科拉半岛Lotmvara-II超基性岩床蛇纹岩带矿物地球化学及大地构造特征

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Russian Geology and Geophysics Pub Date : 2023-06-29 DOI:10.2113/rgg20234538
A. Barkov, A. A. Nikiforov, V. Korolyuk, R. Martin
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引用次数: 0

摘要

--在本文中,我们描述了Lotmvara II岩床的特征,它是由一系列浅侵位的超基性侵入体组成的蛇绿岩带(SB)的代表。古元古代SB杂岩来源于大规模的科马提岩熔体地幔柱。岩床主要由细粒(局部接近微细粒)方辉橄榄岩组成,其次级带分别位于中部和边缘的纯橄榄岩和斜方辉石。它由一种含镁量极高的未完全铝的komatitic岩浆形成,可能代表一个近表面的冰质“山脊”。通常,岩床相对均匀,在岩石成分中的Mg#值分布没有明显的分区(Mg#=84.2–88.9,平均86.7)。详细研究表明,钛铁矿是身体中心部位最强烈的镁质。岩床中心橄榄石成分中Mg#的最大值等于90.7–91.4,被解释为“初始结晶中心”。Mg#的低值等于73.4–76.4,这归因于橄榄石反复生成的表现。岩床中斜方辉石的Mg#值在84.6至92.3之间。斑状结构中的斜方辉石颗粒被钙角闪石的边缘包围(起源为自交代);它们在组成上与正常晶粒没有区别。铬尖晶石的Zn含量通常向底坎的边缘部分降低。就主要成分而言,岩床中的岩浆分化程度不明显,但不相容元素(REE和HFSE)局部显示出其相对富集水平增加,这反映在所述矿物组合的性质中。因此,岩床具有隐蔽的带状结构,这与其从中心到边缘的整体结晶一致。所收集的数据表明,挥发性成分、卤素、CO2,尤其是岩浆H2O的存在和显著发展,这些成分能够显著降低液相线,降低高镁熔体的密度和粘度,从而提高其从地幔上升到地壳近地表的流动性。在岩床的原位次火山结晶过程中观察到fO2的增加,如先前在该带的相关杂岩中所述。岩床中体积相对较小的科马提质岩浆结晶速度相当快,导致了不寻常的矿物共生。因此,Lotmvara II岩床是芬诺斯堪的地盾古元古代SB–TB巨型构造中蛇绿岩带-Tulpio带(SB–TB)的一个新成员。
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Mineral–Geochemical and Geotectonic Features of the Lotmvara-II Ultrabasic Sill, Serpentinite Belt (Kola Peninsula)
—In this paper, we present a description of the characteristics of the Lotmvara-II sill, which is a representative of the Serpentinite Belt (SB) composed of a series of shallowly emplaced ultrabasic intrusive bodies. The Paleoproterozoic SB complexes were derived from a large-scale mantle plume of komatiitic melt. The sill consists predominantly of fine-grained (locally nearly micrograined) harzburgites with subordinate zones of dunites and orthopyroxenites, located in the central and marginal parts, respectively. It formed from an Al-undepleted komatiitic magma of extremely high Mg content and may represent a near-surface laccolithic “ridge.” In general, the sill is comparatively homogeneous and does not have distinct zoning in the distribution of Mg# values in rock compositions (Mg# = 84.2–88.9, average 86.7). Detailed studies show that olivine, chromian spinel, and ilmenite are the most strongly magnesian in the central part of the body. The maximum values of Mg# equal to 90.7–91.4 in the compositions of olivine at the center of the sill are interpreted as “centers of initial crystallization”. The low values of Mg# equal to 73.4–76.4 are attributed to manifestations of the recurrent generation of olivine. The values of Mg# of orthopyroxene in the sill are within the range 84.6 to 92.3. Orthopyroxene grains in a porphyritic texture are surrounded by a rim of calcic amphibole (autometasomatic in origin); they do not differ compositionally from normal grains. The Zn content of the chromian spinel generally decreases toward the marginal parts of the sill. There is an insignificant degree of magmatic differentiation in the sill with respect to the principal components, but incompatible elements (REE and HFSE) locally show increased levels of their relative enrichment, which is reflected in the nature of the mineral associations described. Thus, the sill has a cryptic zonal structure, which is consistent with its overall crystallization from the center to the edges. The data gathered suggest the presence and significant development of volatile components, halogens, CO2, and especially magmatic H2O, which are capable of strongly lowering the liquidus and reducing the density and viscosity of the high-magnesium melt, thereby improving its mobility during ascent from the mantle to the near-surface level of the crust. An increase in fO2 is observed during in situ subvolcanic crystallization of the sill, as noted earlier in the related complexes of the belt. The relatively small volume of the komatiitic magma in the sill crystallized fairly quickly, resulting in unusual mineral intergrowths. Thus, the Lotmvara-II sill is a novel member in the Serpentinite Belt–Tulppio Belt (SB–TB) in the Paleoproterozoic SB–TB megastructure of the Fennoscandian Shield.
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来源期刊
Russian Geology and Geophysics
Russian Geology and Geophysics 地学-地球科学综合
CiteScore
2.00
自引率
18.20%
发文量
95
审稿时长
4-8 weeks
期刊介绍: The journal publishes original reports of theoretical and methodological nature in the fields of geology, geophysics, and geochemistry, which contain data on composition and structure of the Earth''s crust and mantle, describes processes of formation and general regularities of commercial mineral occurrences, investigations on development and application of geological-geophysical methods for their revealing. As to works of regional nature, accelerated publication are available for original papers on a variety of problems of comparative geology taking into account specific character of Siberia, adjacent Asian countries and water areas. The journal will also publish reviews, critical articles, chronicle of the most important scientific events, and advertisements.
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