Mechanisms and durations of metamorphic garnet crystallization in the lower nappes of the Caledonian Kalak Nappe Complex, Arctic Norway

IF 3.5 2区 地球科学 Q1 GEOLOGY
Maria Thereza A. G. Yogi, Fred Gaidies, Olivier K. A. Heldwein, A. Hugh N. Rice
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Abstract

The 3D microstructure and compositional zoning of garnet populations in micaschists from the Kolvik and Bekkarfjord nappes indicate the quasi-equilibration of their major components across the rock matrices during interface-controlled, size-independent garnet growth. There is microstructural evidence for foliation-parallel, small-scale resorption of garnet rims in the Kolvik Nappe, influencing the metamorphic peak conditions obtained from thermodynamic modelling. The local chemical compositions of rims less affected by resorption indicate a peak temperature of ~630°C, which is ~40°C higher than the temperature obtained from resorbed rims of the largest garnet crystal. Using a diffusion geospeedometry approach that considers the geometry of the compositional zoning of the garnet population, as well as the higher, more realistic peak temperature, a duration of 1 to 4.9 Myr is obtained for garnet growth in the Kolvik Nappe. This is approximately 1 order of magnitude faster than duration estimates obtained when using the apparent, lower temperature estimated from the resorbed garnet rims. Concomitantly to garnet growth in the Kolvik Nappe, garnet overgrowths formed in the Bekkarfjord Nappe for circa 2.5 Myr at metamorphic peak temperatures of ~560°C. The garnet growth durations obtained here are comparable with the uncertainty on the Lu–Hf garnet–whole rock isochron ages of 419.9 ± 2.4 Ma and 423.0 ± 1.9 Ma, previously obtained for these rocks. These results provide new insight into the timescales of repeated Barrovian-type metamorphic events experienced by the lower nappes of the Kalak Nappe Complex during the Caledonian Orogeny in Arctic Norway. This study emphasizes the importance of microstructural and chemical characterization of garnet populations in assessing metamorphic crystallization mechanisms and the extent of equilibration of garnet-forming components during prograde metamorphism. Moreover, our results provide means for reducing the uncertainty on metamorphic durations obtained via diffusion geospeedometry and, so, contributing to our understanding of geological timescales and processes.

Abstract Image

挪威北极喀里多尼亚卡拉克岩浆岩下层石榴石结晶的变质机制和持续时间
科尔维克和贝卡尔峡湾岩浆岩中石榴石群的三维微观结构和成分分区表明,在界面控制、大小无关的石榴石生长过程中,其主要成分在岩石基质中发生了准平衡。有微观结构证据表明,在科尔维克页岩中,石榴石边缘的褶皱平行、小规模再吸收,影响了热力学建模得到的变质峰值条件。受重吸收影响较小的边缘的局部化学成分表明,峰值温度约为 630°C,比从最大石榴石晶体的重吸收边缘获得的温度高出约 40°C。使用扩散测地法,考虑到石榴石群成分分区的几何形状,以及更高更现实的峰值温度,可以得到科尔维克斜长岩中石榴石生长的持续时间为 1 至 4.9 Myr。这比使用从重吸收石榴石边缘估算出的较低表观温度得出的持续时间大约快了一个数量级。与Kolvik Nappe的石榴石生长相同,Bekkarfjord Nappe的石榴石过度生长也持续了约2.5 Myr,变质峰值温度约为560°C。此处获得的石榴石生长持续时间与之前为这些岩石获得的褐镧系-褐铪石榴石-整岩等时年龄(419.9 ± 2.4 Ma 和 423.0 ± 1.9 Ma)的不确定性相当。这些结果为了解挪威北极喀里多尼亚造山运动期间卡拉克斜长岩群下部斜长岩反复经历的巴罗维变质事件的时间尺度提供了新的视角。这项研究强调了石榴石群微观结构和化学特征描述在评估变质结晶机制和石榴石形成成分在级变质过程中的平衡程度方面的重要性。此外,我们的研究结果为减少通过扩散测地法获得的变质持续时间的不确定性提供了方法,从而有助于我们了解地质时间尺度和过程。
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来源期刊
CiteScore
6.60
自引率
11.80%
发文量
57
审稿时长
6-12 weeks
期刊介绍: The journal, which is published nine times a year, encompasses the entire range of metamorphic studies, from the scale of the individual crystal to that of lithospheric plates, including regional studies of metamorphic terranes, modelling of metamorphic processes, microstructural and deformation studies in relation to metamorphism, geochronology and geochemistry in metamorphic systems, the experimental study of metamorphic reactions, properties of metamorphic minerals and rocks and the economic aspects of metamorphic terranes.
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