Geodynamics of a Breakup of Western Part of the Karelian Craton: Data on 2.1 Ga Mafic Magmatism

IF 1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
A. V. Samsonov, A. V. Stepanova, E. B. Salnikova, Yu. O. Larionova, A. N. Larionov
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Abstract

Mafic intraplate magmatism is the main source of information about the geodynamics of processes that lead to the breakup of continental blocks. The article discusses geodynamics of the breakup of the Archean supercraton Superia in the Middle Paleoproterozoic. The discussion is based on data on 2.1 Ga magmatism in the Karelian Craton, where mafic igneous rocks of this age are represented by tholeiites of two geochemical types: depleted and enriched. Geochemically close to N-MORB, depleted tholeiites were studied in the Northern Ladoga Region where they form dike swarms at ca. 2111 ± 6 Ma (U-Pb, SIMS, zircon) in the Hatunoiya locality, and pillow lavas and sills in the Lake Maloe Jänisjärvi locality. Enriched tholeiites were studied in the Lake Tulos locality where they form a large swarm of doleritic dikes of age 2118 ± 5 Ma (U-Pb, ID-TIMS, baddeleyite). The results of these studies provide deeper insight into 2.1 Ga mafic magmatism. Depleted tholeiites with N-MORB geochemistry have a wide spatial distribution in the Karelian Craton and could be formed via decompression melting of a depleted asthenospheric mantle, raising melts along the extension zones, and minimal contamination by the Archean crust. According to modelling results, enriched tholeiitic melts probably occurred due to differentiation and crustal contamination of rising depleted tholeiitic melts through more rigid Archean crustal blocks. Data on ca. 2.1 Ga mafic magmatism in the Karelian craton are difficult to explain within the mantle plume rise model, but are consistent with the model of lithosphere extension due to a retreat of a subduction zone in the northeastern margin of the craton, in the Lapland-Kola Ocean at 2.0–2.2 Ga. The intensive thinning and rupture of the Archean continental lithosphere and opening of an oceanic basin at the western margin of the Karelian craton were probably controlled by the suture zone of the junction of Neoarchean and Paleoarchean crustal blocks, traced in the western part of the Karelian craton. An additional factor that led to the ca. 2.1 Ga lithospheric breakup could be a rise of a deep-seated mantle plume in the Hearne craton, neighboring to the Karelian craton in the Archean Superia supercraton.

Abstract Image

卡累利阿克拉通西部断裂的地球动力学:2.1 Ga基性岩浆活动资料
基性板内岩浆作用是研究导致大陆块体分裂的地球动力学过程的主要资料来源。本文讨论了中古元古代太古宙超克拉通超克拉通断裂的地球动力学。本文以卡累利阿克拉通2.1 Ga岩浆活动资料为基础,该时代的基性火成岩以两种地球化学类型的拉斑岩为代表:贫斑和富斑。在北拉多加区研究了接近N-MORB的贫化拉斑岩,在约2111±6 Ma时,在Hatunoiya地区形成了岩脉群(U-Pb, SIMS,锆石),在Maloe湖Jänisjärvi地区形成了枕状熔岩和岩床。在图洛斯湖地区研究了富拉斑岩,形成了年龄为2118±5 Ma (U-Pb, ID-TIMS, baddeleyite)的大群白云岩脉。这些研究结果提供了对2.1 Ga基性岩浆作用的更深入认识。贫拉斑岩体具有N-MORB地球化学特征,在卡累利阿克拉通具有广泛的空间分布,可能是由贫软流圈地幔减压熔融、沿伸展带抬升熔体和太古宙地壳污染最小而形成的。根据模拟结果,富集的拉斑岩熔体可能是由于上升的贫拉斑岩熔体通过更刚性的太古宙地壳块体进行分异和地壳污染而产生的。卡累利阿克拉通约2.1 Ga的基性岩浆活动数据难以用地幔柱上升模型来解释,但与克拉通东北缘拉普兰-科拉洋2.0-2.2 Ga俯冲带的退缩所导致的岩石圈扩张模型相一致。卡累利阿克拉通西缘太古宙大陆岩石圈的剧烈减薄和断裂以及洋盆的打开,可能是由卡累利阿克拉通西部追踪到的新太古代和古太古代地壳块体结合部的缝合带控制的。导致约2.1亿年岩石圈破裂的另一个因素可能是赫恩克拉通深部地幔柱的上升,该克拉通与太古宙超克拉通中的卡累利阿克拉通相邻。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Petrology
Petrology 地学-地球科学综合
CiteScore
2.40
自引率
20.00%
发文量
27
审稿时长
>12 weeks
期刊介绍: Petrology is a journal of magmatic, metamorphic, and experimental petrology, mineralogy, and geochemistry. The journal offers comprehensive information on all multidisciplinary aspects of theoretical, experimental, and applied petrology. By giving special consideration to studies on the petrography of different regions of the former Soviet Union, Petrology provides readers with a unique opportunity to refine their understanding of the geology of the vast territory of the Eurasian continent. The journal welcomes manuscripts from all countries in the English or Russian language.
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