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酒西盆地、酒东盆地第三系磁性地层的划分与对比 总被引:23,自引:0,他引:23
本文运用磁性地层学理论和方法对酒西盆地、酒东盆地第三系进行了划分对比,部分修正了前人的划分方案,在此基础上对两盆地第三纪各时期沉降速率进行了估算和比较,并对它们的构造运动特征提出了见解。 相似文献
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古地磁数据的可靠性问题,迄今已成为古地磁学进一步发展的关键所在。早在1964年Irving首次提出了数据可靠性的最低判据。当时绝大部分数据为天然剩磁测试结果(至1963年所搜集的554个数据中,经磁清洗的仅占12%),因此,该判据强调一致性及野外检验。随着磁清洗技术的不断完善和广泛应用(1964-1970年新增的812个数据 相似文献
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M. Mattei F. Cifelli I. Martín Rojas A. Crespo Blanc M. Comas C. Faccenna M. Porreca 《Earth and Planetary Science Letters》2006,250(3-4):522-540
New paleomagnetic results from Neogene sedimentary sequences from the Betic chain (Spain) are here presented. Sedimentary basins located in different areas were selected in order to obtain paleomagnetic data from structural domains that experienced different tectonic evolution during the Neogene. Whereas no rotations have been evidenced in the Late Tortonian sediments in the Guadalquivir foreland basin, clockwise vertical axis rotations have been measured in sedimentary basins located in the central part of the Betics: the Aquitanian to Messinian sediments in the Alcalà la Real basin and the Tortonian and Messinian sediments in the Granada basin. Moreover, counterclockwise vertical axis rotations, associated to left lateral strike-slip faults have been locally measured from sedimetary basins in the eastern Betics: the Middle Miocene to Lower Pliocene sites from the Lorca and Vera basins and, locally, the Tortonian units of the Huercal-Overa basin. Our results show that, conversely from what was believed up to now, paleomagnetic rotations continued in the Betics after Late Miocene, enhancing the role of vertical axis rotations in the recent tectonic evolution of the Gibraltar Arc. 相似文献
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在分析了现有用于第四纪松散沉积物的取样器及取样方法的优缺点的基础上,作者研制了一种新型的古地磁土样取样器,本文介绍它的结构,特点及使用方法。 相似文献
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We study magnetic field variations in numerical models of the geodynamo, with convection driven by nonuniform heat flow imposed at the outer boundary. We concentrate on cases with a boundary heat flow pattern derived from seismic anomalies in the lower mantle. At a Rayleigh number of about 100 times critical with respect to the onset of convection, the magnetic field is dominated by the axial dipole component and has a similar spectral distribution as Earth’s historical magnetic field on the core-mantle boundary (CMB). The time scales of variation of the low-order Gauss coefficients in the model agree within a factor of two with observed values. We have determined the averaging time interval needed to delineate deviations from the axial dipole field caused by the boundary heterogeneity. An average over 2000 years (the archeomagnetic time scale) is barely sufficient to reveal the long-term nondipole field. The model shows reduced scatter in virtual geomagnetic pole positions (VGPs) in the central Pacific, consistent with the weak secular variation observed in the historical field. Longitudinal drift of magnetic field structures is episodic and differs between regions. Westward magnetic drift is most pronounced beneath the Atlantic in our model. Although frozen flux advection by the large-scale flow is generally insufficient to explain the magnetic drift rates, there are some exceptions. In particular, equatorial flux spot pairs produced by expulsion of toroidal magnetic field are rapidly advected westward in localized equatorial jets which we interpret as thermal winds. 相似文献
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板块构造理论形成以来,不同板块之间的相对作用得到深入阐述,但对多板块聚合的运动过程的研究常被忽略。依据全球古地磁数据和古板块再造,可以获得板块运动轨迹,这些板块轨迹指示全球主要大陆在志留纪(约443Ma)-二叠纪(约250Ma)期间发生向北半球中纬地区的汇聚,具体表现为在泛大陆的形成过程中,全球板块运动具有顺时针旋转的特征,并且大板块(南美、波罗的、西伯利亚、澳大利亚等)纬向移动速率和板块自转速率明显高于小陆块的(华北、塔里木、扬子陆块等)。一些主要陆块显示不对称的"e"型顺时针旋转的漩涡轨迹,汇聚中心在中亚地区,以哈萨克斯坦马蹄形的最终形成和保留为标志。板块聚合的涡旋状运动轨迹,受控于上地幔流动过程产生长期的漩涡运动。这种对流运动在一定时间内(晚古生代)保持相对稳态的流动形式,导致泛大陆的形成。 相似文献
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The point at issue: The Kurosegawa Terrane is composed of continental fragments transecting Mesozoic terranes of accretionary complex in Southwest Japan (Fig. 1). It is an attenuated tectonic sliver and considered to be allochthonous with respect to the main part of Southwest Japan. The problem of which continental block in the East Asian continental margin is the source of the Kurosegawa Terrane has puzzled Japanese geologists for many years.
Firstly, we try to approach this issue based on the analysis of fusulinacean assemblage in accreted terranes composed of subduction complex in the Pacific Rim.
Secondly, by applying the result of this analysis we try to locate the source of the continental fragments of the Kurosegawa Terrane.
Thirdly, we try to prove its validity with a new paleomagnetic study. 相似文献