Geochemical characteristics of spherules from the Pivdenna kimberlite pipe, East Azov region (Ukraine): implications for their sources and origin

IF 0.9 4区 地球科学 Q3 GEOLOGY Geological Quarterly Pub Date : 2023-04-17 DOI:10.7306/gq.1676
Ivan Yatsenko, Andriy Poberezhskyy, Oksana Stupka, Serhii Bekesha
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Abstract

The composition of spherules and particles of native metals from the Pivdenna kimberlite pipe, Ukraine, was studied using the SEM/EDS method. Three varieties of spherules have been distinguished: titanium-manganese-iron-silicate (TMIS) spherules, Ca-rich silicate spherules, and magnetite-wustite-iron (MW-I) spherules. TMIS spherules are composed of homogeneous glass, some having a native iron core. Large TMIS spherules may contain a crystalline phase with needle-like armalcolite. Ca-rich silicate spherules can be subdivided into two subtypes: calcium-silicate (CS) spherules where SiO2 and CaO are the dominant constituents, and calcium-iron-silicate (CIS) spherules with significant FeO content. CS spherules may contain a core consisting of native phases (Fe, Fe-Si, and Mn-Si-Fe). Native metal particles are represented by native Cu and native Zn. The spherule varieties from the Pivdenna pipe are similar to those from other kimberlite pipes in the world. We infer that the formation of spherules occurred in gas-melt streams, separately from the kimberlites, and propose a model for the formation of the most common variety of spherules (TMIS and MW-I varieties) in the region of the core-mantle boundary (CMB). First, a melt of the Fe-Ti-Mn-Si-O system was formed in ultra-low-velocity zones (ULVZ) as a result of thermochemical reactions (reduction) between the molten core and solid oxide-silicate rocks. The melt then migrates to shallower levels, where a decrease in temperature initiates oxidation with the formation of SiO2-TiO2-FeO-MnO-Fe0 melt, i.e. parent melt of TMIS and MW-I spherules. We interpret the formation of native metals in kimberlites as a result of the decomposition of nitrides, which came from the Earth’s core via intratelluric flows

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乌克兰东亚速地区Pivdenna金伯利岩管中球粒的地球化学特征及其来源和成因
采用扫描电镜/能谱仪研究了乌克兰Pivdenna金伯利岩管中天然金属的球粒和颗粒组成。已经区分出三种球粒:钛-锰-硅酸铁(TMIS)球粒、富钙硅酸盐球粒和磁铁矿-乌氏体-铁(MW-I)球粒。TMIS球粒由均质玻璃组成,其中一些具有天然铁核。大的TMIS球粒可能含有针状铝镁铝石的结晶相。富钙硅酸盐球可分为以SiO2和CaO为主的硅酸钙(CS)球和以FeO为主的硅酸钙铁(CIS)球。CS球可能包含一个由天然相(Fe, Fe- si和Mn-Si-Fe)组成的核心。原生金属颗粒以原生Cu和原生Zn为代表。皮登纳管的球粒品种与世界上其他金伯利岩管相似。我们推断球粒的形成发生在气体熔体流中,而不是在金伯利岩中,并提出了一个在核幔边界(CMB)区域最常见的球粒(TMIS和MW-I变种)形成的模型。首先,Fe-Ti-Mn-Si-O体系的熔体在超低速区(ULVZ)形成,这是熔融岩心与固体氧化物硅酸盐岩石之间热化学反应(还原)的结果。然后熔体迁移到较浅的水平,在那里温度降低引发氧化,形成SiO2-TiO2-FeO-MnO-Fe0熔体,即TMIS和MW-I球体的母熔体。我们将金伯利岩中天然金属的形成解释为氮化物分解的结果,氮化物通过星间流来自地核
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来源期刊
Geological Quarterly
Geological Quarterly 地学-地质学
CiteScore
2.20
自引率
0.00%
发文量
19
审稿时长
>12 weeks
期刊介绍: The policy of the Geological Quarterly is to publish significant contributions of information and geological insight relevant to an international readership. The journal has been issued since 1957 at the Polish Geological Institute - National Research Institute and, at present, is the leading Earth sciences journal in Poland. All aspects of Earth and related sciences, and universal and broad regional rather than locally oriented topics are covered. The journal is intended to be an international forum for the exchange of information and ideas, particularly on important geological topics of Central Europe.
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