Deformation and pressure-temperature-time history of the External Tuscan Units in the Northern Apennines (Italy): The case of the Punta Bianca Unit

IF 2.1 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Chiara Montomoli , Salvatore Iaccarino , Gianfranco Di Vincenzo , Pierre Lanari , Alessandro Petroccia , Rodolfo Carosi
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引用次数: 0

Abstract

In this study we investigated through a multidisciplinary approach the still poorly known tectono-metamorphic evolution of the Punta Bianca Unit in the Northern Apennines. The Punta Bianca Unit is part of the Tuscan Metamorphic Units, a group of units derived from the Adria passive margin, metamorphosed at different conditions, and forming the backbone of the Northern Apennine belt. We combined meso- and microstructural analyses, 40Ar/39Ar white-mica geochronology and multi-equilibrium geothermobarometry from high-resolution X-ray chemical maps, to unravel the deformation and metamorphic history of this part of the belt. Meso- and microstructural data indicate that the Punta Bianca Unit recorded two main phases of ductile deformation (here referred to Dp-1 and Dp) associated with syn-kinematic growth of K-white mica, chlorite, calcite, quartz on the related tectonic foliations (Sp-1 and Sp), followed by a later ductile deformation phase (Dp+1) lacking of metamorphic blastesis. P-T estimates complemented by microstructural data suggest that peak metamorphic conditions reached ∼0.8 GPa and ∼350°C and occurred synchronously with the first deformation phase (Dp-1). Temperature values were also confirmed by Raman spectroscopy of carbonaceous material on selected samples. This stage was followed by the exhumation of the Punta Bianca Unit, as testified by decreasing pressure and temperature down to ∼0.4 GPa and ∼300°C respectively, together with the development of the main foliation (Sp). At the regional scale, the Tuscan Metamorphic Units have been mostly affected by HP-LT metamorphic gradients equilibrated under blueschist-facies conditions (up to ∼1.4 GPa). Results from the present work on the contrary, suggest that the Punta Bianca Unit never reached such HP-LT conditions, testifying that it was deformed at relatively upper structural levels, thus highlighting an important variation in the tectono-metamorphic evolution of the Tuscan Metamorphic Units along strike in the Northern Apennines. 40Ar/39Ar laserprobe data (using both the in-situ and step-heating techniques) indicate a minimum age for the onset of continental subduction of ∼20 Ma (Dp-1), which was followed in close succession by exhumation at ∼16 Ma. This approach, if applied to different tectonic units building up the nappe pile of the Northern Apennines, could be successful in better unravelling the tectonic history.

意大利北亚平宁山脉托斯卡纳外部单元的变形和压力-温度-时间历史:蓬塔比安卡单元案例
在这项研究中,我们采用多学科方法对北亚平宁山脉蓬塔比安卡单元的构造-变质演化进行了研究,但人们对这一演化仍知之甚少。蓬塔比安卡单元是托斯卡纳变质岩单元的一部分,托斯卡纳变质岩单元是一组源自阿德里亚被动边缘的单元,在不同条件下发生变质,形成了北亚平宁带的主干。我们将介观和微观结构分析、40Ar/39Ar白云母地质年代学和来自高分辨率X射线化学图的多平衡地热测定法结合起来,揭示了该带这一部分的变形和变质历史。介观和微观结构数据表明,蓬塔比安卡单元记录了两个主要的韧性变形阶段(此处称为 Dp-1 和 Dp),与相关构造叶片(Sp-1 和 Sp)上 K-白云母、绿泥石、方解石、石英的同步线状生长有关,随后是缺乏变质爆破作用的后期韧性变形阶段(Dp+1)。P-T估计值与微结构数据相辅相成,表明变质峰值条件达到了∼0.8 GPa和∼350°C,与第一变形阶段(Dp-1)同步发生。温度值还通过对部分样品上的碳质材料进行拉曼光谱分析得到了证实。在这一阶段之后,蓬塔比安卡单元开始出露,压力和温度分别下降到 0.4 GPa 和 300°C,同时出现了主要褶皱(Sp)。在区域范围内,托斯卡纳变质岩单元主要受到在蓝晶-派系条件下平衡的 HP-LT 变质梯度的影响(高达 ∼ 1.4 GPa)。相反,本次研究的结果表明 Punta Bianca 单元从未达到这种 HP-LT 条件,证明它是在相对较高的构造水平上发生变形的,从而突出了托斯卡纳变质岩单元在北亚平宁山脉沿走向的构造-变质演化过程中的一个重要变化。40Ar/39Ar 激光探针数据(使用原位和阶跃加热技术)表明,大陆俯冲开始的最低年龄为 20 Ma (Dp-1),紧接着是 16 Ma 的掘起。如果将这一方法应用于构成北亚平宁山脉岩层堆积的不同构造单元,则可成功地更好地揭示构造历史。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Geodynamics
Journal of Geodynamics 地学-地球化学与地球物理
CiteScore
4.60
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: The Journal of Geodynamics is an international and interdisciplinary forum for the publication of results and discussions of solid earth research in geodetic, geophysical, geological and geochemical geodynamics, with special emphasis on the large scale processes involved.
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