尼日利亚夸拉州阿朱巴混辉岩的岩石成因、主要氧化物和微量元素地球化学

Open Journal of Environmental Research (ISSN: 2734-2085) Pub Date : 2021-07-05 DOI:10.52417/OJER.V2I2.218

A. Adedoyin, A. G. Atat, J. Atat

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引用次数: 1

摘要

对阿朱巴混辉岩进行了岩石成因、主要氧化物及微量元素地球化学研究。研究区域位于北纬8°05′n和8°13′n，东经5°23′e和5°30′e。从混杂岩露头中提取了5个岩石样本，用于岩石学和地球化学分析。利用x射线荧光光谱仪技术进行了地球化学分析。主要岩石类型为混杂岩;片麻岩和花岗岩的露头也呈稀疏分布。斑状褶皱是混辉岩上常见的构造，构成了古生体。岩石学分析表明，混辉岩主要由石英、黑云母、斜长石、角闪石和微斜长石组成。主要氧化物分析表明SiO2为主要氧化物，浓度范围为70.71 wt. % ~ 79.32 wt. %，平均值为74.80 wt. %。氧化铝(14.98重量% - 16.44重量%，平均:15.70重量%)，Fe2O3(9.10重量% - 15.41重量%，平均:12.39重量%)，K2O(6.67重量% - 8.86重量%，平均:7.50重量%)和CaO(0.49重量% - 4.64重量%)。平均:2.73 wt. %)。P2O5、MnO、TiO2均小于1.0 wt. %。微量元素分析表明:Rb (0.11 ~ 0.15 ppm，平均0.13 ppm)， Co (0.04 ~ 0.17 ppm，平均0.10 ppm)。小于0.10 ppm的微量元素有Zn、W、Ni、Cu、V和Pb。从岩石学和地球化学评价来看，该杂岩的成因具有富硅的火成岩成因。SiO2-CaO区和K2O-SiO2区将该杂岩分别置于“方济-格雷瓦克”原岩和舒顺岩系列的上界场。

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PETROGENESIS, MAJOR OXIDES AND TRACE ELEMENTS GEOCHEMISTRY OF MIGMATITE IN AJUBA, KWARA STATE, NIGERIA

Petrogenesis, major oxides and trace elements geochemical study was carried out on migmatite in Ajuba. The study area is located on Latitudes 8° 05'N and 8°13'N and Longitudes 5°23'E and 5°30'E. Five rock samples were taken from the migmatite outcrops and used for petrographic and geochemical analyses. The geochemical analysis was done using X-ray Fluorescence Spectrometer technique. The dominant rock type is migmatite; gneiss and granite outcrops were also found in sparse distribution. Ptygmatic folds, which constitute the palaeosome, is the common structure observed on the migmatite rock. The petrographic analysis shows that the migmatite consists of quartz, biotite, plagioclase, hornblende and microcline. The major oxides analysis indicates SiO2 as the dominant oxide with concentration range values (70.71 wt. % - 79.32 wt. %) and average of 74.80 wt. %. Al2O3 (14.98 wt. % - 16.44 wt. %, average: 15.70 wt. %) and Fe2O3 (9.10 wt. % - 15.41 wt. %, average: 12.39 wt. %), K2O (6.67 wt. % - 8.86 wt. %, average: 7.50 wt. %) and CaO (0.49 Wt. % - 4.64 wt. %. average: 2.73 wt. %). P2O5, MnO and TiO2 are less than 1.0 wt. %. The trace elements analysis indicates the concentration distributions: Rb (0.11-0.15 ppm, average 0.13 ppm), Co (0.04-0.17 ppm, average 0.10 ppm). Trace elements ˂ 0.10 ppm are Zn, W, Ni, Cu, V and Pb. From the petrographic and geochemical assessment, the petrogenesis of the migmatite has silica-rich igneous parentage. Moreover, the plots of SiO2-CaO and K2O-SiO2 placed the migmatite on the “upper boundary field of Francisian Greywacke” protolith and Shoshonite series, respectively.

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Open Journal of Environmental Research (ISSN: 2734-2085)

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