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A practical approach for discriminating tectonic settings of basaltic rocks using machine learning

Kentaro Nakamura

2023Applied Computing and Geosciences20 citationsDOIOpen Access PDF

Abstract

Elucidating the tectonic setting of unknown rock samples has long attracted the interest of not only igneous petrologists but also a wide range of geoscientists. Recently, attempts have been made to use machine learning to discriminate the tectonic setting of igneous rocks. However, few studies have designed methods that are applicable to altered rocks. This study proposes a novel approach that utilizes the ratio of elements less susceptible to weathering, alteration, and metamorphism as feature values for analyzing altered basalts. The method was evaluated using six well-established machine learning algorithms: K-Nearest Neighbor (KNN), Support Vector Machine (SVM), Random Forest (RF), Light Gradient Boosting Machine (LightGBM), eXtreme Gradient Boosting (XGBoost), and Multi-Layer Perceptron (MLP). The results show that KNN achieved the highest classification score of 83.9% in the balanced accuracy of classifying the eight tectonic settings, closely followed by SVM with a score of 83.7%. In addition, oceanic and arc/continental basalts could also be discriminated against with an accuracy of more than ∼90% for KNN. This study suggested that the machine learning method can discriminate tectonic settings more accurately and reliably than previously used discrimination diagrams by designing appropriate feature values.

Topics & Concepts

Gradient boostingArtificial intelligenceSupport vector machineRandom forestTectonicsIgneous rockBoosting (machine learning)GeologyMachine learningBasaltPattern recognition (psychology)Computer scienceGeochemistrySeismologyGeochemistry and Geologic MappingGeological and Geochemical AnalysisHydrocarbon exploration and reservoir analysis
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