整理瑞典南部记录修正的U-Pb锆石年龄和新的Hf同位素数据

IF 1.2 4区地球科学 Q2 GEOLOGY

Gff Pub Date : 2021-10-02 DOI:10.1080/11035897.2021.1939777

Å. Johansson

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引用次数: 1

摘要

来自瑞典南部斯韦诺威造山带东段的10个长英质深成岩样品，之前用锆石ID-TIMS定年，现在利用单个锆石颗粒的SIMS斑点分析重新定年，从而得到更可靠的、在大多数情况下也更精确的修正岩浆结晶年龄。sm原生带的一块片麻岩二长岩测得的U-Pb年龄约为1725 Ma, sk地区的4块正长岩样品测得的U-Pb年龄均在1700 ~ 1690 Ma之间，同一地区的2块粗粒花岗质片麻岩样品测得的U-Pb年龄在1690 ~ 1680 Ma之间。这些修订后的年龄比以前获得的TIMS年龄大15至250岁。两个沿斯克纳北部原生带的Gumlösa-Glimåkra花岗岩样本和一个相关正长岩屈服年龄在1220 Ma左右的样本，与之前的年龄相似但更精确。利用LA-ICP-MS对同一颗粒进行Hf同位素分析，补充了U-Pb锆石数据，并对先前获得的Sr和Nd全岩初始同位素数据进行了重新计算，以修正结晶年龄。Sr同位素数据较为分散，古岩体修正后的初始εNd值在+1 ~ +2之间，而沿原生带的新岩体修正后的初始εNd值接近于0。未扰动岩浆锆石的初始εHf分布相对较小，在2 ~ 4 Epsilon单位之间，不考虑少数异常值，1725 ~ 1680 Ma岩石的平均值在+3 ~ +5.5之间，1220 Ma岩石的平均值约为+1.5。古岩石中初始εNd和初始εHf的协变表明两个同位素差异明显的岩浆源或一个同位素不均匀的岩浆源之间存在混合。原生带1220 Ma侵入岩的同位素特征表明其岩浆是由幼年地幔输入的，而不是单纯的地壳熔融作用。

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Cleaning up the record – revised U-Pb zircon ages and new Hf isotope data from southern Sweden

ABSTRACT Ten samples of felsic plutonic rocks from the Eastern Segment of the Sveconorwegian Orogen in southern Sweden, previously dated by ID-TIMS on zircon, have been dated anew using SIMS spot analysis of individual zircon grains, leading to more reliable and in most cases also more precise revised magmatic crystallization ages. A gneissic monzonite within the Protogine Zone in Småland yields a revised U-Pb age of ca. 1725 Ma, four samples of orthogneiss from Skåne all yield revised ages between 1700 and 1690 Ma, while two samples of coarse-grained granitic gneiss in the same region yield ages between 1690 and 1680 Ma. These revised ages are between 15 and 250 m.y. older than previously obtained TIMS ages. Two samples of the Gumlösa-Glimåkra granite along the Protogine Zone in northern Skåne and one sample of related syenite yield ages around 1220 Ma, similar but more precise compared to the previous ages. The U-Pb zircon data have been complemented by Hf isotope analysis by LA-ICP-MS on the same grains, and previously obtained initial Sr and Nd whole-rock isotope data have been recalculated to the revised crystallization ages. The Sr isotope data scatter, while the revised initial εNd values fall between +1 and +2 for the older rocks, and close to 0 for the younger intrusives along the Protogine Zone. Initial εHf in magmatic undisturbed zircons shows relatively little spread within each sample, between 2 and 4 Epsilon units, disregarding a few outliers, with average values for the 1725 to 1680 Ma rocks between +3 and +5.5 and for the 1220 Ma rocks at ca. +1.5. Covariation between initial εNd and initial εHf in the older rocks suggests either mixing between two isotopically distinct magma sources or one magma source which was isotopically heterogeneous. The isotopic signatures of the 1220 Ma intrusive rocks along the Protogine Zone are indicative of juvenile mantle input to their magmas, rather than pure crustal melting.

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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.