The Alpha-Mendeleev ridge, a large igneous province with continental affinities

IF 1.2 4区地球科学 Q2 GEOLOGY Gff Pub Date : 2019-09-30 DOI:10.1080/11035897.2019.1655789

H. Jackson, D. Chian

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引用次数: 5

Abstract

ABSTRACT The Alpha Ridge-Mendeleev Rise (AMR) is the major bathymetric feature in the Amerasia Basin of the Arctic Ocean. Its tectonic history is controversial due to its remote location in ice covered waters making data acquisition difficult, resulting in the lack of diagnostic data. Analysis of the wide-angle reflection/refraction data based on the compressional waves (P-waves) from the AMR indicates that its velocity/depth structure is typical of large igneous provinces (LIPs). LIPs can form on either oceanic or continental crust and can exhibit complex history of development. Here converted shear waves (S-wave) on the Alpha Ridge have been used to calculate Poisson’s ratios and many of measured values are within the felsic range in the upper crust. They are comparable to published S-waves from the Mendeleev Rise. They are also consistent with the results of Rayleigh-wave group-velocity analysis that indicate the Alpha Ridge in adjacent northern Canada has an intermediate composition. Based on magnetics, pseudogravity and volumetric considerations the High Arctic Large Igneous Province (HALIP) most closely resembles the Kerguelen Plateau, a LIP with a continental component. The geophysical characteristics of the AMR are compatible with a number of other LIPs that have continental affinities. A variety of offshore information from dredges and cores and onshore geological data support continental fragments incorporated in the AMR.

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阿尔法·门捷列夫山脊，一个具有大陆亲缘关系的大型火成岩省

阿尔法脊-门捷列夫隆起(AMR)是北冰洋美亚西亚盆地的主要水深特征。它的构造历史是有争议的，因为它位于冰层覆盖的水域，使得数据采集困难，导致缺乏诊断数据。基于AMR纵波(p波)的广角反射/折射数据分析表明，其速度/深度结构是典型的大火成岩省(LIPs)。lip既可以在海洋地壳上形成，也可以在大陆地壳上形成，并且具有复杂的发展历史。在这里，阿尔法脊上的转换横波(s波)被用来计算泊松比，许多测量值在上地壳的长英质范围内。它们与门捷列夫隆起发出的s波相当。它们也与瑞利波群速度分析的结果一致，瑞利波群速度分析表明邻近加拿大北部的阿尔法脊具有中等成分。基于磁学、伪重力和体积的考虑，高北极大火成岩省(HALIP)与具有大陆成分的高北极大火成岩省(HALIP)最相似。AMR的地球物理特征与许多其他具有大陆亲和力的lip是相容的。来自挖泥船和岩心的各种海上信息以及陆上地质数据都支持AMR中包含的大陆碎片。

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

Gff 地学-地质学

CiteScore

2.80

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： GFF is the journal of the Geological Society of Sweden. It is an international scientific journal that publishes papers in English covering the whole field of geology and palaeontology, i.e. petrology, mineralogy, stratigraphy, systematic palaeontology, palaeogeography, historical geology and Quaternary geology. Systematic descriptions of fossils, minerals and rocks are an important part of GFF''s publishing record. Papers on regional or local geology should deal with Balto-Scandian or Northern European geology, or with geologically related areas. Papers on geophysics, geochemistry, biogeochemistry, climatology and hydrology should have a geological context. Descriptions of new methods (analytical, instrumental or numerical), should be relevant to the broad scope of the journal. Review articles are welcome, and may be solicited occasionally. Thematic issues are also possible.