南阿尔卑斯塞考杂岩花岗岩类地球化学特征:揭示东阿尔卑斯前阿尔卑斯演化的关键

IF 1.4 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Mineralogy and Petrology Pub Date : 2022-05-19 DOI:10.1007/s00710-022-00781-3
Magdalena Mandl, Walter Kurz, Christoph Hauzenberger, Harald Fritz, Stefan Pfingstl
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引用次数: 0

摘要

近年来的研究表明,塞考杂岩的钙碱性偏花岗岩既包括(1)晚寒武世—早奥陶世侵入杂岩,也包括(2)晚泥盆世—早石炭世(早瓦力斯坎)侵入杂岩。Hochreichart深成岩套件较老岩石具有I ~ s型亲和关系,为过铝质岩石,TiO2、Al2O3、MgO、CaO、P2O5、FeOt和MnO含量普遍随着SiO2的增加而降低。球粒陨石归一化稀土元素(REE)图显示轻稀土元素(LREE)相对重稀土元素(HREE)略微富集,Eu负异常((Eu/Eu*)N = 0.15 ~ 0.77)。侵位时(~ 496 Ma)全岩初始87Sr/86Sr比值在0.7056 ~ 0.7061之间。洼深岩套的早期Variscan岩可分为(a) Pletzen岩体的变-过铝质花岗闪长岩套和(b) Griessstein岩体的过铝质花岗岩套。Pletzen岩体显示出典型的岩浆分选趋势,大部分主要氧化物和微量元素的分选趋势与SiO2相对应。在球粒陨石归一化图上,偏花岗岩强富集LREE,无明显负Eu异常。格里施泰因岩体的过铝质特征更明显,主微量元素分馏趋势与普雷岑岩体相似。然而,SiO2、主量元素和微量元素的含量明显指向一个更演化的熔体,TiO2、Al2O3、MgO和CaO值普遍较低,K2O含量较高。此外,在球粒陨石归一化稀土图上,格里施泰因岩体的变花岗岩还具有约0.81的轻微负Eu异常的特征。Pletzen岩体和Griessstein岩体在就位时间(~ 353 Ma)计算出的初始87Sr/86Sr值分别在0.7051 ~ 0.7061和0.7054 ~ 0.7063之间,表明这两个岩体的岩浆来源相同。应用流纹岩-熔融体模拟结果表明,格里施泰因岩体是由较原始的洼洼岩体分离结晶(~ 30%)形成的。我们对Hochreichart Suite花岗岩类的地球化学数据表明存在晚寒武世至早奥陶世的活动边缘,其残余物现在暴露在Seckau杂岩中。Seckau杂岩的早期Variscan粒状岩被推断为沿南波西米亚活跃大陆边缘的岩浆弧的一部分,该岩浆弧与不同命名的海洋域(Galicia-Moldanubian Ocean或古特提斯洋)的俯冲有关,在冈瓦纳和劳鲁西亚最终碰撞之前。在Variscan造山运动时期,塞考杂岩的总体古地理位置被认为是波希米亚地块的南至东南,与东部的Hohe Tauern、Schladming Tauern和西部喀尔巴阡山脉相邻。
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Geochemistry of granitoids from the Austroalpine Seckau Complex: a key for revealing the pre-Alpine evolution of the Eastern Alps

Recent studies revealed that the calc-alkaline metagranitoids of the Seckau Complex comprise both (1) a Late Cambrian to Early Ordovician and (2) a Late Devonian to Early Carboniferous (early Variscan) intrusive complex. The older rocks of the Hochreichart Plutonic Suite reflect I to S-type affinity and are peraluminous and characterized by a general decrease in TiO2, Al2O3, MgO, CaO, P2O5, FeOt and MnO with increasing SiO2. Chondrite-normalized rare earth element (REE) plots display a slight enrichment in light rare earth elements (LREE) relative to heavy rare earth elements (HREE) as well as negative Eu anomalies ((Eu/Eu*)N = 0.15- 0.77). The whole-rock initial 87Sr/86Sr ratios calculated back to the time of emplacement (~ 496 Ma) vary between 0.7056 to 0.7061. The early Variscan rocks of the Hintertal Plutonic Suite can be subdivided into (a) the meta- to peraluminous granodioritic suite of the Pletzen Pluton and (b) the peraluminous granitic suite of the Griessstein Pluton. The Pletzen Pluton shows typical magmatic fractionation trends for most of the major oxides and trace elements plotted against SiO2. On a chondrite-normalized diagram, metagranitoids are strongly enriched in LREE and show no significant negative Eu anomaly. Metagranitoids of the Griessstein Pluton have a more peraluminous character and similar major and trace element fractionation trends compared to the Pletzen Pluton. However, the contents in SiO2, major and trace elements clearly point towards a more evolved melt with generally lower TiO2, Al2O3, MgO and CaO values and higher K2O content. Metagranitoids of the Griessstein Pluton are additionally characterized by a slight negative Eu anomaly of about 0.81 on a chondrite-normalized REE plot. Initial 87Sr/86Sr values calculated back to the time of emplacement (~ 353 Ma) of the Pletzen Pluton and the Griessstein Pluton vary between 0.7051—0.7061 and 0.7054—0.7063, respectively, and suggest the same magmatic source for both units. Application of rhyolite-MELTS modelling to the Hintertal Plutonic Suite revealed that the Griessstein Pluton formed by fractional crystallization (~ 30%) from the more primitive Pletzen Pluton. Our geochemical data from the Hochreichart Suite granitoids suggest the existence of a Late Cambrian to Early Ordovician active margin with its remnants now exposed in the Seckau Complex. The early Variscan grainitoids of the Seckau Complex are inferred as part of a magmatic arc along the southern Bohemian active continental margin that was related to the subduction of differently termed oceanic domains (Galicia-Moldanubian Ocean or Paleotethys), prior to the final collision of Gondwana and Laurussia. The general paleogeographic position of the Seckau Complex during the Variscan orogeny is considered to be south to southeast of the Bohemian Massif, adjacent to the eastern Hohe Tauern, the Schladming Tauern, and the Western Carpathians.

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来源期刊
Mineralogy and Petrology
Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
2.60
自引率
0.00%
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0
审稿时长
1 months
期刊介绍: Mineralogy and Petrology welcomes manuscripts from the classical fields of mineralogy, igneous and metamorphic petrology, geochemistry, crystallography, as well as their applications in academic experimentation and research, materials science and engineering, for technology, industry, environment, or society. The journal strongly promotes cross-fertilization among Earth-scientific and applied materials-oriented disciplines. Purely descriptive manuscripts on regional topics will not be considered. Mineralogy and Petrology was founded in 1872 by Gustav Tschermak as "Mineralogische und Petrographische Mittheilungen". It is one of Europe''s oldest geoscience journals. Former editors include outstanding names such as Gustav Tschermak, Friedrich Becke, Felix Machatschki, Josef Zemann, and Eugen F. Stumpfl.
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