Discovering geochemical patterns using self-organizing neural networks: A new perspective for sedimentary provenance analysis

Juan Pablo Lacassie, Barry Roser, Javier Ruiz Del Solar, Francisco Hervé

Research output: Contribution to journalArticle

27 Citations (Scopus)

Abstract

An unsupervised neural network technique, Growing Cell Structures (GCS), was used to visualize geochemical differences between sandstones of four different sedimentary provenance groups: P1 (mafic), P2 (intermediate), P3 (felsic), and P4 (recycled). Multidimensional data of four sandstone data sets comprising major elements, log-normalized major elements, trace elements, and high field strength elements (HFSE) were projected into colored two-dimensional maps that can be visually and quantitatively interpreted. The cluster structure and variable distributions produced show that each sedimentary provenance group can be distinguished in the neural maps according to a unique combination of major or trace element concentrations. In these terms, the distinguishing features of each provenance group are: P1-high Fe2O3t, TiO2, MgO, MnO, CaO, P2O5, Sc, V, Cr, and Cu; P2-intermediate Fe2O3t, TiO2, MgO, MnO, CaO, Sc, V, and Cu; P3-intermediate to high K2O, intermediate SiO2 and Al2O3, low Fe2O3t and TiO2, and intermediate to low Nb, Rb, and Th; P4-high SiO2, Y, Nb, Rb, Th, Ba, and Zr, coupled with low Al2O3, CaO, Na2O, Fe2O3t, MgO, MnO, and TiO2. The elemental associations in P1, P2, and P3 reflect petrogenetic evolution of first-cycle sources, whereas the associations in P4 are compatible with the combined effects of recycling, weathering, and heavy mineral concentration.

Original languageEnglish
Pages (from-to)175-191
Number of pages17
JournalSedimentary Geology
Volume165
Issue number1-2
DOIs
Publication statusPublished - 1 Mar 2004

Keywords

  • Geochemistry
  • Neural networks
  • Sandstone
  • Sedimentary provenance
  • Unsupervised learning
  • Visual analysis

ASJC Scopus subject areas

  • Geology
  • Stratigraphy

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