Eclogite with biotite porphyroblasts—Which conditions are responsible for their formation? An example from the northern Fleur-de-Lys Supergroup, Newfoundland, Canada

IF 3.5 2区 地球科学 Q1 GEOLOGY
Hans-Joachim Massonne
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Abstract

An eclogite from the Early Palaeozoic Fleur-de-Lys Supergroup in Newfoundland was studied because of its biotite porphyroblasts, which very rarely occur in this rock type. Thermodynamic modelling suggests that eclogitic biotite in common metabasite (former basalt–gabbro) is limited to (1) bulk-rock compositions, which are relatively rich in Fe2+ and K and poor in Fe3+, and (2) the low-pressure range of the eclogite facies. The latter reason is supported by the determination of the pressure–temperature (P–T) path of the Newfoundland eclogite. Chemical zonation of garnet, presence of phengite with Si contents of ~3.4 per formula unit, Zr contents in rutile and petrographic observations resulted in a P–T trajectory starting at medium-pressure conditions. Nearly isothermal burial led to a peak pressure of 18–19 kbar at ~575°C, followed by exhumation and slight heating. Deformation occurred at or close to the peak pressure. Subsequent introduction of hydrous fluids caused the formation of porphyroblasts of biotite and Ca–amphibole in the pressure range of 12–17 kbar at peak temperatures of 625–640°C. Retrogression led to very fine-grained symplectites around omphacite and phengite and marginal replacement of biotite porphyroblasts by plagioclase and titanite. Geodynamic scenarios invoking either a flat subduction of oceanic crust followed by continent–continent collision or intracontinental subduction along a transpressional fault system might best explain the formation of eclogite with biotite porphyroblasts in general. For the Newfoundland eclogite, the latter scenario is preferred.

Abstract Image

带有生物斑岩的斜长岩--其形成的条件是什么?加拿大纽芬兰省弗勒-德-莱斯超群北部的一个实例
对纽芬兰早古生代 Fleur-de-Lys 超群中的一块夕长岩进行了研究,因为该岩石类型中很少出现斑状生物岩。热力学模型表明,普通偏闪长岩(原玄武-辉长岩)中的夕发玢岩生物岩仅限于:(1)体岩成分,即相对富含 Fe2+ 和 K,而贫含 Fe3+;(2)夕发玢岩面的低压范围。纽芬兰蚀变岩的压力-温度(P-T)路径的测定支持了后一个原因。石榴石的化学分带、每式单位硅含量约为 3.4 的辉长岩的存在、金红石中的锆含量以及岩相学观察结果,得出了从中压条件开始的 P-T 轨迹。近乎等温的埋藏导致在约 575°C 时达到 18-19 千巴的峰值压力,随后是排空和轻微加热。变形发生在峰值压力或接近峰值压力的地方。随后引入的含水流体导致在12-17千巴的压力范围内形成了斑岩,峰值温度为625-640°C。逆冲作用导致在闪长岩和辉长岩周围形成非常细粒的共闪长岩,并使斜长石和榍石边缘取代了生物斑岩。地球动力学假设要么是大洋地壳平缓俯冲,然后是大陆-大陆碰撞,要么是大陆内部沿着转压断层系统的俯冲,这两种假设可能最能解释一般带有生物斑岩的斜长岩的形成。就纽芬兰斜长岩而言,后一种情况更可取。
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来源期刊
CiteScore
6.60
自引率
11.80%
发文量
57
审稿时长
6-12 weeks
期刊介绍: The journal, which is published nine times a year, encompasses the entire range of metamorphic studies, from the scale of the individual crystal to that of lithospheric plates, including regional studies of metamorphic terranes, modelling of metamorphic processes, microstructural and deformation studies in relation to metamorphism, geochronology and geochemistry in metamorphic systems, the experimental study of metamorphic reactions, properties of metamorphic minerals and rocks and the economic aspects of metamorphic terranes.
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