Geochronology and petrochemistry of Karabiga pluton in western Sakarya Zone (NW Turkey): Implications from new zircon U-Pb and biotite Ar/Ar ages, Sr-Nd isotope data and bulk-rock geochemistry

IF 2.6 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Chemie Der Erde-Geochemistry Pub Date : 2024-11-01 DOI:10.1016/j.chemer.2023.126052

Şenel Özdamar , Oral Sarıkaya , Naşide Merve Sütçü , Haibo Zou , Sarah Sherlock

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Abstract

The closure of the Neo-Tethys Ocean and the following continental collision produced extensive Eocene-aged granitic plutons in the northern margin of Gondwana. This paper deals with the geochronology and petrogenesis of the Karabiga pluton in western Sakarya Zone. The pluton comprises K-feldspar, plagioclase, hornblende, biotite, quartz and accessory minerals (e.g., titanite, zircon, apatite, opaques), and secondary minerals such as chlorite, sericite, epidote, carbonate and clay minerals. Laser ablation inductively coupled plasma mass spectrometer zircon U-Pb dating yielded perfect ages of 48.27 ± 0.21 and 47.06 ± 0.32 Ma, indicating that the pluton were emplaced in the Early Eocene. Our results indicate that Ti-in-zircon temperature (ca. 900 °C), which is consistent with zircons grew in the continental crust, are higher than zircon saturation temperatures (740–884 °C). ⁴⁰Ar/³⁹Ar dating of biotites of the pluton yielded cooling ages between 47.34 ± 0.43 Ma and 46.30 ± 0.52 Ma. These dates are interpreted as the cooling age of the Karabiga pluton. The pluton is characterized by high SiO₂ (72.40–76.48 wt%), K₂O (5.12–6.44 wt%) and Na₂O (3.26–5.55 wt%) contents and exhibit enriched LREEs, K, Rb, Th, U, and Pb, and depleted Nb, Ta, P, and Ti contents. It belongs to shoshonite series, and displays peraluminous, I-type character. ⁸⁷Sr/⁸⁶S_(i) ratios of the pluton vary between 0.703296 and 0.706654, while those of ¹⁴³Nd/¹⁴⁴Nd_(i) lie between 0.512596 and 0.512629. In conclusion, Karabiga pluton could be originated from dehydration-melting of metagreywacke and metapelites in middle-upper crust due to slab breakoff/delamination and major, trace element contents, decreasing Al₂O₃, Fe₂O₃, MgO and TiO₂ with increasing SiO₂ as well as initial Sr-Nd homogenity show that fractional crystallization played a role in the evolution of the pluton.

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西萨卡里亚区（土耳其西北部）卡拉比加岩体的地质年代和岩石化学：新的锆石 U-Pb 和生物钛 Ar/Ar 年龄、Sr-Nd 同位素数据以及大块岩石地球化学的影响

新特提斯洋的关闭和随后的大陆碰撞在冈瓦纳北缘产生了大量始新世时期的花岗岩柱体。本文论述了位于萨卡里亚区西部的卡拉比加岩体的地质年代学和岩石成因。该岩体由 K 长石、斜长石、角闪石、生物橄榄石、石英和附属矿物（如榍石、锆石、磷灰石、蛋白石），以及绿泥石、绢云母、闪石、碳酸盐和粘土矿物等次生矿物组成。激光烧蚀电感耦合等离子体质谱仪锆石 U-Pb 测定的完美年龄分别为 48.27 ± 0.21 Ma 和 47.06 ± 0.32 Ma，表明该岩浆岩是在早始新世形成的。我们的结果表明，锆石中的钛温度（约 900 °C）与生长在大陆地壳中的锆石相一致，高于锆石饱和温度（740-884 °C）。对深成岩的生物岩进行 40Ar/39Ar 测定，得出的冷却年龄在 47.34 ± 0.43 Ma 和 46.30 ± 0.52 Ma 之间。这些日期被解释为卡拉比加岩浆岩的冷却年龄。该深成岩的特征是SiO2（72.40-76.48 wt%）、K2O（5.12-6.44 wt%）和Na2O（3.26-5.55 wt%）含量高，LREEs、K、Rb、Th、U和Pb含量丰富，Nb、Ta、P和Ti含量贫乏。它属于霰石系列，显示出过铝、I 型特征。该岩的 87Sr/86S(i) 比率介于 0.703296 和 0.706654 之间，143Nd/144Nd(i) 比率介于 0.512596 和 0.512629 之间。总之，卡拉比加岩块可能起源于板块断裂/分层导致的中-上地壳元砾岩和元闪长岩的脱水-熔融，其主要元素、微量元素含量，Al2O3、Fe2O3、MgO 和 TiO2 随 SiO2 的增加而减少，以及最初的 Sr-Nd 均一性表明，碎裂结晶在该岩块的演化过程中发挥了作用。

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来源期刊

Chemie Der Erde-Geochemistry 地学-地球化学与地球物理

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

3.0 months

期刊介绍： GEOCHEMISTRY was founded as Chemie der Erde 1914 in Jena, and, hence, is one of the oldest journals for geochemistry-related topics. GEOCHEMISTRY (formerly Chemie der Erde / Geochemistry) publishes original research papers, short communications, reviews of selected topics, and high-class invited review articles addressed at broad geosciences audience. Publications dealing with interdisciplinary questions are particularly welcome. Young scientists are especially encouraged to submit their work. Contributions will be published exclusively in English. The journal, through very personalized consultation and its worldwide distribution, offers entry into the world of international scientific communication, and promotes interdisciplinary discussion on chemical problems in a broad spectrum of geosciences. The following topics are covered by the expertise of the members of the editorial board (see below): -cosmochemistry, meteoritics- igneous, metamorphic, and sedimentary petrology- volcanology- low & high temperature geochemistry- experimental - theoretical - field related studies- mineralogy - crystallography- environmental geosciences- archaeometry