Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications

Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications

The Yamansu deposit, which is hosted in the volcanic-sedimentary sequence of the Carboniferous Yamansu Formation in Eastern Tianshan, NW China, contains many skarns, and the orebodies occur in the ore district in stratoidal, banded or lenticular forms. Four alteration stages, namely, albite&#872...

Full description

Bibliographic Details
Main Authors: Zhiyuan Sun, Jingbin Wang, Yuwang Wang, Lingli Long
Format: Article
Language:English
Published: MDPI AG 2019-12-01
Series:Minerals
Subjects:
minerals
geochemistry
metallogenic process
yamansu deposit
eastern tianshan
Online Access:https://www.mdpi.com/2075-163X/10/1/39
id doaj-06c69fdecfbe4e8f98c54cb49c4eca59
record_format Article
spelling doaj-06c69fdecfbe4e8f98c54cb49c4eca592020-11-25T01:29:43ZengMDPI AGMinerals2075-163X2019-12-011013910.3390/min10010039min10010039Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic ImplicationsZhiyuan Sun0Jingbin Wang1Yuwang Wang2Lingli Long3Technic Research Center for Deep Resources Exploration in Non-Ferrous Metal Mines, Beijing Institute of Geology for Mineral Resources, Beijing 100012, ChinaTechnic Research Center for Deep Resources Exploration in Non-Ferrous Metal Mines, Beijing Institute of Geology for Mineral Resources, Beijing 100012, ChinaTechnic Research Center for Deep Resources Exploration in Non-Ferrous Metal Mines, Beijing Institute of Geology for Mineral Resources, Beijing 100012, ChinaTechnic Research Center for Deep Resources Exploration in Non-Ferrous Metal Mines, Beijing Institute of Geology for Mineral Resources, Beijing 100012, ChinaThe Yamansu deposit, which is hosted in the volcanic-sedimentary sequence of the Carboniferous Yamansu Formation in Eastern Tianshan, NW China, contains many skarns, and the orebodies occur in the ore district in stratoidal, banded or lenticular forms. Four alteration stages, namely, albite−tourmaline−apatite−Grt1 (Stage I), K-feldspar−Grt2 (Stage II), magnetite−chlorite−epidote (Stage III), and quartz−calcite−axinite−Grt3 (Stage IV), are distinguished in the Yamansu deposit. The mineral geochemistry associated with each different stage is presented to provide a better understanding of the corresponding metallogenic processes. The ore-forming fluid in Stage I was derived from a magmatic−hydrothermal source and formed at high temperatures with many volatiles. This ore-forming fluid, which contained considerable metallogenic materials during the early stage, likely experienced diffusive metasomatism in a closed system with low water/rock (W/R) ratios. Mineral geochemical analyses show that the Fe content gradually increases from Stage I to Stage II, indicating that accumulated ore-forming materials were available during changes in the physicochemical conditions from a reducing environment with neutral pH to oxidizing conditions with mildly acidic pH. During the main metallogenic stage (Stage III), mineral assemblages reflect moderate- to high-temperature conditions, and the ore-forming fluid was created and destroyed periodically; the magnetite ores were deposited in a fluctuating fluid system. The multilayered orebodies, multigenerational garnets, and minerals with oscillatory zoning indicate that the ore-forming fluid may have developed periodic fluctuations, and this special multistage fluctuation of the hydrothermal fluid in the Yamansu deposit was the key factor controlling the multiple extraction, enrichment and precipitation of metallogenic materials.https://www.mdpi.com/2075-163X/10/1/39mineralsgeochemistrymetallogenic processyamansu depositeastern tianshan
collection DOAJ
language English
format Article
sources DOAJ
author Zhiyuan Sun
Jingbin Wang
Yuwang Wang
Lingli Long
spellingShingle Zhiyuan Sun
Jingbin Wang
Yuwang Wang
Lingli Long
Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
Minerals
minerals
geochemistry
metallogenic process
yamansu deposit
eastern tianshan
author_facet Zhiyuan Sun
Jingbin Wang
Yuwang Wang
Lingli Long
author_sort Zhiyuan Sun
title Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
title_short Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
title_full Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
title_fullStr Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
title_full_unstemmed Geochemical Characteristics of Mineral Assemblages from the Yamansu Iron Deposit, NW China, and Their Metallogenic Implications
title_sort geochemical characteristics of mineral assemblages from the yamansu iron deposit, nw china, and their metallogenic implications
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2019-12-01
description The Yamansu deposit, which is hosted in the volcanic-sedimentary sequence of the Carboniferous Yamansu Formation in Eastern Tianshan, NW China, contains many skarns, and the orebodies occur in the ore district in stratoidal, banded or lenticular forms. Four alteration stages, namely, albite−tourmaline−apatite−Grt1 (Stage I), K-feldspar−Grt2 (Stage II), magnetite−chlorite−epidote (Stage III), and quartz−calcite−axinite−Grt3 (Stage IV), are distinguished in the Yamansu deposit. The mineral geochemistry associated with each different stage is presented to provide a better understanding of the corresponding metallogenic processes. The ore-forming fluid in Stage I was derived from a magmatic−hydrothermal source and formed at high temperatures with many volatiles. This ore-forming fluid, which contained considerable metallogenic materials during the early stage, likely experienced diffusive metasomatism in a closed system with low water/rock (W/R) ratios. Mineral geochemical analyses show that the Fe content gradually increases from Stage I to Stage II, indicating that accumulated ore-forming materials were available during changes in the physicochemical conditions from a reducing environment with neutral pH to oxidizing conditions with mildly acidic pH. During the main metallogenic stage (Stage III), mineral assemblages reflect moderate- to high-temperature conditions, and the ore-forming fluid was created and destroyed periodically; the magnetite ores were deposited in a fluctuating fluid system. The multilayered orebodies, multigenerational garnets, and minerals with oscillatory zoning indicate that the ore-forming fluid may have developed periodic fluctuations, and this special multistage fluctuation of the hydrothermal fluid in the Yamansu deposit was the key factor controlling the multiple extraction, enrichment and precipitation of metallogenic materials.
topic minerals
geochemistry
metallogenic process
yamansu deposit
eastern tianshan
url https://www.mdpi.com/2075-163X/10/1/39
work_keys_str_mv AT zhiyuansun geochemicalcharacteristicsofmineralassemblagesfromtheyamansuirondepositnwchinaandtheirmetallogenicimplications
AT jingbinwang geochemicalcharacteristicsofmineralassemblagesfromtheyamansuirondepositnwchinaandtheirmetallogenicimplications
AT yuwangwang geochemicalcharacteristicsofmineralassemblagesfromtheyamansuirondepositnwchinaandtheirmetallogenicimplications
AT linglilong geochemicalcharacteristicsofmineralassemblagesfromtheyamansuirondepositnwchinaandtheirmetallogenicimplications
_version_ 1725095271520534528

Similar Items