普斯科夫州米什纳戈拉奥陶系古地磁:古地磁记录及对米什诺戈尔斯克爆炸构造时代的限制

Pub Date : 2022-01-01 DOI:10.21638/spbu07.2022.101
V. Pavlov, A. Pasenko, A. Dronov, Sergey P. Chernyshov
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引用次数: 1

摘要

对普斯科夫地区格多夫斯基地区Mishina Gora爆炸构造奥陶系岩石进行了古地磁研究。根据热磁清洗的结果,确定了两种稳定磁化分量S和P。这些组分具有相似的解封温度范围(~200 ~ 600℃),但它们的平均方向有统计学差异,其平均方向的差异有统计学意义。区域褶皱试验表明组分S的褶皱后年龄和组分p的褶皱前年龄,p的褶皱前年龄得到了局部褶皱试验阳性结果的支持,局部褶皱试验在研究剖面尺度上进行。将S分量计算的古磁极与东欧地台的视极漂移路径进行比较,明确地指出了该分量的年龄为晚二叠世—早三叠世,结合现有的地质观测资料,确定了Mishina Gora构造形成的时间范围为~ 3.7—2.5亿年前。磁化P的古代分量与早先在俄罗斯西北部、爱沙尼亚和斯堪的纳维亚的一些同时期剖面中发现的分量方向相同,并被认为是主要的。在波罗的海古大陆的参与下,相应的古磁极被广泛应用于古生代地球动力学和构造古重建中。P分量的正面折叠测试结果验证了这些极点用于古重构的有效性。在上弗洛ian、大盆ian和下2/3的Darrivilian阶段,构造了一个磁地层剖面,该剖面包含一个与地磁场反极性相对应的单一磁带。因此,磁地层资料不支持奥陶系反极性地磁超时线(Moyero超时线)中存在正极性层段的假设。
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Paleomagnetism of the Ordovician section of the Mishina Gora (Pskov oblast): a record of the ancient geomagnetic field and restrictions on the age of the Mishinogorsk explosive structure
Paleomagnetic studies of the Ordovician rocks of the Mishina Gora explosive structure (Gdovsky district, Pskov region) have been carried out. Based on the results of thermal magnetic cleaning, two stable magnetization components S and P have been identified. These components have similar unblocking temperature ranges (~200–600°C), but their mean directions are statistically different the difference of their mean directions are statistically significant. Refional fold–test indicates the postfolding age of the component S and prefolding age of the component P. Prefolding age of the latter is supported by the positive result of the local fold-test which has been carried out in the scale of the studied section. Comparison of the paleomagnetic pole calculated from the S component with the Apparent Polar Wander Path for the East European Platform definitely indicates the Late Permian-Early Triassic age of this component, which, in combination with the available geological observations, determines the time range of the formation of the Mishina Gora structure as ~370-250 million years ago. The ancient component of the magnetization P has the same direction as the components, which have been identified earlier in a number of coeval sections of the North-West of Russia, Estonia, and Scandinavia and which have been considered to be primary. The corresponding paleomagnetic poles are widely used in Paleozoic geodynamic and tectonic paleoreconstructions with the participation of the Baltic paleocontinent. A positive fold test result for the P component validates the use of these poles for paleoreconstructions. For the stratigraphic interval, which includes the upper Floian, Dapinian, and lower 2/3 of the Darrivilian stages, a magnetostratigraphic section has been constructed containing a single magnetozone corresponding to the reverse polarity of the geomagnetic field. Thus, the magnetostratigraphic data do not support the hypothesis of the existence of intervals of normal polarity within the Ordovician geomagnetic superchron of reverse polarity (Moyero superchron).
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