Chemical Mohometry: Assessing Crustal Thickness of Ancient Orogens Using Geochemical and Isotopic Data

IF 25.2 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
P. Luffi, M. N. Ducea
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引用次数: 12

Abstract

Convergent plate boundaries are key sites for continental crustal formation and recycling. Quantifying the evolution of crustal thickness and paleoelevation along ancient convergent margins represents a major goal in orogenic system analyses. Chemical and in some cases isotopic compositions of igneous rocks formed in modern supra-subduction arcs and collisional belts are sensitive to Moho depths at the location of magmatism, implying that igneous suites from fossil orogens carry information about crustal thickness from the time they formed. Several whole-rock chemical parameters correlate with crustal thickness, some of which were calibrated to serve as “mohometers,” that is, quantitative proxies of paleo-Moho depths. Based on mineral-melt partition coefficients, this concept has been extended to detrital zircons, such that combined chemical and geochronological information extracted from these minerals allows us to reconstruct the crustal thickness evolution using the detrital archive. We discuss here the mohometric potential of a variety of chemical and isotopic parameters and show that their combined usage improves paleocrustal thickness estimates. Using a MATLAB® app developed for the underlying computations, we present examples from the modern and the deeper time geologic record to illustrate the promises and pitfalls of the technique. Since arcs are in isostatic equilibrium, mohometers are useful in reconstructing orogenic paleoelevation as well. Our analysis suggests that many global-scale correlations between magma composition and crustal thickness used in mohometry originate in the sub-arc mantle; additional effects resulting from intracrustal igneous differentiation depend on the compatible or incompatible behavior of the involved parameters.

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化学同源性:利用地球化学和同位素数据评估古代造山带的地壳厚度
会聚板块边界是大陆地壳形成和再循环的关键地点。量化古会聚边缘地壳厚度和古高程的演化是造山系分析的主要目标。现代超俯冲弧和碰撞带中形成的火成岩的化学成分和某些情况下的同位素组成对岩浆活动位置的莫霍深度敏感,这意味着来自造山带化石的火成岩套带着它们形成时的地壳厚度信息。几个全岩化学参数与地壳厚度相关,其中一些被校准为“母表”,即古莫霍深度的定量代理。基于矿物-熔体分配系数,这一概念已扩展到碎屑锆石,这样,从这些矿物中提取的化学和年代学信息结合起来,使我们能够利用碎屑档案重建地壳厚度演化。我们在这里讨论了各种化学和同位素参数的均势,并表明它们的组合使用改善了古地壳厚度的估计。使用为底层计算开发的MATLAB®应用程序,我们从现代和更深的时间地质记录中提供示例,以说明该技术的前景和陷阱。由于弧线处于均衡平衡状态,因此测温计在重建造山带古高程时也很有用。我们的分析表明,地壳厚度与岩浆组成在全球尺度上的相关性来源于弧下地幔;由壳内火成岩分异引起的附加效应取决于相关参数的相容或不相容行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Reviews of Geophysics
Reviews of Geophysics 地学-地球化学与地球物理
CiteScore
50.30
自引率
0.80%
发文量
28
审稿时长
12 months
期刊介绍: Geophysics Reviews (ROG) offers comprehensive overviews and syntheses of current research across various domains of the Earth and space sciences. Our goal is to present accessible and engaging reviews that cater to the diverse AGU community. While authorship is typically by invitation, we warmly encourage readers and potential authors to share their suggestions with our editors.
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