东欧地台西南缘Volyn的Vendian圈闭的古地磁。P. 1:磁方向和磁极

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2022-02-07 DOI:10.24028/gzh.v43i6.251555
V. Bakhmutov, I. Poliachenko, S. Cherkes, V. V. Shcherbakova, D. Hlavatskyi
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引用次数: 1

摘要

在地球的地质演化中,文帝纪是重要的,因为:1)它先于“寒武纪进化大爆发”,当时多细胞生物突然变得更加多样化;2)与全球超大陆构造和古地理重构、地磁场产生变化等影响地球各层的全球性过程有关。与此同时,最近的文献表明,文甸地区的地磁场表现出一种极其不规则的行为,这与最近的地磁场产生机制有很大的不同。关于地磁场结构和强度的新信息对于理解导致不同地球动力模式的原因是至关重要的。本文介绍了Volyn圈闭古地磁研究的新成果- Volyn系列的玄武岩和凝灰岩,年龄约为560-580 m。所确定的古方向和古地极与其他作者已发表的资料基本一致,并有很大的补充。“低钛”玄武岩的chrm组分在高温(50 ~ 500℃)条件下被分离出来,表征为原生。同样的样品被用于古强度测定,结果显示地磁场的值极低——比现在的低一个数量级。“高钛”玄武岩的chrm组分在200-400℃的温度范围内得到。古强度实验没有得到结果,剩磁的复杂性质仍然不清楚。将新资料与其他作者确定的东欧地台文德—早寒武世两极的古磁资料进行了比较。为了验证以低偶极矩和高反转频率为特征的埃迪卡拉纪异常磁场的假设,需要更多的数据。这些资料可以从对由钻孔打开的Volyn圈闭地层更完整的剖面的研究中获得。这些结果将在本文的下一部分中介绍。
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Palаeomagnetism of the Vendian traps of Volyn, southwestern margin of the East European platform. P. 1: palаeomagnetic directions and poles
In Earth’s geological evolution the Vendian is significant because: 1) it preceded the «Cambrian Evolutionary explosion» when the multicellular organisms became suddenly much more diverse; 2) it is associated with the global tectonic and palaeogeographic restructuring of supercontinents, a change in geomagnetic field generation and other global processes affecting different layers of the Earth. At the same time, recent publications indicate an extremely irregular behavior of the geomagnetic field in the Vendian, which significantly differs from the recent regime of the geomagnetic field generation. New information on the configuration and magnitude of the geomagnetic field is crucial for understanding the reasons that can cause different modes of geodynamo. The article describes the new results of palaeomagnetic studies of the Volyn traps — basalts and tuffs of the Volyn series with ages about 560—580 My. The determined palaeodirections and palaeopoles are in good agreement with the previously published data of other authors and substantially complement them. The ChRM-component of «low-titanium» basalts was isolated in high-temperature (>500 °C) and characterized as primary. The same samples were used for palaeointensity determinations which showed the extremely low values of the geomagnetic field — an order of magnitude lower than the present one. The ChRM-component of «high-titanium» basalts was yielded in the temperature range of 200—400 °C. No results were obtained from palaeointensity experiments, and the complex nature of remanent magnetization remains unclear. The new data are compared with the palaeo-magnetic data of the Vendian—Early Cambrian poles of the East European Platform determined by other authors. To test the hypothesis of an anomalous Ediacaran magnetic field characterized by a low dipole moment and a high inversion frequency, more data are necessary. These data can be obtained from the studies of a stratigraphically more complete section of the Volyn traps opened by boreholes. These results will be presented in the next part of the article.
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Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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