Regional trends and petrologic factors inhibit global interpretations of zircon trace element compositions

IF 8.5 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geoscience frontiers Pub Date : 2024-05-09 DOI:10.1016/j.gsf.2024.101852

Nick M.W. Roberts , Christopher J. Spencer , Stephen Puetz , C. Brenhin Keller , Simon Tapster

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Abstract

The trace element composition of zircon reveals information about the melt that they are derived from, as such, detrital zircon trace element compositions can be used to interrogate melt compositions, and thus the evolution of the continental crust in time and space. Here, we present a global database of detrital zircon compositions and use it to test whether average global trends for five common petrogenetic proxies truly represent secular changes in continental evolution. We demonstrate that the secular trend is broadly comparable across continental regions for Ti-in-zircon temperatures, but for other trace element ratios interrogated, secular trends are highly variable between continental regions. Because trace element ratios result from multiple petrologic variables, we argue that these petrogenetic proxies can be overinterpreted if projected to global geologic processes. In particular, we caution against the interpretation of crustal thickness from trace elements in zircon, and we argue that our results negate current hypotheses concerning secular changes in crustal thickness.

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区域趋势和岩石学因素阻碍了对锆石微量元素成分的全球解释

锆石的痕量元素组成揭示了锆石来源于熔体的信息，因此，锆石痕量元素组成可用于研究熔体组成，从而研究大陆地壳在时间和空间上的演化。在这里，我们展示了一个关于碎屑锆石成分的全球数据库，并利用它来检验五种常见岩石成因代用指标的全球平均趋势是否真正代表了大陆演化的世俗变化。我们证明，各大陆区域的钛锆石温度的世俗趋势大体相当，但对于其他痕量元素比率，各大陆区域的世俗趋势差异很大。由于痕量元素比率来自多个岩石变量，我们认为，如果将这些岩石成因代用指标推算到全球地质过程中，可能会被过度解读。特别是，我们告诫不要从锆石中的痕量元素来解释地壳厚度，并认为我们的研究结果否定了目前有关地壳厚度世代变化的假说。

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来源期刊

Geoscience frontiers Earth and Planetary Sciences-General Earth and Planetary Sciences

CiteScore

17.80

自引率

3.40%

发文量

147

审稿时长

35 days

期刊介绍： Geoscience Frontiers (GSF) is the Journal of China University of Geosciences (Beijing) and Peking University. It publishes peer-reviewed research articles and reviews in interdisciplinary fields of Earth and Planetary Sciences. GSF covers various research areas including petrology and geochemistry, lithospheric architecture and mantle dynamics, global tectonics, economic geology and fuel exploration, geophysics, stratigraphy and paleontology, environmental and engineering geology, astrogeology, and the nexus of resources-energy-emissions-climate under Sustainable Development Goals. The journal aims to bridge innovative, provocative, and challenging concepts and models in these fields, providing insights on correlations and evolution.