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71.
The Hejiazhuang pluton is located in the South Qinling Tectonic Belt(SQTB)in the north side of the Mianxian-Lueyang Suture Zone,and consists dominantly of granodiorites.LA-ICP-MS zircon U-Pb dating and Lu-Hf isotopic analyses reveal that these granodiorites of the Hejiazhaung pluton emplaced at~248 Ma,and show a large variation in zirconεHf(t)values from4.8 to 8.8.These granodiorite samples are attributed to high-K to mid-K calc-alkaline series,and characterized by high SiO2(66.6%–70.0%),Al2O3(15.04%–16.10%)and Na2O(3.74%–4.33%)concentrations,with high Mg#(54.2–61.7).All samples have high Sr(627–751 ppm),Cr(55–373 ppm)and Ni(17.2–182 ppm),but low Y(5.42–8.41 ppm)and Yb(0.59–0.74 ppm)concentrations with high Sr/Y ratios(84.90–120.66).They also display highly fractionated REE patterns with(La/Yb)N ratios of 18.9–34.0 and positive Eu anomalies(δEu=1.10–2.22)in the chondrite-normalized REE patterns.In the primitive mantle normalized spidergrams,these samples exhibit enrichment in LILEs but depletion in Nb,Ta,P and Ti.These geochemical features indicate that the granodioritic magma of the Hejiazhuang pluton was derived from the partial melting of hybrid sources comprising the subducted oceanic slab and sediments,and the melts were polluted by the mantle wedge materials during their ascent.The emplacement ages and petrogenesis of the Hejiazhuang pluton prove that the initial subduction of the Mianlue oceanic crust occurred at~248 Ma ago,and the SQTB was still under subduction tectonic setting in the Early Triassic. 相似文献
72.
海南岛琼中地区琼中岩体锆石U-Pb年龄及其地质意义 总被引:17,自引:5,他引:12
琼中地区琼中岩体为钙碱性的铝弱过饱和型花岗岩,具有壳源物质来源,岩石普遍发育定向组构,生成于同碰撞期—晚造山期。其锆石U-Pb年龄为226. 5±2. 9~234. 2±2. 3Ma,为晚三叠世。通过区域分析,认为海南岛海西—印支期花岗岩从西往东,具有由老至新的演化规律,形成了略向南面突出的弧状面理构造。表明同期造山活动消减方向由西至东,呈现出剪刀式闭合的特征。 相似文献
73.
河北矾山杂岩体中单斜辉石的研究 总被引:3,自引:1,他引:2
河北矾山杂岩体属于二氧化硅不饱和的超钾质碱性-过碱性岩浆系列,由单斜辉石岩、辉石正长岩和碱长正长岩等不同类型岩石组成。各类型岩石主要组成矿物为单斜辉石、黑云母、石榴石和正长石。本文利用电子探针对单斜辉石进行了详细研究,发现所有单斜辉石属于高钙透辉石,随着岩浆的演化,主要表现为Fe2+对Mg2+的替代关系,结晶趋势为透辉石→钙铁辉石,这揭示矾山杂岩体岩浆体系的特点是高温、中等大小的氧逸度、贫硅、富碱(尤其是钾)。辉石中的AlIV含量取决于岩浆的硅饱和度,硅越不饱和,AlIV含量越高;AlVI含量则与体系中的Al含量呈正相关关系。由Al对Si的替代引起的电荷不平衡主要由八面体位置的Fe3+来补偿,其次为少量的Ti4+和更少量的Al3+。体系中的Ti含量与体系的温度呈正相关关系,而Na含量则与辉石中的Ti和Fe3+含量成正相关关系。不同类型岩石中单斜辉石从核部到边部随着Mg#的降低,Al、Ti含量呈现不同的演化趋势,这是因为它们于岩浆演化的不同阶段开始结晶,经历了不同的岩浆演化史。碱性岩中高钙辉石的出现和成分环带的普遍发育是由岩浆的贫硅富钾特征决定的。单斜辉石的成分不仅受控于结晶时的温度、压力条件,也受控于岩浆的总成分及其变异。 相似文献
74.
黄陵隆起中-新生代隆升作用的裂变径迹证据 总被引:4,自引:0,他引:4
通过对8个样品磷灰石裂变径迹年龄和3个样品锆石裂变径迹年龄的测定以及时间-温度热演化历史的反演,研究黄陵隆起中新生代的隆升作用过程,结果表明:黄陵隆起自晚三叠世200Ma开始隆升,表现为持续的隆升过程,经历了4个阶段:200Ma~160Ma±的缓慢隆升冷却作用阶段;160Ma~98.4Ma的快速隆升冷却阶段,岩体进入磷灰石部分退火带中;之后进入了一个构造相对稳定的阶段,样品滞留在部分退火带中;随后36.7Ma~28.4Ma以来,再次快速隆升剥蚀冷却。两次快速的隆升作用指示了中扬子地区两次强烈的构造活动和构造变革。作为印支期以来持续的古隆起,黄陵隆起周缘地区是中扬子地区海相油气运聚有利的指向区。 相似文献
75.
76.
77.
浙江外北山铝质A1型花岗岩成因:矿物学、年代学、地球化学及Hf同位素制约 总被引:2,自引:0,他引:2
外北山碱长花岗岩主要由条纹长石、更钠长石、石英和少量铁质黑云母组成,发育晶洞构造,晶洞由石英晶簇、钾长石充填。在岩石化学上,岩石富SiO2、K2O、FeO、F,贫Al_2O_3、MgO、CaO、P_2O_5;稀土元素组成上,富集REE(ΣREE变化范围为107.4×10~(-6)~330.71×10~(-6)),轻稀土分馏程度明显强于重稀土分馏,Eu负异常明显,稀土元素球粒陨石标准化配分曲线呈现"W"型四分组效应;微量元素上,富Rb、Th、Cs、U、Nb,贫Sr、Ba、P、Eu和Ti,显示出典型的铝质A型花岗岩特征。锆石LA-ICP-MS U-Pb同位素定年表明,该岩体形成时代为96.2±0.8Ma。与东南沿海其它晚中生代A型花岗岩体相比,外北山碱长花岗岩具有明显偏高的Nb/Ta和较低的Y/Nb比值,属A1型花岗岩。综合分析表明,晚白垩世早期东南沿海岩石圈强烈伸展及多组断裂活化,引发铁镁质下地壳在高温低压贫水的条件下部分熔融产生花岗质岩浆,并在结晶分异过程中受到富F流体的交代作用,形成外北山富Nb的铝质A型花岗岩。 相似文献
78.
Shang-Song Yang Fangfang Zhang Feng Yuan De-Gao Zhai Yu-Jie Li 《International Geology Review》2017,59(15):1908-1928
West Qinling is one of the most important parts of the Qinling orogenic belt and includes acidic–intermediate plutons and many types of ore deposits. In this article, we collected geochemical and geochronological data for the Triassic granitoid plutons of West Qinling and found that nearly all plutons share the similar features with the Zhongchuan pluton. We present new laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) zircon U–Pb ages, major and trace element geochemistry, and zircon Hf isotope systematics for the granites of the Zhongchuan pluton to elucidate the evolution of granitoid plutons in West Qinling during the Triassic. LA-ICP-MS zircon U–Pb dating indicates that the Xujiaba and Guandigou units formed at 220.1 ± 1.2 and 215.9 ± 0.85 Ma, respectively, reflecting the time of the Late Triassic. The rocks of the Zhongchuan pluton are metaluminous to weakly peraluminous and have a high-K calc-alkaline to shoshonite series with high SiO2 (63.59–76.22%) and low P2O5 (0–0.2%) concentrations, a high K2O/Na2O ratio (1.18–17.92), a high differentiation index (78.45–93.04) and a medium A/CNK ratio (0.98–1.69). The zircon Hf isotope dating indicates that the Xujiaba and Guandigou units have an inhomogeneous εHf(t) (?4.425 to 1.067 for Xujiaba and ?4.920 to 2.042 for Guandigou) and two-stage Hf model ages (1123–1531 Ma for Xujiaba and 1115–2342 Ma for Guandigou). The geochemical and isotopic data imply that the granites of each unit share the same origin. They probably derived from the partial melt of metagreywackes and then mixed with the mantle-derived magma. Based on the regional geological history, petrographic characteristics and new geochemical and isotopic data of the Zhongchuan pluton, we suggest that the Triassic magma was derived from the partial melts of metagreywackes and was influenced by the mantle-derived melt during the collision of the Yangtze and Qinling plates. 相似文献
79.
The Neo-Tethyan subduction in Iran is characterized by the Urumieh–Dokhtar magmatic arc (UDMA), formed by northeast-ward subduction of the oceanic crust beneath the central Iran. This belt coincides with the porphyry copper metallogenic belt that comprises several metallogenic zones, including Ahar–Jolfa in northwest Iran. The Ahar–Jolfa metallogenic zone encompasses two main batholiths of Qaradagh and Sheyvardagh and numerous intrusive bodies of Cenozoic, which have produced many base and precious metal deposits and prospects. The former is considered as continuation of the Meghri–Ordubad pluton in South Armenian Block (SAB), which also hosts porphyry copper deposits (PCDs). The Sungun PCD is the largest occurrence in northwest Iran. Rhenium-Osmium ages of Sungun molybdenites are early Miocene and range between 22.9 ± 0.2 and 21.7 ± 0.2 Ma. Comparison of the ages obtained here with published ages for mineralization across the region suggests the following sequence. The earliest porphyry Cu–Mo mineralization event in northwest Iran is represented by Saheb Divan PCD of late Eocene age, which is followed by the second epoch of middle Oligocene, including the Cu–Mo–Au mineralization at Qarachilar and the Haftcheshmeh PCD. Mineralization in Sungun, Masjed Daghi, Kighal and Niaz deposits corresponds to the third mineralization event in northwest Iran. The first epoch in northwest Iran postdates all Eocene mineralizations in SAB, while the second epoch is coeval with Paragachay and the first-stage of Kadjaran PCDs. Its third epoch is younger than all mineralizations in SAB, except the second stage in Kadjaran PCD. Finally, the Cu mineralization epochs in northwest Iran are older than nearly all PCDs and prospects in Central Iran (except the Bondar Hanza PCD), altogether revealing an old to young trend along the UDMA and the porphyry Cu belt towards southeast, resulted from diachronous, later closure of the Neo-Tethyan oceanic basin in central and SE Iran. 相似文献
80.
塔里木西南缘铁克里克地区广泛发育早古生代中酸性侵入岩,本文对其中布雅岩体及其暗色包体进行系统的岩石学、年代学及岩石地球化学研究,确定了岩石成因及其构造属性。LA-MC-ICP-MS锆石U-Pb年代学研究表明,寄主石英二长闪长岩结晶年龄为432.6±2.5 Ma(MSWD=1.5),暗色包体结晶年龄为432.4±6.4 Ma(MSWD=0.031),二者形成时代相同,均为志留纪早期岩浆活动的产物。地球化学特征表明,布雅暗色包体应来源于地幔的部分熔融,而寄主岩石岩浆具有壳源岩浆的性质并经历了幔源岩浆不均匀的混合。野外及岩相学特征均显示暗色包体为铁镁质岩浆注入长英质岩浆快速冷凝形成的,是幔源岩浆底侵下地壳形成的岩浆混合作用的产物。它们是塔里木南缘早古生代碰撞造山作用晚期的岩浆记录。 相似文献