INTENSITY INDICATORS OF GEODYNAMIC PROCESSES ALONG THE ATLANTIC-ARCTIC RIFT SYSTEM

IF 0.8 Q4 GEOCHEMISTRY & GEOPHYSICS Geodynamics & Tectonophysics Pub Date : 2020-06-20 DOI:10.5800/gt-2020-11-2-0476

S. Sokolov, N. Chamov, M. Khutorskoy, S. Silantiev

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引用次数: 2

Abstract

Seismicity, heat flow, seismic tomography data, prerift and synrift magmatism are considered as intensity indicators of geodynamic processes along the Atlantic-Arctic rift system (AARS). In this rift system, several large (over 100 km ) sub-latitudinal displacements of the rift axis are due to left-lateral strike-slip faulting. The AARS segments are distinguished by the age of splitting of continental plates from each other. A dependence is revealed between the current thermal state of the mantle under the AARS and the age of spreading start. This dependence is established from both seismic tomography and heat flow data. In section δ(Vp/Vs), the locations of the main segmenting faults and ‘cold’ anomalies in the upper mantle are coincident. Distributions of total seismic moments are practically synchronous in the depth intervals of 0–13, 13–35, and >35 km. The maximum values above the plumes are represented by higher seismic moments in the surface layer. The main demarcation zones differ in maximum energy release values in the AARS with shearing features. Comparison of these values against the age of the start of spreading processes shows trends of heat flow and medium field tomography in the AARS segments. The trends confirm the thermal interpretation of the seismic tomography data and suggest mantle cooling with age and a decrease in the mean temperatures of the mantle. The main factor causing the sublatitudinal asymmetry of heat flow in the AARS is the impact of Coriolis forces on the magma in the asthenospheric source. Most of the synrift igneous formations seem to be related to the influence of long-lived anomalies in the mantle, which had lower rates of magma generation than those typical of the formation of magmatic provinces. In conditions for spreading and the formation of the oceanic crust, the process followed the principle of energy cost minimization, and the prerift magmatic provinces with the pre-processed crust contributed to the choice and positioning of the AARS trajectory. The plume branches are imposed in the tomographic section and thus ‘concealing’ the relationship between the age and the thermal state. However, that does not change the trend to cooling of the mantle beneath the AARS, proportionally to the time since the start of spreading.

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大西洋-北极裂谷系统地球动力过程的强度指标

地震活动性、热流、地震层析成像数据、前裂和共裂谷岩浆活动被认为是大西洋-北极裂谷系统(AARS)地球动力学过程的强度指标。在这个裂谷系统中，几次大的(超过100公里)的亚纬度位移是由左旋走滑断裂引起的。根据大陆板块相互分裂的年代来区分AARS板块。研究结果表明，现今地幔的热状态与扩张开始的年龄有一定的相关性。这种相关性是由地震层析成像和热流数据建立的。在δ(Vp/Vs)剖面上，主要分段断裂与上地幔“冷”异常位置重合。地震总矩在0 ~ 13、13 ~ 35和>35 km深度区间的分布基本同步。羽流上方的最大值由表层较高的地震矩表示。具有剪切特征的主要分界带在最大能量释放值上存在差异。将这些值与扩散过程开始的年龄进行比较，可以显示出AARS段的热流和介质场层析成像的趋势。这些趋势证实了地震层析成像数据的热解释，表明地幔随着年龄的增长而冷却，地幔的平均温度下降。造成AARS热流次纬度不对称的主要因素是软流圈源的科里奥利力对岩浆的影响。大多数同裂谷火成岩地层似乎与地幔中长期存在的异常有关，这些异常的岩浆生成速率低于岩浆省的典型形成速率。在扩张和洋壳形成的条件下，这一过程遵循能量成本最小化的原则，并且具有预处理地壳的原始岩浆省有助于AARS轨迹的选择和定位。羽流分支被强加在层析剖面上，从而“隐藏”了年龄和热状态之间的关系。然而，这并没有改变AARS下地幔冷却的趋势，与扩散开始以来的时间成比例。

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

Geodynamics & Tectonophysics GEOCHEMISTRY & GEOPHYSICS-

CiteScore

1.20

自引率

14.30%

发文量

审稿时长

24 weeks

期刊介绍： The purpose of the journal is facilitating awareness of the international scientific community of new data on geodynamics of continental lithosphere in a wide range of geolchronological data, as well as tectonophysics as an integral part of geodynamics, in which physico-mathematical and structural-geological concepts are applied to deal with topical problems of the evolution of structures and processes taking place simultaneously in the lithosphere. Complex geological and geophysical studies of the Earth tectonosphere have been significantly enhanced in the current decade across the world. As a result, a large number of publications are developed based on thorough analyses of paleo- and modern geodynamic processes with reference to results of properly substantiated physical experiments, field data and tectonophysical calculations. Comprehensive research of that type, followed by consolidation and generalization of research results and conclusions, conforms to the start-of-the-art of the Earth’s sciences.