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东秦岭造山带两类元古宙地壳基底及其地壳增生 总被引:3,自引:0,他引:3
通过研究南秦岭地区陡岭群、武当群和北秦岭地区秦岭群的变质基性岩等的铅同位素和微量元素组成,揭示出东秦岭造山带分布有两种性质及不同归属的元古宙地壳,指出中、古元古代时可能一个统一的地壳基底;南秦岭的中、古元古代地壳是在扬子陆地基底上通过岛弧的侧向加积形成和,北秦岭元古宙地壳则可能垂向增生于一个富入射性成因铅同位素组成的、具古洋壳幔性质的微地块之上,研究还表明陡岭群不是北秦岭地区的秦岭群,而应属于南秦 相似文献
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武夷山高溪和富城花岗岩体地球化学及其与铀成矿的关系 总被引:6,自引:2,他引:6
从成矿地质条件分析,武夷火山铀成矿带中的主要铀矿床的共同点是都具有花岗岩基底岩石。选择富城和高溪两花岗岩体进行地球化学研究。这两个岩体均为复式岩基,其主体岩石都形成于印支晚期(高溪:214.6Ma;富城:203~226Ma)。岩体中的长石为微斜长石;黑云母为铁云母和铁叶云母。岩石化学表现为富硅、偏碱和铝过饱和的特征。微量元素Co、Ni、Cr、Sr、Ba含量和Sr/Ba比值较低,Rb、Nb、Pb、Zn的含量和Rb/Sr比值高。稀土总量较高,轻稀土富集,轻、重稀土的比值高,并有强烈的铕亏损。高溪和富城两岩体的初始锶同位素组成高(分别为0.71239和0.7198),钕同位素组成低(-6.62~-12.84),这些表明高溪岩体属改造型花岗岩。两岩体中活性铀的比例高,特别是在蚀变作用中活性铀的比例增加。铅同位素追踪研究表明,在蚀变过程中岩体中的铀发生了大量的丢失。矿石铅同位素和岩体铅同位素都位于造山带的演化线附近,且矿石铅、火山岩铅、花岗岩铅及基底变质岩铅同位素组成呈线性关系,据此认为高溪和富城花岗岩体分别是形成570和6722矿床主要铀源体之一 相似文献
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Assessment of hydrogeological conditions in basement aquifers of the Precambrian Oban massif, southeastern Nigeria 总被引:1,自引:0,他引:1
A combined analysis of lineament length density from radar imagery and surface resistivity data is used to assess the hydrogeological conditions in the Oban massif, Nigeria. The results show that the data guided the qualitative and quantitative estimation of some aquifer parameters. These include resistivity of the water bearing formations (280–740 ω m), thickness (5–140 m), limited hydraulic conductivity (8.53-13.18 m/day) and transmissivity (410.65–725.88 m2/day) data. In addition, the lineament length density for the area ranged between less than 0.2 to slightly more than 0.4. Site evaluation for the location of productive boreholes/wells using a groundwater potential index (GWPI) indicates that areas with a GWPI of greater than 35 are consistent with relatively high yield. 相似文献
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对安徽铜陵新桥铜-硫-铁-金矿床区内的石英闪长岩和辉绿岩中的锆石分别进行了SHRIMP精确定年研究,石英闪长岩中锆石206Pb/238U年龄为(140.4±2.2)Ma,辉绿岩中锆石的年龄较复杂,其中发现了元古代锆石颗粒,其锆石207Pb/206Pb年龄为(2261±14)Ma,(1612±8)Ma,(919±12)Ma,(831±17)Ma。另外还有一组早古生代年龄的锆石,锆石206Pb/238U年龄为(443±13)Ma。以上这些新资料说明该区可能存在元古代基底的信息,且燕山期岩浆活动对本区成矿具有重要意义。 相似文献
28.
Four major fault systems oriented N–S to NNE–SSW, NE–SW, E–W and NW–SE are identified from Landsat Thematic Mapper (TM) images and a high resolution digital elevation model (DEM) over the Ethiopian Rift Valley and the surrounding plateaus. Most of these faults are the result of Cenozoic - extensional reactivation of pre-existing basement structures. These faults interacted with each other at different geological times under different geodynamic conditions. The Cenozoic interaction under an extensional tectonic regime is the major cause of the actual volcano-tectonic landscape in Ethiopia. The Wonji Fault Belt (WFB), which comprises the N–S to NNE–SSW striking rift floor faults, displays peculiar propagation patterns mainly due to interaction with the other fault systems and the influence of underlying basement structures. The commonly observed patterns are: curvilinear oblique-slip faults forming lip-horsts, sinusoidal faults, intersecting faults and locally splaying faults at their ends. Fault-related open structures such as tail-cracks, releasing bends and extensional relay zones and fault intersections have served as principal eruption sites for monogenetic Plio-Quaternary volcanoes in the Main Ethiopian Rift (MER). 相似文献
29.
Polymetamorphism in garnet micaschists of the Saualpe Eclogite Unit (Eastern Alps,Austria), resolved by automated SEM methods and EMP–Th–U–Pb monazite dating 下载免费PDF全文
B. Schulz 《Journal of Metamorphic Geology》2017,35(2):141-163
Polymetamorphic garnet micaschists from the Austroalpine Saualpe Eclogite Unit (Kärnten, Austria, Eastern Alps) display complex microstructural and mineral–chemical relationships. Automated scanning electron microscopy routines with energy dispersive X‐ray (EDX) spectral mapping were applied for monazite detection and garnet mineral–chemical characterization. When the Fe, Mg, Mn and Ca element wt% compositions are used as generic labels for garnet EDX spectra, complex zonations and porphyroblast generations can be resolved in complete thin sections for selective electron‐microprobe analyses. Two garnet porphyroblast generations and diverse monazite age populations have been revealed in low‐Ca and high‐Al‐metapelites. Garnet 1 has decreasing Mn, constant Ca and significantly increasing Mg from cores to rims. Geothermobarometry of garnet 1 assemblages signals a crystallization along a M1 prograde metamorphism at ~650 °C/6–8 kbar. Sporadic monazite 1 crystallization started at c. 320 Ma. Subsequent pervasive 300–250 Ma high‐Y and high‐Gd monazite 1 formation during decompression coincided with the intrusion of Permian and Early Triassic pegmatites. Monazite 1 crystallized along the margin of garnet 1. Coronas of apatite and allanite around the large 320–250 Ma monazite signal a retrogressive stage. These microstructures suggest a Carboniferous‐to‐Early‐Permian age for the prograde M1 event with garnet 1. Such a M1 event at an intermediate‐P/T gradient has not yet been described from the Saualpe, and preceded a Permo‐Triassic low‐P stage. The M2 event with garnet 2 postdates the corona formation around Permian monazite. Garnet 2 displays first increasing XCa at decreasing XMg, then increasing XCa and XMg, and finally decreasing XCa with increasing XMg, always at high Ca and Mg, and low Mn. This records a P–T evolution which passed through eclogite facies conditions and reached maximum temperatures at ~750 °C/14 kbar during decompression‐heating. A monazite 2 population (94–86 Ma) with lower Y and Gd contents crystallized at decreasing pressure during the Cretaceous (Eo‐Alpine) metamorphism M2 at a high‐P/T gradient. The Saualpe Eclogite Unit underwent two distinct clockwise metamorphic cycles at different P–T conditions, related to continental collisions under different thermal regimes. This led to a characteristic distribution pattern of monazite ages in this unit which is different from other Austroalpine basement areas. 相似文献
30.
本文利用电子探针对南海西沙群岛琛航岛珊瑚礁底部火山碎屑岩中的单斜辉石矿物的化学特征进行了研究。结果表明,该单斜辉石属于富钙透辉石,部分有正环带结构,从核部到边部Ca、Fe、Ti的含量逐渐增加,是岩浆正常结晶顺序的反映,说明该区域的岩浆演化是向着富Ca、Fe、Ti方向发展的。主量元素数据显示,单斜辉石具有低Si高Al的特征(SiO2=41.40%~48.44%,Al2O3=5.54%~10.20%),且AlⅣ含量较高,说明母岩浆为不饱和碱性岩浆系列;此外,单斜辉石Ca含量偏高,Ca/(Ca+Mg+Fe)值在46.1%~51.4%之间,推测是母岩浆的高Ca含量导致了大量高钙辉石的产出。结合西沙海域的地震和构造资料,推测琛航岛珊瑚礁的基底是玄武质火山碎屑岩组成的平顶状海山,系岩浆穿过断裂发育的岩石圈层在西沙群岛的海底喷发,随后火山碎屑物质经过堆积、固结作用而形成;该火山碎屑岩的原岩为板内碱性玄武岩。 相似文献