Gley catagenesis of Devonian red-colored rocks on the Middle Timan

Q4 Earth and Planetary Sciences

Litosfera Pub Date : 2023-11-03 DOI:10.24930/1681-9004-2023-23-5-809-819

I. Kh. Shumilov

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Abstract

Research subject . The article presents the results of morphological, mineralogical, and geochemical studies into gley zones in the Devonian red-colored sediments of the Middle Timan. Aim . Determination of the timing of gleization processes in the formation history of the Devonian sedimentary strata; identification of morphological, mineralogical and geochemical features of gley zones. Methods. A macroscopic study of the morphology of gley zones in successive sections of the sediments was carried out in field conditions. Thin sections were studied using a Nikon eclipse LV100 ND polarization microscope with a Nikon DS Fi2 camera; polished samples were characterized using a TESCAN electron microscope VEGA3 with an Oxford instruments X-Max energy dispersion attachment; the chemical composition was determined by an X-ray fluorescent silicate method on a MESA-500W spectrometer; X-ray diffraction analysis was performed using a Shimadzu XRD-6000 diffractometer under the CuKα radiation. Results . In terms of size and morphological features, the gley zones under study are divided into four types: point, veined, lens-shaped, and bed-shaped. The similarity between the forms of gley zones and core organics fragments was established both in plan and vertically. The lithological heterogeneity of rocks (stratification) does not have any effect on the development of gley processes. Changes in the content of rock-forming elements during gleization are confined to intensive iron removal and a slight decrease in the potassium content; the silica content remains almost unchanged. An increase in the content of aluminum, titanium, and magnesium was observed. Among the contents of microelements, trends towards accumulation of Y and Yb, removal of Ga, V, Co, Ni are noticeable. Conclusions . Gleization processes proceeded for a very long time until the sedimentary sequence was completely formed and compacted; the main mechanism of chemical element migration was diffusion.

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中提曼泥盆纪红色岩石的闪蚀作用

研究课题。本文介绍了中提曼泥盆纪红色沉积物中泥质带的形态、矿物学和地球化学研究结果。的目标。泥盆纪沉积地层形成史中gleization作用时间的确定泥化带的形态、矿物学和地球化学特征识别。方法。在野外条件下，对连续剖面沉积物的泥质带形态进行了宏观研究。采用尼康DS Fi2相机，使用Nikon eclipse LV100 ND偏光显微镜对薄片进行研究;使用TESCAN电子显微镜(VEGA3)对抛光后的样品进行表征，并用Oxford instruments的X-Max能量色散连接;在MESA-500W光谱仪上用x射线荧光硅酸盐法测定化学成分;在CuKα辐射下，用岛津XRD-6000衍射仪进行x射线衍射分析。结果。根据大小和形态特征，研究的沟带可分为点状、脉状、透镜状和床状四种类型。在平面上和垂直上，建立了沟状带与岩心有机质碎片形态的相似性。岩石的岩性非均质性(分层)对泥化过程的发育没有任何影响。闪化过程中形成岩石元素含量的变化仅限于铁的强烈去除和钾含量的轻微降低;二氧化硅含量几乎保持不变。观察到铝、钛和镁的含量增加。微量元素中，Y、Yb的富集趋势明显，Ga、V、Co、Ni的去除趋势明显。结论。Gleization过程持续了很长时间，直到沉积层序完全形成和压实;化学元素迁移的主要机制是扩散。

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来源期刊

Litosfera Earth and Planetary Sciences-Geophysics

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

12 weeks