内蒙古固阳地区侵入渣尔泰群中新元古代早期辉长岩岩床的发现及其意义

华北克拉通由于新元古代早期构造-岩浆活动的地质记录较少,制约了对其新元古代时期构造演化的认识.本文对内蒙古中部固阳地区侵位于渣尔泰群阿古鲁沟组中3个变辉长岩岩床样品进行了锆石LA-ICP-MS U-Pb年代学测试,显示其侵位年龄为～925 Ma,表明华北克拉通北缘存在新元古代早期的岩浆活动.该岩床与同时期华北克拉通中部...     

华北陆块早元古代基性岩墙群及其构造意义

华北陆块中部带的晋冀蒙地区早元古代未变形变质基性岩脉形成于1781~1765 Ma。东部陆块鲁西地区早元古代类似的基性岩脉形成时间约为1841 Ma。中部带基性岩脉依据其FeOt含量、(Nb/La)N和(Th/Nb)N值的差异能划分为组1、组2和组3三类。它们的元素-同位素组成变化表明,组1样品起源于再循环大陆玄武质组分参与的交代岩石圈地幔,组2样品源于交代富铁岩石圈地幔与MORB组分的混杂源区,组3样品则是受辉长质组分混染的、经俯冲改造而成的岩石圈地幔产物。相反,鲁西地区基性岩脉亏损HFSE,具MORB型钕同位素组成。上述地球化学特征支持华北陆块中部带约1780 Ma的基性岩脉与早期俯冲碰撞作用的关系密切,而东部陆块约1840 Ma基性岩脉类似于弧后盆地构造背景产物。     

Geochronology,petrogenesis and tectonic implications of the Zhongchuan granitic pluton in the Western Qinling metallogenic belt,China

The Zhongchuan district is an important component of the metallogenic belt in the Western Qinling. The Zhongchuan granite pluton occurring in the centre of the Zhongchuan metallogenic area has been poorly constrained, though the Triassic granite in Western Qinling has been well documented. In‐situ zircon U–Pb ages, Hf isotopic compositions and whole‐rock geochemical data are presented for host granite and mafic microgranular enclaves (MMES) from the Zhongchuan pluton, in order to constrain its sources, petrogenesis and tectonic setting of the pluton. The distribution of major, trace and rare earth elements apparently reflect exchange between the MMES and the host granitic rocks mainly due to interactions between coeval felsic host magma and mafic magma. The zircon U–Pb age of host granite (231.6 ± 1.5 to 235.8 ± 2.3 Ma) has overlapping uncertainty with that of the MMES (236.6 ± 1.3 Ma), establishing that the mafic and felsic magmas were coeval. The Hf isotopic composition of the MMES (ε_Hf(t) = −13.4 to 4.0) is distinct from the host granite (ε_Hf(t) = −15.7 to 0.0), indicating that both enriched subcontinental lithosphere mantle (SCLM) and crustal sources contributed to their origin. The zircons have two‐stage Hf model ages of 1064 to 1798 Ma for the host granite and 858 to 1747 Ma for the MMES. This suggests that the granitic pluton was likely derived from partial melting of a Late Mesoproterozoic crust, with subsequent interaction with the SCLM‐derived mafic magmas in tectonic affinity to the South China Block. Copyright © 2012 John Wiley & Sons, Ltd.     

新疆西天山阔库确科铁铜矿区成矿岩体锆石微量元素地球化学特征及其地质意义

新疆西天山北缘的博罗科努晚古生代岛弧带出露大量中酸性侵入体，并发育一系列斑岩-矽卡岩型铁铜多金属矿床。文章对该岛弧带中部阔库确科矽卡岩型铁铜矿床成矿岩体中的锆石开展了微量元素地球化学研究，查明了锆石成因、形成物理化学条件及其对成矿的启示意义等。数据显示，与成矿密切相关的正长花岗岩和闪长岩中锆石均表现为重稀土元素富集、轻稀土元素亏损，正长花岗岩中锆石的∑REE介于（627~1625）×10^-6，闪长岩中锆石的∑REE介于（345~1439）×10^-6。锆石Ti温度计显示正长花岗岩锆石的结晶温度集中在598~810℃；闪长岩锆石结晶温度为651~932℃，正长花岗岩的氧逸度（ΔFMQ+4.25）高于闪长岩（ΔFMQ-1.01）。成矿岩体锆石均形成于封闭的岩浆体系中，主要为岩浆锆石，少量闪长岩中的锆石可能在岩浆晚期遭受了富集轻稀土元素的热液改造。锆石形成构造背景属于大陆岛弧环境。成矿岩体锆石的Ce⁴⁺/Ce³⁺值明显高于区域内不成矿岩体的Ce⁴⁺/Ce³⁺值，其中正长花岗岩锆石中更高的Ce⁴⁺/Ce³⁺值表明，阔库确科矿区内志留系与正长花岗岩发生接触交代形成的矽卡岩中可能有更大的Cu成矿潜力。     

U and Th Contents and Th/U Ratios of Zircon in Felsic and Mafic Magmatic Rocks: Improved Zircon-Melt Distribution Coefficients

High-precision data on U and Th contents and Th/U ratios of zircon obtained using secondary ion mass spectrometry analysis have been collected from the literature. Zircon in the granitic rocks has median values of 350 ppm U, 140 ppm Th, and Th/U=0.52; the recommended zircon-melt partition coefficients are 81 for DU and 8.2 for DTh. In zircon from mafic and intermediate rocks, the median values are 270 ppm U, 170 ppm Th, and Th/U=0.81, and the recommended zircon-melt partition coefficients are 169 for DU and 59 for DTh. The U and Th contents and Th/U ratios of magmatic zircon are low when zircon crystallizes in equilibrium with the melt. Increasing magma temperature should promote higher Th contents relative to U contents, resulting in higher Th/U ratios for zircon in mafic to intermediate rocks than in granitic rocks. However, when zircon crystallizes in disequilibrium with the melt, U and Th are more easily able to enter the zircon lattice, and their contents and Th/U ratios depend mainly on the degree of disequilibrium. The behavior of U and Th in magmatic zircon can be used as a geochemical indicator to determine the origins and crystallization environments of magmatic zircon.