Application of compositional data analysis in geochemical exploration for concealed deposits: A case study of Ashele copper-zinc deposit, Xinjiang, China

One of the top priorities of ore body exploration geochemistry is to effectively identifying “anomalies” and separating them from “background” in geochemical data analyses, during which an accurate understanding of geochemical distribution patterns of elements and anomaly separation has been the foc...

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Bibliographic Details
Published in:Applied geochemistry 2021-07, Vol.130, p.104997, Article 104997
Main Authors: Zheng, Chaojie, Liu, Panfeng, Luo, Xianrong, Wen, Meilan, Huang, Wenbin, Liu, Gang, Wu, Xiaogui, Chen, Zesu, Albanese, Stefano
Format: Article
Language:English
Subjects:
Ashele area in Xinjiang
Compositional data analysis
Peripheral orebody prediction
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Summary:One of the top priorities of ore body exploration geochemistry is to effectively identifying “anomalies” and separating them from “background” in geochemical data analyses, during which an accurate understanding of geochemical distribution patterns of elements and anomaly separation has been the focus of ore body hunting. However, geochemical data are compositional data with closure effect and require necessary logratio transformation to open closed data for the following statistical analysis. The invested dataset of 13 elements derived from 2264 surface rock samples from the northwestern Ashele mining area was processed and respectively analyzed as the raw data, logarithmically-transformed data, and isometric logratio (ilr) transformed data with exploratory data analysis (EDA) technology. Of which, the ilr transformed data yields an ideal data structure and scale distribution. The data then was analyzed with principal component analysis (PCA) and robust principal component analysis (RPCA), along with the compositional biplots and the first principal component score maps to identify the spatial distribution of element assemblages. After that, a comparative study of the geochemical distribution patterns based on the raw data of mineralized elements and the principal component scores based on ilr transformation data is conducted to explore the connection with mineralization. As a result, four prospecting prediction targets of two types are delineated in the study area. •Rock geochemical data is analyzed under the compositional perspective for ore prospecting prediction in the Ashele district.•Exploratory data analysis methods for compositions are used to explore information.•The elemental assemblage related to the mineralization stage of the deposit was revealed by robust principal component analysis methods.•The spatially geochemical patterns of metallogenic elements and elemental assemblages are revealed for ore prediction.
ISSN:0883-2927
1872-9134
DOI:10.1016/j.apgeochem.2021.104997