Boudinage and the rheology of syntectonic migmatites in the high-strain Taili deformation zone, NE China

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosphere Pub Date : 2023-01-05 DOI:10.1130/ges02523.1
Zhiyong Li, Z. Zeng, Yong‐jiang Liu
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Abstract

This paper presents a detailed field characterization of boudinage in a high-strain zone several kilometers wide in Northern China to establish relationships between boudin types and rheological contrasts between different parts of migmatites during the migmatization process. This zone contains nearly all types of boudins: foliation boudins, block-torn boudins, pinch-and-swell structures, tapering boudins, object boudins, and modified boudins. These boudinage structures record the different stages of melt-involved and solid-state deformation. The boudinage of migmatites is significantly controlled by the evolving rheological contrasts between the leucosome and melanosome. During the melting stage, the deformation and boudinage of rocks are controlled by the melt fraction. Migmatite strength progressively decreases with increasing melt fraction. The occurrence of melt-filled foliation boudins and melanosome block boudins suggests that the residuum and melanosome are more competent than the leucosome. During solid-state deformation after crystallization, the existence of recrystallized solid-state leucosomes and the intrusion of pegmatites cause the migmatite strength to increase. The relationship is reversed: the leucosome is much more competent than the melanosome. The type and geometry of boudins and pinch-and-swell structures are correlated to the fraction of leucosome in the migmatites. The mechanical strength and strain localization of migmatites after crystallization depend on the presence and volume fraction of the different mineral phases, as well as the mineral grain size. The type and geometry of boudins suggest that the effective viscosity of migmatite can be ranked, from high to low, as: quartz veins; coarse-grained, thick pegmatite; coarse-grained, diatexite migmatite; medium-grained leucosome; and fine-grained melanosome. While experiencing partial melting and migmatization, a rheologically homogeneous protolith is turned into two dominant lithologic domains: a competent diatexite migmatite domain and an incompetent melanosome migmatite domain. Spatially, with the increasing leucosome fraction in migmatites, the migmatite rheology of rock changes from homogeneous to heterogeneous and anisotropic, and then back to homogeneous. The strain distribution likewise changes from uniform to partitioned, and then back to uniform. This evolutionary process of strength and rheological properties of rocks during migmatization may promote strain localization at mid crustal conditions.
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高应变太里变形带同构造混杂岩的边界与流变学
本文详细描述了中国北方几公里宽的高应变带中杂岩的野外特征,以建立杂岩类型与杂岩在杂岩化过程中不同部位的流变对比之间的关系。这个区域包含几乎所有类型的边界:片理边界、块体撕裂边界、挤压-膨胀结构、锥形边界、物体边界和修饰边界。这些边界结构记录了融化和固态变形的不同阶段。混合岩浆岩的结合在很大程度上受白色小体和黑色小体之间不断变化的流变差异的控制。在熔融阶段,岩石的变形和破坏受熔体分数的控制。混合岩强度随熔体分数的增加而逐渐降低。熔体填充的叶理结合和黑素体块结合的出现表明残体和黑素体比白色小体更有能力。在结晶后的固态变形过程中,再结晶固态白垩体的存在和伟晶岩的侵入使混辉岩强度增大。这种关系是相反的:白色小体比黑色小体更有能力。结合体和夹胀结构的类型和几何形状与杂岩中白色小体的含量有关。杂岩结晶后的机械强度和应变局部化取决于不同矿物相的存在和体积分数,以及矿物粒度。混杂岩的类型和几何形状表明,混杂岩的有效黏度由高到低依次为:石英脉;粗粒,厚伟晶岩;粗粒、重闪长杂岩;中等粒度的leucosome;还有细粒的黑素体。流变学上均质的原岩在经历部分熔融和杂岩作用的过程中,转变为两个主要的岩性域:一个称职的闪辉岩杂岩域和一个不称职的黑素体杂岩域。在空间上,随着混岩中白垩体含量的增加,岩石的混岩流变性由均匀到非均质和各向异性,再回到均匀。应变分布同样由均匀到分块,再回到均匀。这种岩浆岩化过程中岩石强度和流变特性的演化过程可能促进中地壳条件下的应变局部化。
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来源期刊
Geosphere
Geosphere 地学-地球科学综合
CiteScore
4.40
自引率
12.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Geosphere is GSA''s ambitious, online-only publication that addresses the growing need for timely publication of research results, data, software, and educational developments in ways that cannot be addressed by traditional formats. The journal''s rigorously peer-reviewed, high-quality research papers target an international audience in all geoscience fields. Its innovative format encourages extensive use of color, animations, interactivity, and oversize figures (maps, cross sections, etc.), and provides easy access to resources such as GIS databases, data archives, and modeling results. Geosphere''s broad scope and variety of contributions is a refreshing addition to traditional journals.
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