Characterization of serpentinization in olivine-orthopyroxene-H2O system revealed by thermogravimetric and multivariate statistical analyses

IF 1 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Island Arc Pub Date : 2024-04-02 DOI:10.1111/iar.12519
Atsushi Okamoto, Shuhei Tanaka, Masaoki Uno, Otgonbayar Dandar, Kazuki Yoshida
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引用次数: 0

Abstract

Thermogravimetric (TG) analyses were used to characterize the products and quantify the extent of serpentinization as a stepwise weight loss during heating (TG loss) or its derivative (DTG). Multivariate analyses are powerful tools for extracting information from complicated spectrum data; however, no studies have applied them to characterize serpentinites. In this study, hydrothermal experiments of olivine-H2O, olivine–orthopyroxene-H2O and orthopyroxene-H2O were conducted at 250–400°C and under vapor-saturated pressure. The product minerals observed were serpentine+brucite+magnetite in the olivine-H2O experiments and serpentine±talc in the orthoyroxene-H2O and olivine-orthopyroxene-H2O experiments. These results are consistent with those of previous studies; however, the positions and width of DTG peaks for individual minerals were varied depending on the experimental conditions. To extract systematics from the TG spectra, non-negative matrix factorization (NMF), an unsupervised machine learning technique, was applied to the DTG spectra of the experimental products. NMF revealed that the DTG profiles were explained by a linear combination of six basis spectra, which corresponded to the characteristic products, including three types of serpentine minerals (low-, medium-, and high-T), two types of brucite (low-and high-T), two type of talc (talc+serpentine mixture, well-crystallized talc) with different crystallinity, and noise during the TG measurement. Systematic changes in the factor loading revealed that, in the olivine-H2O systems, the products changed from medium-T serpentine+low-T brucite to high-T serpentine+high-T brucite as serpentinization progressed. In the olivine-orthopyroxene system, low-T serpentine or poorly crystallized talc+serpentine mixture was initially formed, followed by the formation of well-crystallized talc, resulting in dehydration. Applying NMF to DTG showed the mineralogical differences between olivine and orthopyroxene systems and increases of the crystallinity during the progress of serpentinization, suggesting its potential for characterizing various serpentinites within oceanic lithospheres that suffer from several stages of alteration and weathering at different temperatures.

通过热重分析和多元统计分析揭示橄榄石-正辉石-H2O 体系中蛇纹石化的特征
热重(TG)分析用于确定产品的特征,并将蛇纹石化的程度量化为加热过程中的逐步重量损失(TG 损失)或其衍生物(DTG)。多元分析是从复杂的光谱数据中提取信息的强大工具,但还没有研究将其用于描述蛇纹石的特征。本研究在 250-400°C 和蒸汽饱和压力下对橄榄石-H2O、橄榄石-正辉石-H2O 和正辉石-H2O 进行了热液实验。在橄榄石-H2O 实验中观察到的产物矿物为蛇纹石+白榴石+磁铁矿,在正辉石-H2O 和橄榄石-正辉石-H2O 实验中观察到的产物矿物为蛇纹石±铜。这些结果与之前的研究结果一致;但是,根据实验条件的不同,个别矿物的 DTG 峰的位置和宽度也有所不同。为了从 TG 图谱中提取系统性,对实验产物的 DTG 图谱应用了无监督机器学习技术--非负矩阵因式分解(NMF)。非负矩阵因式分解显示,DTG 图谱是由六种基谱的线性组合解释的,这六种基谱与特征产品相对应,包括三种蛇纹石矿物(低、中、高 T)、两种青金石(低、高 T)、两种不同结晶度的滑石(滑石+蛇纹石混合物、结晶良好的滑石)以及 TG 测量过程中的噪声。因子载荷的系统变化表明,在橄榄石-H2O 系统中,随着蛇纹石化的进行,产物由中 T 蛇纹石+低 T 青金石转变为高 T 蛇纹石+高 T 青金石。在橄榄石-正辉石体系中,最初形成低 T 蛇纹石或结晶度较差的滑石+蛇纹石混合物,随后形成结晶度较好的滑石,导致脱水。将 NMF 应用于 DTG 显示了橄榄石系统和正长石系统之间的矿物学差异,以及蛇纹石化过程中结晶度的增加,表明其具有描述在不同温度下经历多个蚀变和风化阶段的大洋岩石圈内各种蛇纹石特征的潜力。
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来源期刊
Island Arc
Island Arc 地学-地球科学综合
CiteScore
2.90
自引率
26.70%
发文量
32
审稿时长
>12 weeks
期刊介绍: Island Arc is the official journal of the Geological Society of Japan. This journal focuses on the structure, dynamics and evolution of convergent plate boundaries, including trenches, volcanic arcs, subducting plates, and both accretionary and collisional orogens in modern and ancient settings. The Journal also opens to other key geological processes and features of broad interest such as oceanic basins, mid-ocean ridges, hot spots, continental cratons, and their surfaces and roots. Papers that discuss the interaction between solid earth, atmosphere, and bodies of water are also welcome. Articles of immediate importance to other researchers, either by virtue of their new data, results or ideas are given priority publication. Island Arc publishes peer-reviewed articles and reviews. Original scientific articles, of a maximum length of 15 printed pages, are published promptly with a standard publication time from submission of 3 months. All articles are peer reviewed by at least two research experts in the field of the submitted paper.
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