来自德国西波西米亚地块的瓦里斯坎花岗岩的放射成因热生产

IF 1.1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Journal of Geosciences Pub Date : 2020-02-12 DOI:10.3190/jgeosci.293
L. Scharfenberg, Anette Regelous, H. Wall
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引用次数: 8

摘要

大部分中欧基底在瓦里斯坎造山运动期间被巩固,包括大量的花岗岩侵入。在波希米亚地块西缘的三个研究区进行的伽马辐射光谱测量给出了瓦里斯坎花岗岩中放射性成因元素浓度的记录。除锡花岗岩外,巴伐利亚森林的大部分侵入岩和侵入杂岩的Th/U比值均超过统一,很可能与独居石的丰度有关。而位于Saxothuringian-Moldanubian边界附近的Oberpfalz花岗岩(flossenb rg、Steinwald和Friedenfels类型)则具有较高的铀浓度,因此Th/U < 1。这里的低Th/U比率与先前研究中观察到的沿萨克森图林根-摩尔达努瓦接触带可能的U动员一致。三个研究区域的花岗岩产热率在3.9至8.9 μ W/m 3之间,平均为4.9 μ W/m 3。这将侵入岩划分为中高产热花岗岩。考虑到波西米亚地块Variscan地壳中花岗岩体的巨大体积,原位放射成因热的贡献必须产生重大影响,并应在进一步的热模拟中予以考虑。表面包含热流。Hasterok和Chapman(2011)估计26%的地表热流是由上大陆地壳产生的。建立了新的数据库grani - ite2017,对世界范围内各时代花岗岩地形的现有数据进行了整理,通过统计分析,首次得出了花岗岩体产热随地质年代变化的结论。这些结果表明,中元古代的侵入量达到顶峰,并逐渐减少到更年轻(新生代)。
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Radiogenic heat production of Variscan granites from the Western Bohemian Massif, Germany
Much of the Mid-European basement has been consolidated during the Variscan Orogeny and includes large volumes of granitic intrusions. Gamma radiation spectroscopic measurements in three study areas along the western margin of the Bohemian Massif give a record of radiogenic element concentrations in the Variscan granites. Most intrusions of the Fichtelgebirge (except for the Tin Granite) and intrusive complexes in the Bavarian Forest show Th/U ratios exceeding unity, most likely related to abundance of monazite. In contrast, some of the Oberpfalz granites located near the Saxothuringian–Moldanubian boundary (Flossenbürg, Steinwald and Friedenfels types) are characterized by higher uranium concentrations and thus Th/U < 1. The low Th/U ratios here are in agreement with a possible U mobilisation along the Saxothuringian–Moldanubian contact zone observed in previous studies. Heat production rates of granites in the three study areas vary between 3.9 and 8.9 µW/m 3 , with a mean of 4.9 µW/m 3 . This classifies the intrusions as moderate- to high-heat-producing granites. Considering the huge volume of granitic bodies in the Variscan crust of the Bohemian Massif, the contribution of in situ radiogenic heat production had to have a major impact and should be considered in further thermal modeling. contains on the surface heat flow. Hasterok and Chapman (2011) estimated that 26 % of the surface heat flow is generated by the upper continental crust. The new database GRAN-ITE2017 has been set up to compile available data on worldwide granitic terrains of all ages (Artemieva al. Based on statistical analysis, first conclusions have been made on variation of bulk heat production of granites through geological time. These results show a peak in the Middle Proterozoic times and a gradual decrease towards younger (Cenozoic) intrusions.
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来源期刊
Journal of Geosciences
Journal of Geosciences GEOSCIENCES, MULTIDISCIPLINARY-MINERALOGY
CiteScore
2.30
自引率
7.10%
发文量
15
审稿时长
>12 weeks
期刊介绍: The Journal of Geosciences is an international peer-reviewed journal published by the Czech Geological Society with support from the Czech Geological Survey. It accepts high-quality original research or review papers dealing with all aspects of the nature and origin of igneous and metamorphic rocks. The Journal focuses, mainly but not exclusively, on: -Process-oriented regional studies of igneous and metamorphic complexes- Research in structural geology and tectonics- Igneous and metamorphic petrology- Mineral chemistry and mineralogy- Major- and trace-element geochemistry, isotope geochemistry- Dating igneous activity and metamorphic events- Experimental petrology and mineralogy- Theoretical models of igneous and metamorphic processes- Mineralizing processes and mineral deposits. All the papers are written in English, even though they may be accompanied by an additional Czech abstract. Each contribution is a subject to peer review by at least two independent reviewers, typically at least one from abroad. The Journal appears 2 to 4 times a year. Formally it is divided in annual volumes, each of them including 4 issues.
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