Tectono-metamorphic evolution of shallow crustal levels within active volcanic arcs. Insights from the exhumed Basal Complex of Basse-Terre (Guadeloupe, French West Indies)

BSGF - Earth Sciences Bulletin Pub Date : 1900-01-01 DOI:10.1051/bsgf/2019011

Alexiane Favier, J. Lardeaux, L. Legendre, C. Vérati, M. Philippon, M. Corsini, P. Münch, S. Ventalon

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引用次数: 12

Abstract

In order to decipher the tectono-metamorphic evolution of shallow crustal levels of the active volcanic arc of the Guadeloupe archipelago (Lesser Antilles) we present new geochemical, geochronological, mineralogical and structural investigations of the so-called Basal Complex, the oldest and most eroded volcanic complex of Basse-Terre in Guadeloupe. Based on geochemical and mineralogical criteria we propose an updated geological map of this northern area of Basse-Terre. Using 40Ar–39Ar geochronology we demonstrate first that the eroded “Gros Morne” of Deshaies belong to the Basal Complex, and second that this complex is characterized by 4.3 to 2 Ma old volcanism. Structural analysis reveals a long-lived deformation history with the development through time of N80-N100 schistose zones; N110-N140 and N160-N10 oriented hydrothermal breccias and N140-N150 brittle normal faults. The boundary between the Basal Complex and the southernmost Septentrional Chain corresponds to a series of faults with N 150° and N 50° main directions. Detailed mineralogical and petrological investigations, including thermodynamic modeling, allow the identification of three phases of post-magmatic mineralogical transformations with first a high-temperature stage under Greenschist to sub-Greenschist facies conditions (0.6–2 kbar for 250–300 °C), a re-equilibration under Zeolite facies conditions and finally a sub-surface alteration. The consistency between P–T conditions of metamorphism and the present day measured geothermal gradient demonstrates that the metamorphic pattern is the record of hydrothermal fluids circulation during building and cooling of the Lesser Antilles magmatic arc. The tectono-metamorphic evolution recognized in the Basal Complex enables us to propose a conceptual model for heat and fluid transport within shallow crustal levels of the Guadeloupe active volcanic arc.

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活火山弧内浅层地壳构造变质演化。从Basse-Terre(瓜德罗普岛，法属西印度群岛)基底复合体发掘的见解

为了破译瓜德罗普群岛(小安的列斯群岛)活火山弧浅层地壳的构造变质演化，我们对所谓的基底杂岩进行了新的地球化学、年代学、矿物学和结构研究。基底杂岩是瓜德罗普岛Basse-Terre最古老、侵蚀最严重的火山杂岩。根据地球化学和矿物学标准，我们提出了Basse-Terre北部地区的更新地质图。利用40Ar-39Ar年代学分析，我们首先证明了德谢依侵蚀的“Gros Morne”属于基底杂岩，其次，该杂岩具有4.3 ~ 2 Ma的火山活动特征。构造分析揭示了N80-N100片岩带随时间的发展具有较长的变形史;n110 ~ n140、n160 ~ n10型热液角砾岩和n140 ~ n150型脆性正断层。基底杂岩与最南端的七层链的边界对应着一系列主向北150°和北50°的断裂。详细的矿物学和岩石学研究，包括热力学建模，可以确定岩浆后矿物学转变的三个阶段:第一个阶段是绿片岩到亚绿片岩相条件下的高温阶段(250-300℃时0.6-2 kbar)，沸石相条件下的再平衡阶段，最后是地下蚀变阶段。变质作用的P-T条件与目前测量的地温梯度的一致性表明，变质模式是小安的列斯岩浆弧形成和冷却过程中热液流体循环的记录。基底杂岩的构造变质演化使我们能够提出瓜德罗普活火山弧浅层地壳内热量和流体输送的概念模型。

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BSGF - Earth Sciences Bulletin

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