北大西洋边缘法罗-设得兰盆地下地壳侵入体的三维地震反射证据

IF 2.6 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of the Geological Society Pub Date : 2023-06-19 DOI:10.1144/jgs2022-172
Lucinda K. Layfield, N. Schofield, D. Watson, S. Holford, D. Jolley, Ben A. Kilhams, D. Muirhead, A. Roberts, A. Alvey, Alex Ellwood, M. Widdowson
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引用次数: 0

摘要

下地壳侵入被认为是沿火山或富含岩浆的被动边缘的一个常见过程,包括东北大西洋边缘,在那里,它被认为发生在古近纪岩浆活动阶段,在欧洲西北部和格陵兰岛之间的大陆破裂之前和期间。古近系岩浆作用的证据在整个法罗-设得兰盆地(FSB)的子盆地中普遍存在,表现为广泛的熔岩流和普遍的火成岩侵入岩。然而,与位于东北大西洋边缘的其他地区相比,FSB下方没有记录到表明下部地壳侵入的较低地壳反射率。与FSB最近的低地壳反射率和低地壳侵入体解释文件是位于法罗群岛地区挪威盆地下方的Fugloy山脊西北部。尽管如此,下地壳和/或Mohorovičić不连续面内的岩浆添加被认为在古近系隆起和随后的古新世-始新世序列沉积方面发挥了作用。亚玄武岩地震采集和处理的进展在促进东北大西洋边缘地壳深部结构成像方面取得了重大进展。这项研究使用宽带3D地震反射数据绘制了一系列深(约14至20公里深)高振幅反射图,这些反射图可能代表科罗纳山脊中北部下地壳内的火成侵入体。我们估计,反射的累积厚度在某些地方可能超过5公里,这与根据地球化学和岩石学数据公布的该地区岩浆底侵值一致。我们还估计,3D数据集中的低地壳高振幅反射的总体积可能超过2000 km 3。位于中北部科罗纳山脊沿线的地震线的2D重力建模支持对中北部科罗纳山脊下的下地壳侵入体的解释。这项研究为该地区古近系隆起的潜在机制提供了证据。根据先前的工作,如果隆起是由于古近纪地壳内侵位的下地壳侵入而发生的,我们估计科罗纳山脊地区可能产生了约300米的隆起。
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3D seismic reflection evidence for lower crustal intrusions beneath the Faroe-Shetland Basin, NE Atlantic Margin
Lower crustal intrusion is considered a common process along volcanic or magma-rich passive margins, including the NE Atlantic Margin, where it is considered to have occurred during phases of Paleogene magmatism, prior to and during continental break-up between NW Europe and Greenland. Evidence of Paleogene magmatism is prevalent throughout the sub-basins of the Faroe-Shetland Basin (FSB) as extensive lava flows and pervasive suites of igneous intrusions. However, in contrast to other areas located along the NE Atlantic Margin, no lower crustal reflectivity indicative of lower crustal intrusions has been documented beneath the FSB. The nearest documentation of lower crustal reflectivity and interpretation of lower crustal intrusions to the FSB is NW of the Fugloy Ridge, beneath the Norwegian Basin of the Faroese sector. Despite this, the addition of magma within the lower crust and/or at the Mohorovičić discontinuity is thought to have played a role regarding Paleogene uplift and the subsequent deposition of Paleocene-Eocene sequences. Advances in sub-basalt seismic acquisition and processing have made significant improvements in facilitating the imaging of deep crustal structures along the NE Atlantic Margin. This study uses broadband 3D seismic reflection data to map a series of deep ( c. 14 to 20 km depth) high-amplitude reflections which may represent igneous intrusions within the lower crust beneath the central-northern Corona Ridge. We estimate that the cumulative thicknesses of the reflections may be over 5 km in places, which is consistent with published values of magmatic underplating within the region based on geochemical and petrological data. We also estimate that the total volume of lower crustal high-amplitude reflections within the 3D dataset may be over 2000 km 3 . 2D gravity modelling of a seismic line located along the central-northern Corona Ridge supports the interpretation of lower crustal intrusions beneath the central-northern Corona Ridge. This study provides evidence of a potential mechanism for Paleogene uplift within the region. If uplift occurred as a result of lower crustal intrusions emplaced within the crust during the Paleogene, based on previous work, we estimate that around 300 m of uplift may have been generated within the Corona Ridge area.
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来源期刊
Journal of the Geological Society
Journal of the Geological Society 地学-地球科学综合
CiteScore
6.00
自引率
3.70%
发文量
68
审稿时长
6-12 weeks
期刊介绍: Journal of the Geological Society (JGS) is owned and published by the Geological Society of London. JGS publishes topical, high-quality recent research across the full range of Earth Sciences. Papers are interdisciplinary in nature and emphasize the development of an understanding of fundamental geological processes. Broad interest articles that refer to regional studies, but which extend beyond their geographical context are also welcomed. Each year JGS presents the ‘JGS Early Career Award'' for papers published in the journal, which rewards the writing of well-written, exciting papers from early career geologists. The journal publishes research and invited review articles, discussion papers and thematic sets.
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