A Method to Identify Geochemical Mineralization on Linear Transects

A Method to Identify Geochemical Mineralization on Linear Transects

Mineral exploration in biogeochemistry is related to the detection of anomalies in soil, which is driven by many factors and thus a complex problem. Mikšová, Rieser, and Filzmoser (2019b) have introduced a method for the identification of spatial patterns with increased element concentrations in sa...

Full description

Bibliographic Details
Main Authors: Dominika Mikšová, Christopher Rieser, Peter Filzmoser, Simon Mose Thaarup, Jeremie Melleton
Format: Article
Language:English
Published: Austrian Statistical Society 2020-04-01
Series:Austrian Journal of Statistics
Online Access:http://www.ajs.or.at/index.php/ajs/article/view/1133
id doaj-c9616369be0942f98ab6d861244625c0
record_format Article
spelling doaj-c9616369be0942f98ab6d861244625c02021-04-22T12:31:52ZengAustrian Statistical SocietyAustrian Journal of Statistics1026-597X2020-04-0149410.17713/ajs.v49i4.1133A Method to Identify Geochemical Mineralization on Linear TransectsDominika Mikšová0Christopher Rieser1Peter Filzmoser2Simon Mose Thaarup3Jeremie Melleton4TU Wien, AustriaTU Wien, AustriaTU Wien, AustriaGEUS, DenmarkBRGM, France Mineral exploration in biogeochemistry is related to the detection of anomalies in soil, which is driven by many factors and thus a complex problem. Mikšová, Rieser, and Filzmoser (2019b) have introduced a method for the identification of spatial patterns with increased element concentrations in samples along a linear sampling transect. This procedure is based on fitting Generalized Additive Models (GAMs) to the concentration data, and computing a curvature measure from the pairwise log-ratios of these fits. The higher the curvature, the more likely one or both elements of the pair indicate local mineralization. This method is applied on two geochemical data sets which have been collected specifically for the purpose of mineral exploration. The aim is to test the technique for its ability to identify pathfinder elements to detect mineralized zones, and to verify whether the method can indicate which sampling material is best suited for this purpose. http://www.ajs.or.at/index.php/ajs/article/view/1133
collection DOAJ
language English
format Article
sources DOAJ
author Dominika Mikšová
Christopher Rieser
Peter Filzmoser
Simon Mose Thaarup
Jeremie Melleton
spellingShingle Dominika Mikšová
Christopher Rieser
Peter Filzmoser
Simon Mose Thaarup
Jeremie Melleton
A Method to Identify Geochemical Mineralization on Linear Transects
Austrian Journal of Statistics
author_facet Dominika Mikšová
Christopher Rieser
Peter Filzmoser
Simon Mose Thaarup
Jeremie Melleton
author_sort Dominika Mikšová
title A Method to Identify Geochemical Mineralization on Linear Transects
title_short A Method to Identify Geochemical Mineralization on Linear Transects
title_full A Method to Identify Geochemical Mineralization on Linear Transects
title_fullStr A Method to Identify Geochemical Mineralization on Linear Transects
title_full_unstemmed A Method to Identify Geochemical Mineralization on Linear Transects
title_sort method to identify geochemical mineralization on linear transects
publisher Austrian Statistical Society
series Austrian Journal of Statistics
issn 1026-597X
publishDate 2020-04-01
description Mineral exploration in biogeochemistry is related to the detection of anomalies in soil, which is driven by many factors and thus a complex problem. Mikšová, Rieser, and Filzmoser (2019b) have introduced a method for the identification of spatial patterns with increased element concentrations in samples along a linear sampling transect. This procedure is based on fitting Generalized Additive Models (GAMs) to the concentration data, and computing a curvature measure from the pairwise log-ratios of these fits. The higher the curvature, the more likely one or both elements of the pair indicate local mineralization. This method is applied on two geochemical data sets which have been collected specifically for the purpose of mineral exploration. The aim is to test the technique for its ability to identify pathfinder elements to detect mineralized zones, and to verify whether the method can indicate which sampling material is best suited for this purpose.
url http://www.ajs.or.at/index.php/ajs/article/view/1133
work_keys_str_mv AT dominikamiksova amethodtoidentifygeochemicalmineralizationonlineartransects
AT christopherrieser amethodtoidentifygeochemicalmineralizationonlineartransects
AT peterfilzmoser amethodtoidentifygeochemicalmineralizationonlineartransects
AT simonmosethaarup amethodtoidentifygeochemicalmineralizationonlineartransects
AT jeremiemelleton amethodtoidentifygeochemicalmineralizationonlineartransects
AT dominikamiksova methodtoidentifygeochemicalmineralizationonlineartransects
AT christopherrieser methodtoidentifygeochemicalmineralizationonlineartransects
AT peterfilzmoser methodtoidentifygeochemicalmineralizationonlineartransects
AT simonmosethaarup methodtoidentifygeochemicalmineralizationonlineartransects
AT jeremiemelleton methodtoidentifygeochemicalmineralizationonlineartransects
_version_ 1721514604422496256

Similar Items