印度尼西亚苏拉威西岛北部拉索洛群岛地区Morombo地区超镁质岩蛇纹石化研究

Hasria, Febiyanti, Masri, A. Okto, E. S. Hasan, L. Hamimu, Sawaludin, La Ode Muhammad Iradat Salihin, Wahab
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引用次数: 0

摘要

该研究是在苏拉威西岛东南部北科纳威摄政的莫伦波地区进行的。研究的目的是确定蛇纹石化超镁质岩的特征和蛇纹石共生。研究是通过实地观察和实验室分析进行的,包括以x射线荧光(XRF)形式进行的岩石学和地球化学分析。进行岩石学分析以确定岩石中的矿物含量和结构,并确定蛇纹石矿物存在的百分比。岩石学上以原生矿物橄榄石和斜辉石为主,次生矿物为丽沙石、温石棉、反长岩和不透明矿物。XRF分析测定了超镁质岩石中的Ni、Fe、Co、MgO、SiO2、CaO、Al2O3和P元素。岩石学分析结果表明,研究区蛇纹岩超基性岩石主要由蛇纹岩质白云岩和蛇纹岩质橄榄岩组成。岩石中粘土矿物的形成并不发生,因为岩石中的蛇纹石化过程较低。XRF分析结果表明,基岩样品的Ni含量均在0.2%以上。这是由镍的富集引起的,这被解释为岩石中蛇纹石化过程和蜥蜴石形成的结果。研究区蛇纹石化亚过程包括水化作用、蛇纹石再结晶作用和沙漠化作用。蛇纹石共生形成于洋中脊洋底,造山期到风化期。镁在超镁质岩石中被Ni取代,生成Ni-蛇形物。推测研究区内的蜥蜴石和温石棉是导致基岩中镍富集的原因。研究区超镁铁质岩石的蛇纹石化特征表现为低至中等水平的蛇纹石化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Serpentinization Study On Ultramafic Rock at Morombo Area, Lasolo Islands District, North Konawe Regency, Southeast Sulawesi, Indonesia
The research is in Morombo area, North Konawe Regency, Southeast Sulawesi. The purpose of this study was to determine the characteristics of serpentinized ultramafic rock and serpentine paragenesis. Research was conducted using  field observations and laboratory analysis consisting of petrographic and geochemical analysis  in the form of X-Ray Fluorosence (XRF). Petrographic analysis was carried out to identify the mineral content and textures in the rock and to determine the percentage of serpentine mineral presence. Both of these rocks are petrographically dominated by primary minerals olivine and clinopyroxine and secondary minerals namely lizardite, chrysotile, antiorite and opaque minerals. The XRF analysis was to determine the elements of Ni, Fe, Co, MgO, SiO2, CaO, Al2O3 and P in ultramafic rocks. The results of petrographic analysis show that serpentinized ultramafic rocks in the study area consist of serpentinized dunite and serpentinized peridotite. The formation of clay minerals in rocks does not occur because of the low serpentinization process in the rock. The results of XRF analysis showed that all samples in the bedrock showed Ni content above 0.2%. This is caused by the enrichment of Ni which is interpreted as a result of the serpentinization process along with the formation of lizardite in the rock. The serpentinization sub-processes in the study area comprised by hydration, serpentine recrystallization, and deserpentinization. Serpentine paragenesis is formed from the mid-oceanic ridge ocean floor, the orogenic phase to weathering. Substitution of Mg by Ni in ultramafic rocks will produce Ni-Serpentin. It is estimated that in the research area lizardite and chrysotile lizardite and chrysotile are the causes of Ni enrichment in bedrocks. The serpentinization characteristics of ultramafic rocks in the study area show a low to moderate level of serpentinization.
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