芬诺斯坎地盾的新元古代大陆核以及与北大西洋克拉通的联系

Geology Pub Date : 2023-12-28 DOI:10.1130/g51658.1
Andreas Petersson, T. Waight, A. Kemp, M. Whitehouse, J. Valley
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摘要

大陆地壳的形成是板块岩石圈稳定的重要一步。然而,这些最初的地壳核通常要么被循环破坏,要么被较年轻的岩石掩埋。在芬诺斯坎德地盾,最古老的岩石约为 3.5 Ga,但约为 5.5 Ga 的岩石却被较年轻的岩石所掩埋。3.5 Ga,但约3.7Ga的继承锆石和碎屑锆石表明存在更古老的、未暴露的地壳基质。我们展示了来自芬兰三条主要河流的碎屑锆石的U-Pb、O和Hf同位素数据,以及来自芬兰中部Archean Suomujärvi和Pudasjärvi复合体的锆石O和Hf同位素数据。这些数据综合起来表明,在芬诺斯坎地盾有一个以前未被发现的约 3.75 Ga 的地壳核。这使全球越来越多的新元古代地核得到确认,凸显了此类地核在促成大陆地壳生长方面的重要性。芬诺斯坎地核的同位素特征与格陵兰岛同等年龄的岩石相关,这与芬诺斯坎地和北大西洋陨石坑的共同始新世演化相一致。
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An Eoarchean continental nucleus for the Fennoscandian Shield and a link to the North Atlantic craton
Enabling the build-up of continental crust is a vital step in the stabilization of cratonic lithosphere. However, these initial crustal nuclei are commonly either destroyed by recycling or buried by younger rocks. In the Fennoscandian Shield, the oldest rocks are ca. 3.5 Ga, but ca. 3.7 Ga inherited and detrital zircons suggest the presence of an older, unexposed crustal substrate. We present U-Pb, O, and Hf isotope data from detrital zircons of three major Finnish rivers as well as zircon O and Hf isotope data from previously dated rocks of the Archean Suomujärvi and Pudasjärvi complexes, central Finland. Combined, these data indicate a previously unidentified ca. 3.75 Ga crustal nucleus in the Fennoscandian Shield. This adds to the growing number of Eoarchean nuclei recognized in Archean terranes around the globe, highlighting the importance of such nuclei in enabling the growth of continental crust. The isotope signatures of the Fennoscandian nucleus correlate with equivalent-aged rocks in Greenland, consistent with a common Eoarchean evolution for Fennoscandia and the North Atlantic craton.
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