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2021 Vol. 54, No. 1

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Article navigation > Northwestern Geology > 2021 > 54(1): 147-157

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SI Xiaohua, LIU Lin, XIA Xunmao. 2021. Analysis of Ore-Bearing Sedimentary Basins and Mineralization of Sedimentary Hematite in Western Hubei. Northwestern Geology, 54(1): 147-157. doi: 10.19751/j.cnki.61-1149/p.2021.01.012

Citation:

SI Xiaohua, LIU Lin, XIA Xunmao. 2021. Analysis of Ore-Bearing Sedimentary Basins and Mineralization of Sedimentary Hematite in Western Hubei. Northwestern Geology, 54(1): 147-157. doi: 10.19751/j.cnki.61-1149/p.2021.01.012

Analysis of Ore-Bearing Sedimentary Basins and Mineralization of Sedimentary Hematite in Western Hubei

1. Hubei Institute of Metallurgy and Geology, Research Center of Resources and Environmental Geology, Yichang 443003, Hubei, China;
2. Natural Resources and Planning Bureau, Zigui County, Hubei Province, Yichang 443605, Hubei, China

Received Date: 21 November 2019

Revised Date: 15 September 2020

Abstract

Abstract

Western Hubei is an important producing area of high phosphorus sedimentary hematite in China. The ore-bearing rock series consist of the Upper Devonian Huangjiadeng Formation and the Xiejingsi Formation. The former is mainly near-shore subphase deposition, while the latter is a relatively flat far-shore zone. The Fe mineralization is controlled by ore-bearing sedimentary basins and petrographic paleogeographic environment. The mineralization occurred mainly in clastic rocks and carbonate rocks.A complete transgression-retrogression cycle is established in the inner sequence of the formation.The basin began to sink to accept deposition in the middle Devonian, then depression accelerated to the deepest in the late stage of Late Devonian.In the end the basin rose, also causing a rise in sea level, and the basin sedimentary ended. The mineralization in sedimentary period is characterized by mechanical deposition, colloid deposition, chemical deposition and bio-deposition, mainly forming hematite.The mineralization in the diagenetic period is characterized by consolidation, recrystallization and new mineral filling metasomatism, forming magnetite.
- Sedimentary hematite /
- temporal and spatial distribution regularity /
- sedimentary basin analysis /
- petrographic paleogeography /
- mineralization /
- western Hubei

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