Unravelling the history of mountain belts through U-Pb and Lu-Hf dating of zircon and ⁴⁰Ar/³⁹Ar dating of detrital white mica: a case study from the Eastern Alps.

IF 1.1 4区环境科学与生态学 Q4 CHEMISTRY, INORGANIC & NUCLEAR Isotopes in Environmental and Health Studies Pub Date : 2024-07-24 DOI:10.1080/10256016.2024.2367099

Franz Neubauer, Ruihong Chang, Yunpeng Dong, Johann Genser, Yongjiang Liu

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Abstract

Radiogenic isotopes of igneous and detrital minerals from various clastic rocks of mountain belts are used to reveal tectonic and sedimentary processes, which are otherwise difficult to detect. Here, we discuss the results of U-Pb and Lu-Hf zircon systems, and ⁴⁰Ar/³⁹Ar on detrital white mica in Eastern Alps. Zircon and white mica are chemically and mechanically stable and occur in magmatic, metamorphic and sedimentary rocks. During subsequent metamorphism, zircon is resistant against high temperature, >650 °C (U-Pb) and 900 °C (Lu-Hf). The Lu-Hf zircon system is used as a tracer of initial magma separation from the mantle, and the U-Pb zircon system records magmatic crystallization. The ⁴⁰Ar/³⁹Ar white mica system is stable up to 400-450 °C dating either formation or cooling after high-grade metamorphism. Detrital U-Pb zircon ages on two major rivers draining the Eastern Alps do not record any sign of Alpine orogeny or metamorphism. Consequently, U-Pb zircon studies can entirely miss the record of collisional orogeny in cool, magma-poor collision orogens. In contrast, ⁴⁰Ar/³⁹Ar white mica ages record Early and Late Alpine metamorphism but are limited to revealing the pre-orogenic history. U-Pb zircon and ⁴⁰Ar/³⁹Ar white mica yield different information in provenance studies. In the Eastern Alps, U-Pb zircon dating of magmatic and clastic rocks indicates intense formation of magmatic rocks between 630 and 230 Ma. Felsic rocks dominate the older age groups, and increasingly young mafic rocks were dated, specifically between 265 and 230 Ma. Hf isotopes record increasing juvenile input since ∼630 Ma. Two different groups with respect to Mesoproterozoic depleted mantle ages are shown: (1) one group with a Mesoproterozoic age gap typical for Gondwana-derived units, and (2) a rare group with Mesoproterozoic ages recording a new tectonic element in the Austroalpine basement in Alps.

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通过锆石的 U-Pb 和 Lu-Hf 测定以及碎屑白云母的 40Ar/39Ar 测定揭示山地带的历史：东阿尔卑斯山案例研究。

山地带各种碎屑岩中火成岩和碎屑岩矿物的放射性同位素被用来揭示构造和沉积过程，否则很难发现这些过程。在此，我们讨论了东阿尔卑斯山锆石系统的 U-Pb 和 Lu-Hf 以及碎屑白云母的 40Ar/39Ar 结果。锆石和白云母具有化学和机械稳定性，存在于岩浆岩、变质岩和沉积岩中。在随后的变质过程中，锆石耐高温，>650 °C（U-Pb）和 900 °C（Lu-Hf）。Lu-Hf 锆石系统被用作最初岩浆从地幔分离的示踪剂，而 U-Pb 锆石系统则记录了岩浆结晶。40Ar/39Ar 白云母系统在高达 400-450 °C的温度下保持稳定，可追溯其形成或高级变质作用后的冷却过程。东阿尔卑斯山两条主要河流的锆石碎片 U-Pb 年龄没有记录任何阿尔卑斯造山或变质的迹象。因此，在低温、岩浆贫乏的碰撞造山带，U-Pb 锆石研究可能会完全错过碰撞造山运动的记录。相反，40Ar/39Ar 白云母年龄记录了阿尔卑斯山早期和晚期的变质作用，但仅限于揭示前造山运动的历史。U-Pb 锆石和 40Ar/39Ar 白云母在产地研究中产生了不同的信息。在东阿尔卑斯山，岩浆岩和碎屑岩的 U-Pb 锆石年代测定结果表明，岩浆岩在 630 至 230 Ma 之间密集形成。长岩在较老的年龄组中占主导地位，而越来越年轻的岩浆岩的年代测定结果，特别是在 265 至 230 Ma 之间。Hf同位素记录了自∼630Ma以来不断增加的幼年输入。图中显示了中新生代贫化地幔年龄的两个不同组别：(1)一组具有典型的冈瓦纳派生单元的中新生代年龄差距，(2)一组罕见的中新生代年龄记录了阿尔卑斯山奥斯特派基底的新构造元素。

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来源期刊

Isotopes in Environmental and Health Studies 环境科学-环境科学

CiteScore

2.80

自引率

7.70%

发文量

审稿时长

3.0 months

期刊介绍： Isotopes in Environmental and Health Studies provides a unique platform for stable isotope studies in geological and life sciences, with emphasis on ecology. The international journal publishes original research papers, review articles, short communications, and book reviews relating to the following topics: -variations in natural isotope abundance (isotope ecology, isotope biochemistry, isotope hydrology, isotope geology) -stable isotope tracer techniques to follow the fate of certain substances in soil, water, plants, animals and in the human body -isotope effects and tracer theory linked with mathematical modelling -isotope measurement methods and equipment with respect to environmental and health research -diagnostic stable isotope application in medicine and in health studies -environmental sources of ionizing radiation and its effects on all living matter