fold-and-thrust belt has been documented by means of mineralogical and structural analyses. Mineralogical data show that, in the northeastern sub-basin of the Gorgoglione Formation, the illite content and the order of illite/smectite mixed layer increase near the contact with the overlaying Sicilide Unit. These data are hence used to estimate the relative tectonic load produced by thrusting of the aforementioned tectonic unit. Structural data are consistent with tight, NNW-trending, meso-scale folds particularly frequent in the upper pelitic/arenaceous portion of the Gorgoglione Formation. Within these folded pelitic levels, a well-developed axial-plane foliation, and an ordered I/S (R1 and R3) with higher illite content, is documented. Instead, other folds developed far away from the Sicilide klippen show an incipient axial-plane foliation and a random I/S (R0) with lower illite amount is found in pelites. The data suggest that the eastern sub-basin of the Gorgoglione Formation underwent variable tectonic load, increasing from E to W, as well as deformation produced by thrusting of Sicilide sheet. The mineralogical data also indicate that illitization process is favoured for the high availability of potassium due to the dissolution of k-feldspar. High potassium availability affects the samples subjected to the highest diagenetic degree, characterized by kaolinite illitization process.
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意大利亚平宁山脉南部中新世Gorgoglione组沉积后历史:矿物学和构造分析的推论
Gorgoglione组为逆冲顶盆地的充填,记录了意大利亚平宁山脉南部中新世以来的构造演化过程。上中新世盆地划分为两个主要的子盆地,均表现为NNW-SSW延伸。在持续的收缩变形过程中,Gorgoglione盆地被整合到亚平宁褶皱冲断带的异位单元中,其轮廓为内部物源冲断片的侵位(西西里特单元)和两代主要的紧开褶皱的发育。在这项工作中,通过矿物学和构造分析,记录了与Gorgoglione组并入褶皱冲断带有关的变形模式。矿物学资料表明,在高尔戈里奥内组东北次盆地中,靠近上覆硅石单元接触处,伊利石含量和伊利石/蒙脱石混合层序增加。因此,这些数据被用来估计由上述构造单元的逆冲所产生的相对构造荷载。构造资料与致密的nnw向中尺度褶皱相一致,在Gorgoglione组上泥质/砂质部分尤为频繁。在这些褶皱的泥质层中,有发育良好的轴面叶理和有序的I/S (R1和R3),伊利石含量较高。与此相反,远离硅质克利坪发育的其他褶皱表现为早期的轴面叶理,且泥质体中存在随机的I/S (R0),伊利石含量较低。研究结果表明,高尔戈里奥内组东部次盆地经历了由东向西递增的变型构造载荷,以及硅烷片的逆冲作用产生的变形。矿物学数据还表明,由于钾长石的溶解,illiization过程有利于钾的高可利用性。高钾有效度影响了样品的最高成岩程度,其特征是高岭石的钝化过程。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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