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Trace Element Composition of Pyrite from Selected Black Shale and Chert Exposures in the Central Belt of Peninsular Malaysia: Implications for Mineral Exploration

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posted on 2023-07-28, 05:27 authored by Charles MakoundiCharles Makoundi, Khin Zaw, Zakaria Endut, Hareyani Zabidi

Abstract: Sedimentary and hydrothermal pyrites contained in selected Malaysian black shale and
cherts have been analysed using laser ablation inductively coupled plasma (LA ICP-MS) and electron
probe microanalysis (EPMA) at the University of Tasmania, Australia. This study shows that gold is
concentrated in sedimentary and hydrothermal pyrite in the Middle Permian to Late Triassic black
shales and Devonian cherts. According to LA ICP-MS analysis, gold contents in pyrite varied from
0.5 to 0.8 ppm Au in the Permo-Triassic black shale and between 0.2 and 0.8 ppm Au in the Devonian
cherts. The lowest level of gold (0.3 ppm Au) was observed in the Permo-Triassic black shale that
crops out at the Selinsing gold mine. In the Permo-Triassic period, the selenium contents display
one peak (average range: 63.4–103.4 ppm Se) that is far from any gold deposit and one lowest point
(average: 5.3 ppm Se) at the Selinsing gold deposit. In the Devonian period, the selenium content
in sedimentary pyrite shows a peak (72.6–243.8 ppm Se) in the cherts. EPMA and LA ICP-MS data
show consistent Se content variation in the Devonian and Permo-Triassic periods. Using selenium
as a proxy for atmospheric oxygenation, the lowest level of Se content in the Permo-Triassic period
is believed to decrease atmospheric oxygenation, as recorded in sedimentary pyrite found in black
shale from the Selinsing gold deposit. The two peaks of selenium contents are interpreted as periods
of increased atmospheric oxygenation. From an exploration perspective, the concentration of gold
in sedimentary pyrites makes them sources for gold in the central sedimentary basin of Peninsular
Malaysia. Therefore, the two maximum levels of Se and gold content during Permo-Triassic and
Devonian times correspond to two stratigraphic levels of potential for orogenic gold mineralisation
in the district. The EPMA data show significant values of Co over Ni in pyrite from the Gua Musang,
Semantan, and Karak formation black shales, indicating a volcanic contribution of Co during the
formation of sedimentary pyrite. Based on the current study’s findings, gold exploration should not
be restricted to areas in and around the Selinsing gold mine, Buffalo Reef, Penjom mine, Tersang
mine, and Bukit Koman mine but can be extended to BRSZ Units 1 and 2, Gua Musang, and Karak
formations in the central belt of Peninsular Malaysia.

History

Sub-type

  • Article

Publication title

Minerals

Volume

13

Issue

6

Pagination

19

eISSN

2075-163X

ISSN

2075-163X

Department/School

CODES ARC

Publisher

MDPI

Publication status

  • Published

Rights statement

Copyright 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).

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