Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes

Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes

Through integration of Pb-Zn ± Cu non-sulfide mineralogy, texture, and stable isotope (C, O, S) geochemistry, the world-class Touissit- Bou Beker and Jbel Bou Dahar Mississippi Valley-type districts of the Moroccan Atlasic system have been investigated in order to gain insights into the origin and p...

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Main Authors: Mohammed Bouabdellah, Wissale Boukirou, Adriana Potra, Erik Melchiorre, Hassan Bouzahzah, Johan Yans, Khadra Zaid, Mohammed Idbaroud, Julien Poot, Augustin Dekoninck, Gilles Levresse
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Minerals
Subjects:
supergene environment
calamine ores
biomineralization
C
O
S isotope geochemistry
Online Access:https://www.mdpi.com/2075-163X/11/4/401
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record_format Article
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language English
format Article
sources DOAJ
author Mohammed Bouabdellah
Wissale Boukirou
Adriana Potra
Erik Melchiorre
Hassan Bouzahzah
Johan Yans
Khadra Zaid
Mohammed Idbaroud
Julien Poot
Augustin Dekoninck
Gilles Levresse
spellingShingle Mohammed Bouabdellah
Wissale Boukirou
Adriana Potra
Erik Melchiorre
Hassan Bouzahzah
Johan Yans
Khadra Zaid
Mohammed Idbaroud
Julien Poot
Augustin Dekoninck
Gilles Levresse
Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
Minerals
supergene environment
calamine ores
biomineralization
C
O
S isotope geochemistry
author_facet Mohammed Bouabdellah
Wissale Boukirou
Adriana Potra
Erik Melchiorre
Hassan Bouzahzah
Johan Yans
Khadra Zaid
Mohammed Idbaroud
Julien Poot
Augustin Dekoninck
Gilles Levresse
author_sort Mohammed Bouabdellah
title Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
title_short Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
title_full Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
title_fullStr Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
title_full_unstemmed Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes
title_sort origin of the moroccan touissit-bou beker and jbel bou dahar supergene non-sulfide biomineralization and its relevance to microbiological activity, late miocene uplift and climate changes
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2021-04-01
description Through integration of Pb-Zn ± Cu non-sulfide mineralogy, texture, and stable isotope (C, O, S) geochemistry, the world-class Touissit- Bou Beker and Jbel Bou Dahar Mississippi Valley-type districts of the Moroccan Atlasic system have been investigated in order to gain insights into the origin and processes that contributed to the formation of the base metal non-sulfide mineralization. In both districts, direct replacement (“red calamine”) and wallrock replacement (“white calamine”) ores are observed. Based on the mineral assemblages, ore textures, and crosscutting relations, three distinct mineralizing stages are recognized. The earliest, pre-non-sulfide gossanous stage was a prerequisite for the following supergene stages and constituted the driving force that ultimately promoted the leaching of most base metals such as Zn and Cu and alkalis from their rock sources. The following two stages, referred to as the main supergene “red calamine” and late “white calamine” ore stages, generated the bulk of mineable “calamine” ores in the Touissit-Bou Beker and Jbel Bou Dahar districts<b>. </b>Stable isotope compositions (d<sup>13</sup>C<sub>V-PDB</sub>, d<sup>18</sup>O<sub>V-SMOW</sub>, d<sup>34</sup>S<sub>CDT</sub>) support a three-stage model whereby metals were released by supergene acidic fluids and then precipitated by bacteria and archaea-mediated metal-rich meteoric fluids due to a decrease in temperature and/or increase of <i>f</i><sub>O2</sub>. Oxygen isotope thermometry indicates decreasing precipitation temperatures with advancing paragenetic sequence from 33° to 18 °C, with wet to semi-arid to arid climatic conditions. The close spatial relationships between coexisting sulfide and non-sulfide mineralization along with stable isotope constraints suggest that the oxidation of sulfides occurred concurrently after the main stage of the Alpine orogeny between 15 Ma and the present. More importantly, the current data show for the first time the involvement of biologically controlled activity as the major driving process that triggered both oxidation and deposition of supergene mineralization at Jbel Bou Dahar and Touissit-Bou Beker districts. Conclusions drawn from this study therefore have implications for supergene Mississippi Valley-type (MVT) -derived non-sulfide deposits worldwide and account for the prominent role of biological processes in the genesis of this category of ore deposits.
topic supergene environment
calamine ores
biomineralization
C
O
S isotope geochemistry
url https://www.mdpi.com/2075-163X/11/4/401
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spelling doaj-053638324a3a4a47826eae701555b0fc2021-04-11T23:00:21ZengMDPI AGMinerals2075-163X2021-04-011140140110.3390/min11040401Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and its Relevance to Microbiological Activity, Late Miocene Uplift and Climate ChangesMohammed Bouabdellah0Wissale Boukirou1Adriana Potra2Erik Melchiorre3Hassan Bouzahzah4Johan Yans5Khadra Zaid6Mohammed Idbaroud7Julien Poot8Augustin Dekoninck9Gilles Levresse10Laboratoire des Gîtes Minéraux, Hydrogéologie & Environnement, Faculté des Sciences, University Mohammed I, Oujda 60000, MoroccoLaboratoire des Gîtes Minéraux, Hydrogéologie & Environnement, Faculté des Sciences, University Mohammed I, Oujda 60000, MoroccoDepartment of Geosciences, University of Arkansas, Fayetteville, AR 72701, USAGeology Department, California State University, San Bernardino, CA 92405, USAMinerals Engineering, Materials and Environment Department, University of Liège, 4000 Liège 1, BelgiumInstitute of Life-Earth-Environment (ILEE), University of Namur, 5000 Namur, BelgiumLaboratoire des Gîtes Minéraux, Hydrogéologie & Environnement, Faculté des Sciences, University Mohammed I, Oujda 60000, MoroccoLaboratoire des Gîtes Minéraux, Hydrogéologie & Environnement, Faculté des Sciences, University Mohammed I, Oujda 60000, MoroccoInstitute of Life-Earth-Environment (ILEE), University of Namur, 5000 Namur, BelgiumInstitute of Life-Earth-Environment (ILEE), University of Namur, 5000 Namur, BelgiumPrograma de Geofluidos, Centro de Geociencias UNAM-Campus Juriquilla, Querétaro 76230, MexicoThrough integration of Pb-Zn ± Cu non-sulfide mineralogy, texture, and stable isotope (C, O, S) geochemistry, the world-class Touissit- Bou Beker and Jbel Bou Dahar Mississippi Valley-type districts of the Moroccan Atlasic system have been investigated in order to gain insights into the origin and processes that contributed to the formation of the base metal non-sulfide mineralization. In both districts, direct replacement (“red calamine”) and wallrock replacement (“white calamine”) ores are observed. Based on the mineral assemblages, ore textures, and crosscutting relations, three distinct mineralizing stages are recognized. The earliest, pre-non-sulfide gossanous stage was a prerequisite for the following supergene stages and constituted the driving force that ultimately promoted the leaching of most base metals such as Zn and Cu and alkalis from their rock sources. The following two stages, referred to as the main supergene “red calamine” and late “white calamine” ore stages, generated the bulk of mineable “calamine” ores in the Touissit-Bou Beker and Jbel Bou Dahar districts<b>. </b>Stable isotope compositions (d<sup>13</sup>C<sub>V-PDB</sub>, d<sup>18</sup>O<sub>V-SMOW</sub>, d<sup>34</sup>S<sub>CDT</sub>) support a three-stage model whereby metals were released by supergene acidic fluids and then precipitated by bacteria and archaea-mediated metal-rich meteoric fluids due to a decrease in temperature and/or increase of <i>f</i><sub>O2</sub>. Oxygen isotope thermometry indicates decreasing precipitation temperatures with advancing paragenetic sequence from 33° to 18 °C, with wet to semi-arid to arid climatic conditions. The close spatial relationships between coexisting sulfide and non-sulfide mineralization along with stable isotope constraints suggest that the oxidation of sulfides occurred concurrently after the main stage of the Alpine orogeny between 15 Ma and the present. More importantly, the current data show for the first time the involvement of biologically controlled activity as the major driving process that triggered both oxidation and deposition of supergene mineralization at Jbel Bou Dahar and Touissit-Bou Beker districts. Conclusions drawn from this study therefore have implications for supergene Mississippi Valley-type (MVT) -derived non-sulfide deposits worldwide and account for the prominent role of biological processes in the genesis of this category of ore deposits.https://www.mdpi.com/2075-163X/11/4/401supergene environmentcalamine oresbiomineralizationCOS isotope geochemistry

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