GeoCoDA: Recognizing and validating structural processes in geochemical data. A workflow on compositional data analysis in lithogeochemistry

IF 2.6 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Applied Computing and Geosciences Pub Date : 2024-01-02 DOI:10.1016/j.acags.2023.100149
Eric Grunsky , Michael Greenacre , Bruce Kjarsgaard
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Abstract

Geochemical data are compositional in nature and are subject to the problems typically associated with data that are restricted to the real non-negative number space with constant-sum constraint, that is, the simplex. Geochemistry can be considered a proxy for mineralogy, comprised of atomically ordered structures that define the placement and abundance of elements in the mineral lattice structure. Based on the innovative contributions of John Aitchison, who introduced the logratio transformation into compositional data analysis, this contribution provides a systematic workflow for assessing geochemical data in a simple and efficient way, such that significant geochemical (mineralogical) processes can be recognized and validated. This workflow, called GeoCoDA and presented here in the form of a tutorial, enables the recognition of processes from which models can be constructed based on the associations of elements that reflect mineralogy. Both the original compositional values and their transformation to logratios are considered. These models can reflect rock-forming processes, metamorphism, alteration and ore mineralization. Moreover, machine learning methods, both unsupervised and supervised, applied to an optimized set of subcompositions of the data, provide a systematic, accurate, efficient and defensible approach to geochemical data analysis. The workflow is illustrated on lithogeochemical data from exploration of the Star kimberlite, consisting of a series of eruptions with five recognized phases.

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GeoCoDA:识别和验证地球化学数据中的结构过程。岩石地球化学成分数据分析工作流程
地球化学数据在本质上是组成性的,通常会遇到与限制在具有恒和约束的实数非负数空间(即单纯形)中的数据相关的问题。地球化学可被视为矿物学的代表,由原子有序结构组成,定义了元素在矿物晶格结构中的位置和丰度。约翰-艾奇逊(John Aitchison)曾将对数比例转换引入成分数据分析,在他的创新性贡献的基础上,本文提供了一个系统的工作流程,以简单高效的方式评估地球化学数据,从而识别和验证重要的地球化学(矿物学)过程。该工作流程被称为 GeoCoDA,以教程的形式在此介绍,它能够识别各种过程,并根据反映矿物学的元素关联构建模型。原始成分值及其对比率的转换都会被考虑在内。这些模型可以反映成岩过程、变质作用、蚀变作用和矿石成矿作用。此外,将无监督和有监督的机器学习方法应用于数据的优化子构成集,可为地球化学数据分析提供系统、准确、高效和可辩护的方法。该工作流程以星形金伯利岩勘探过程中的岩石地球化学数据为例作了说明,星形金伯利岩由一系列喷发和五个公认的阶段组成。
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来源期刊
Applied Computing and Geosciences
Applied Computing and Geosciences Computer Science-General Computer Science
CiteScore
5.50
自引率
0.00%
发文量
23
审稿时长
5 weeks
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