Mineral paragenesis in Paleozoic manganese ore deposits: Depositional versus post-depositional formation processes

Unlike modern Mn(IV)-dominated manganese nodules, ancient manganese deposits primarily contain Mn(II) (manganous) mineral phases. The general assumption is that these manganous minerals formed post-depositionally from a Mn(IV) precursor phase during diagenesis and metamorphism. However, recent studi...

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Published in	Geochimica et cosmochimica acta Vol. 325; pp. 65 - 86
Main Authors	Yan, Hao, Pi, Dao-Hui, Jiang, Shao-Yong, Mao, Jingwen, Xu, Lingang, Yang, Xiuqing, Hao, Weiduo, Mänd, Kaarel, Li, Long, Konhauser, Kurt O., Robbins, Leslie J.
Format	Journal Article
Language	English
Published	Elsevier Ltd 15.05.2022
Subjects	Ancient sediments Carbonates Manganese Oxidation state Paragenesis Silicates South China Ancient sediments South China Oxidation state Paragenesis Carbonates Silicates Manganese
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Abstract	Unlike modern Mn(IV)-dominated manganese nodules, ancient manganese deposits primarily contain Mn(II) (manganous) mineral phases. The general assumption is that these manganous minerals formed post-depositionally from a Mn(IV) precursor phase during diagenesis and metamorphism. However, recent studies have shown that aqueous Mn(II) may combine with either CO32–(aq) or H4SiO4(aq) to nucleate and precipitate as primary manganous phases within anoxic waters. These findings thus make it difficult to assess what comprised the primary mineral assemblage of ancient Mn deposits, which in turn, has implications for understanding the redox fabric of the past marine water column. Here, we investigate the paragenesis and oxidation state of various Mn minerals (oxides, carbonates, and silicates) from the late Devonian Xialei and middle to late Permian Zunyi manganese deposits in South China. Through characterization of the micro-scale distribution, composition, and speciation of different Mn-bearing mineral phases, we provide evidence to support an oxidative mechanism during Mn cycling at the time of deposition. We document the presence of a residual oxide phase (hausmannite; Mn3O4) that represents a primary to early formed Mn(III)-bearing oxide preserved in Mn(II)-carbonate nodules. Additionally, we observe spherulitic textures comprised of mixed-valence Mn(II,III,IV)-silicates enclosed in diagenetic Mn(II)-carbonate laminations. Our results allow for the construction of a paragenetic model for these deposits beginning with the reduction of a primary Mn(IV) phase and the subsequent precipitation of intermediate Mn(III)-oxide or -silicate mineral phases. Following continued exposure to reducing conditions during early diagenesis, Mn(III)-oxides were then replaced by Mn(II)-carbonates. Similarly, Mn(III)-silicates were transformed into various Mn(II)-silicates during late-stage diagenesis and metamorphism. This model suggests that the accumulation of various divalent Mn mineral phases in ancient sediments may, therefore, be indicative of deposition under a water column with a sufficient oxidizing potential to induce Mn(II) oxidation.
AbstractList	Unlike modern Mn(IV)-dominated manganese nodules, ancient manganese deposits primarily contain Mn(II) (manganous) mineral phases. The general assumption is that these manganous minerals formed post-depositionally from a Mn(IV) precursor phase during diagenesis and metamorphism. However, recent studies have shown that aqueous Mn(II) may combine with either CO32–(aq) or H4SiO4(aq) to nucleate and precipitate as primary manganous phases within anoxic waters. These findings thus make it difficult to assess what comprised the primary mineral assemblage of ancient Mn deposits, which in turn, has implications for understanding the redox fabric of the past marine water column. Here, we investigate the paragenesis and oxidation state of various Mn minerals (oxides, carbonates, and silicates) from the late Devonian Xialei and middle to late Permian Zunyi manganese deposits in South China. Through characterization of the micro-scale distribution, composition, and speciation of different Mn-bearing mineral phases, we provide evidence to support an oxidative mechanism during Mn cycling at the time of deposition. We document the presence of a residual oxide phase (hausmannite; Mn3O4) that represents a primary to early formed Mn(III)-bearing oxide preserved in Mn(II)-carbonate nodules. Additionally, we observe spherulitic textures comprised of mixed-valence Mn(II,III,IV)-silicates enclosed in diagenetic Mn(II)-carbonate laminations. Our results allow for the construction of a paragenetic model for these deposits beginning with the reduction of a primary Mn(IV) phase and the subsequent precipitation of intermediate Mn(III)-oxide or -silicate mineral phases. Following continued exposure to reducing conditions during early diagenesis, Mn(III)-oxides were then replaced by Mn(II)-carbonates. Similarly, Mn(III)-silicates were transformed into various Mn(II)-silicates during late-stage diagenesis and metamorphism. This model suggests that the accumulation of various divalent Mn mineral phases in ancient sediments may, therefore, be indicative of deposition under a water column with a sufficient oxidizing potential to induce Mn(II) oxidation.
Author	Jiang, Shao-Yong Mao, Jingwen Xu, Lingang Yan, Hao Li, Long Konhauser, Kurt O. Robbins, Leslie J. Pi, Dao-Hui Mänd, Kaarel Yang, Xiuqing Hao, Weiduo
Author_xml	– sequence: 1 givenname: Hao surname: Yan fullname: Yan, Hao organization: State Key Laboratory of Geological Processes and Mineral Resources, School of Earth Resources, China University of Geosciences, Wuhan, China – sequence: 2 givenname: Dao-Hui surname: Pi fullname: Pi, Dao-Hui email: pdaohui@163.com organization: State Key Laboratory of Geological Processes and Mineral Resources, School of Earth Resources, China University of Geosciences, Wuhan, China – sequence: 3 givenname: Shao-Yong surname: Jiang fullname: Jiang, Shao-Yong organization: State Key Laboratory of Geological Processes and Mineral Resources, School of Earth Resources, China University of Geosciences, Wuhan, China – sequence: 4 givenname: Jingwen surname: Mao fullname: Mao, Jingwen organization: Institute of Earth Sciences, China University of Geosciences, Beijing, China – sequence: 5 givenname: Lingang surname: Xu fullname: Xu, Lingang organization: School of Earth Sciences and Resources, China University of Geosciences, Beijing, China – sequence: 6 givenname: Xiuqing surname: Yang fullname: Yang, Xiuqing organization: MOE Key Laboratory of Western China's Mineral Resources and Geological Engineering, School of Earth Science and Recourses, Chang'an University, Xi'an, China – sequence: 7 givenname: Weiduo surname: Hao fullname: Hao, Weiduo organization: Department of Earth & Atmospheric Sciences, University of Alberta, Edmonton, AB, Canada – sequence: 8 givenname: Kaarel surname: Mänd fullname: Mänd, Kaarel organization: Department of Earth & Atmospheric Sciences, University of Alberta, Edmonton, AB, Canada – sequence: 9 givenname: Long surname: Li fullname: Li, Long organization: Department of Earth & Atmospheric Sciences, University of Alberta, Edmonton, AB, Canada – sequence: 10 givenname: Kurt O. surname: Konhauser fullname: Konhauser, Kurt O. organization: Department of Earth & Atmospheric Sciences, University of Alberta, Edmonton, AB, Canada – sequence: 11 givenname: Leslie J. surname: Robbins fullname: Robbins, Leslie J. organization: Department of Geology, University of Regina, Regina, SK, Canada
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Lett. doi: 10.1016/j.epsl.2020.116201
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Snippet	Unlike modern Mn(IV)-dominated manganese nodules, ancient manganese deposits primarily contain Mn(II) (manganous) mineral phases. The general assumption is...
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SubjectTerms	Ancient sediments Carbonates Manganese Oxidation state Paragenesis Silicates South China
Title	Mineral paragenesis in Paleozoic manganese ore deposits: Depositional versus post-depositional formation processes
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