南乌拉尔沙塔克杂岩酸性岩类稀土矿化首次资料

Q4 Earth and Planetary Sciences
S. G. Kovalev, S. S. Kovalev, A. A. Sharipova
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引用次数: 0

摘要

研究课题。研究了沙塔克杂岩的酸性岩种类。材料和方法。研究对象包括以前未知的以稀土矿物为代表的丰富矿化。在IG UFRC RAS (Ufa)上,使用VRA-30光谱仪(卡尔蔡司,德国)和w阳极(30 kV, 40 mA) x射线管,采用x射线荧光法测定了成岩氧化物的浓度。研究区岩石中稀土元素的含量由VSEGEI中央研究所(圣彼得堡)用ICP-MS法测定。矿物学研究使用Tescan Vega Compact扫描电子显微镜,配备Xplorer Oxford Instruments能量色散分析仪(IG UFRC RAS, Ufa)。结果。所研究的岩石化学成分多样,从碱性品种(粗达英岩)到低碱性流纹岩不等。这些岩石属于高铝型,具有钾特化和低溶染系数的特征。据推测,长英质变种是次火山构造,在这种情况下,“流纹岩”一词表征的是岩石的化学成分,而不是它们的成因。研究岩石中稀土元素的含量波动较大,从60.81 g/t到1625.39 g/t不等;而且,它们的分布具有显著的差异性。岩石总体上属于玄武岩-流纹岩对比系列,其成因是由于岩浆在中间岩浆室中分异所致。在岩石中发现了大量的稀土矿物,包括allanite-(Ce)、monazite-(Ce)、monazite-(La)、nioboeshinit-(Y)、aeschinite-(Y)、talena-(Dy)、talena-(Nd)、synchite -(Ce)和Ce - La - fe氧化物。结论。allanite-(Ce) + aeschinite-(Y) + nioboaeschinite-(Y)、allanite-(Ce) + talena-(Dy) + talena-(Nd)等稀土矿物共生组合的存在,表明稀土成矿作用是在一个单一过程中形成的。所描述的成矿类型在南乌拉尔西坡没有类似的成矿类型,因此需要进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
First data on rare earth mineralization in acid rock varieties of the Shatak complex (Southern Urals)
Research subject . Acid rock varieties of the Shatak complex were studied. Materials and methods . The reseach object included the previously unknown abundant mineralization represented by rare earth minerals. The concentration of petrogenic oxides was determined by the X-ray fluorescence method at the IG UFRC RAS (Ufa) using a VRA-30 spectrometer (Carl Zeiss, Germany) with an X-ray tube with a W-anode (30 kV, 40 mA). The amount of rare earth elements in the rocks of the studied area was determined by the ICP-MS method at the Central Research Institute of VSEGEI (St. Petersburg). The mineralogy was studied using a Tescan Vega Compact scanning electron microscope equipped with an Xplorer Oxford Instruments energy-dispersive analyzer (IG UFRC RAS, Ufa). Results . The studied rocks were diverse in chemical composition, varying from alkaline varieties (trachydacites) to low-alkaline rhyolites. These rocks belong to a highalumina type characterized by potassium specialization and a low agpaitic coefficient. It is assumed that the felsic varieties are subvolcanic formations, and the term “rhyolites” in this case characterizes the chemical composition of the rocks, but not their genesis. The amount of rare earth elements in the studied rocks is subject to significant fluctuations, varying from 60.81 g/t to 1625.39 g/t; moreover, their distribution is characterized by significant differentiation. In general, the rocks belong to a contrasting basalt-rhyolitic series, and their genesis is due to the differentiation of magma in the intermediate chamber. Numerous rare-earth minerals were found in the rocks, inlcuding allanite-(Ce), monazite-(Ce), monazite-(La), nioboeshinit-(Y), aeschinite-(Y), talena-(Dy), talena-(Nd), synchisite-(Ce) and Ce–La–Fe oxide. Conclusions . The presence of paragenetic associations of rare-earth minerals, such as allanite-(Ce) + aeschinite-(Y) + nioboaeschinite-(Y) and allanite-(Ce) + talena-(Dy) + talena-(Nd), indicate the formation of rare-earth mineralization in the course of a single process. The described type of mineralization has no analogues on the western slope of the Southern Urals, which substantiates the need for further research.
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来源期刊
Litosfera
Litosfera Earth and Planetary Sciences-Geophysics
CiteScore
0.70
自引率
0.00%
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39
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12 weeks
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