Earth’s crust and physical fields of the oceans

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2023-03-22 DOI:10.24028/gj.v45i1.275176
V. Gordienko
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引用次数: 1

Abstract

Some problems of the formation and development of oceanic regions with various variants of endogenic regimes (with the exception of island arcs, which, in the author’s opinion, belong to late Alpine geosynclines) are considered. Calculated geological events and anomalies of physical fields within them are determined by heat-mass-transfer schemes in the tectonosphere. The reliability and accuracy of the latter is related to the quantity and quality of information about the content of the regimes. In the oceans, such data is scarce. The article attempts to attract additional information about the formation of the Earth’s crust of a typical oceanic basin. It was presented in the form of oceanization (destruction and basification) of the continental crust with a slightly increased basicity. The process included the uplift and denudation of the upper block up to 10 km thick, the intrusion of mafic and ultrabasic rocks from the mantle in a concentration increasing with depth into the lower approximately 20—30 km of the crust. Seismic wave velocity and density in the crustal basement were almost equal to the properties of the warmed mantle rocks. The final stage of magmatism was presented in a large part of the region during the period of recent activation by the removal of partially molten matter from the shallow asthenosphere up to the surface. Similar models have also been constructed for other endogenous regimes. In all cases, significant scatter in the ages of the process stages and the order of formation of asthenolite sources rising from different depths of the upper mantle were unavoidable. The resulting thermal models were averaged effects for the considered variants of heat and mass transfer. The control of the reality of these constructions was carried out according to the correspondence of known events of geological history, allowing a quantitative description, and anomalies of physical fields. In this work, the second part is considered. The calculated velocity sections of the upper mantle regions, the heat flow distribution, and the values of mantle gravity anomalies were compared with the experimental data. In all cases, the agreement reached is satisfactory. The discrepancies can be explained by errors in observations and calculations
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地壳和海洋物理场
考虑了具有各种内生机制变体的海洋区域的形成和发展的一些问题(除了岛弧,作者认为岛弧属于阿尔卑斯晚期地槽)。计算的地质事件和其中物理场的异常是由构造圈中的热质传递方案确定的。后者的可靠性和准确性与有关制度内容的信息的数量和质量有关。在海洋中,这样的数据很少。这篇文章试图吸引更多关于典型海盆地壳形成的信息。它表现为大陆地壳的大洋化(破坏和碱化),碱度略有增加。这一过程包括高达10公里厚的上部地块的抬升和剥蚀,地幔中镁铁质和超基性岩的侵入,其浓度随着深度的增加而增加,进入地壳下部约20-30公里。地壳基底中的地震波速度和密度几乎等于暖化地幔岩石的性质。岩浆作用的最后阶段出现在该地区的大部分地区,是在最近的活化时期,通过将部分熔融物质从浅软流圈清除到地表。其他内生机制也建立了类似的模型。在所有情况下,从上地幔不同深度上升的软岩岩源的形成顺序和过程阶段的年龄的显著分散是不可避免的。所得到的热模型是所考虑的传热和传质变化的平均效应。根据地质历史上已知事件的对应关系,对这些构造的真实性进行控制,从而进行定量描述,并对物理场进行异常。在这项工作中,考虑了第二部分。将计算的上地幔区速度剖面、热流分布和地幔重力异常值与实验数据进行了比较。在所有情况下,达成的协议都是令人满意的。这种差异可以用观测和计算中的误差来解释
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
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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