Retrieving geological units with unsupervised clustering of gamma-ray spectrometry data

Airborne gamma-ray spectrometry (AGRS) provides valuable insights for geological mapping, mineral exploration, geomorphological studies, and lithological differentiation. The interpretation of AGRS data is usually performed by skilled interpreters, requires visual acuity and is time-consuming. In th...

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Bibliographic Details
Published in:Journal of applied geophysics 2021-01, Vol.184, p.104225, Article 104225
Main Authors: Weihermann, Jessica Derkacz, Ferreira, Matheus Pinheiro, de Castro, Luís Gustavo, Ferreira, Francisco José Fonseca, Silva, Adalene Moreira
Format: Article
Language:English
Subjects:
Gamma-ray spectrometry
Geological mapping
Unsupervised clustering
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Summary:Airborne gamma-ray spectrometry (AGRS) provides valuable insights for geological mapping, mineral exploration, geomorphological studies, and lithological differentiation. The interpretation of AGRS data is usually performed by skilled interpreters, requires visual acuity and is time-consuming. In this study, we used unsupervised clustering and object-based classification on the primary variables potassium (K), uranium (eU), and thorium (eTh) to automatically retrieve geological units in Mara Rosa Magmatic Arc – Goiás, Brazil, a well-studied area known by a gold district. We first cluster a color image composition (Red = K; Green = eTh; Blue = eU) using gaussian mixture models. We estimate the ideal number of classes to partition the image with the bayesian information criterion. Then, we performed a class separability analysis to identify and merge classes with low statistical separability. Finally, we used an object-based approach to reduce inconsistencies in the unsupervised classification map. To assess our approach, we compute the structural similarity index between the classification map and a reference geological map of the study area. The results show that our approach retrieved geologically meaningful regions in the AGRS data, reaching 0.94 of overall structural similarity with the geological map. Combining unsupervised clustering and AGRS data allows a better interpretation of the geological units into the same Complex or Groups. •Unsupervised classification in AGRS data produces predictive maps.•Our method automatically finds the number of classes with a Bayesian Information Criterion.•Our approach automatically delineates geological units based on AGRS data.•The results have differentiated geological units within the same complexes and groups.•This approach can be useful to areas with limited access.
ISSN:0926-9851
1879-1859
DOI:10.1016/j.jappgeo.2020.104225