Your search keyword '"Duan, Xianzhe"' showing total 6 results

1. Safety assessment in the disposal of high-level radioactive wastes (HLWs): a geochemical study of uranium complexes in deep groundwater in granites from Beishan, China.

Author

Wu, Peng, Wang, Ju, Ling, Hui, Zhou, Zhichao, Santosh, M., Tang, Zhenping, Sun, Haoran, Gui, Rengao, Duan, Jiaxin, Li, Nan, and Duan, Xianzhe

Subjects

RADIOACTIVE waste disposal, URANIUM, GRANITE, GROUNDWATER, RADIOACTIVE wastes

Abstract

To clarify the species of uranium and its effect on the safety assessment in the disposal of high-level radioactive wastes (HLWs), we presented geochemical simulations of Beishan deep groundwater in Gansu Province, China. The Ca–UO2–CO3 complexes are the main species. They can decrease the blocking of granites on uranium, which is unfavorable for the long-term and safe disposal of HLWs. The Ca2+ may become the critical factor that determines the uranium species when the formation of Ca2UO2(CO3)3(aq) increases with Ca2+ concentrations. Our study provides an important basis and reference for future safety assessment in the geological disposal of HLWs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Metallogenic Material Source and Genesis of the Jilinbaolige Pb-Zn-Ag Deposit, the Great Xing'an Range, China: Constraints from Mineralogical, S Isotopic, and Pb Isotopic Studies of Sulfide Ores.

Author

Han, Shili, Wang, Sheng, Duan, Xianzhe, Santosh, M., Li, Sai, Sun, Haoran, Tang, Zhenping, Tan, Kaixuan, Liu, San, Chen, Liang, Ma, Aiyang, Long, Shuqin, and Liu, Wei

Subjects

SULFIDE ores, SULFIDE minerals, COMPOUND fractures, LEAD, MINERALS, MAGMAS, GRANITE

Abstract

The Jilinbaolige Pb-Zn-Ag polymetallic deposit is located in the eastern part of Inner Mongolia and in the central-southern part of the Great Xing'an Range, in which several large-sized Pb-Zn-Ag deposits have been found. The Jilinbaolige deposit, which occurs mainly at the contact zone between Yanshanian granite intrusion and sedimentary strata, shows strong NE-to-NNE structural control. The deposit includes three ore-forming stages: (1) the arsenopyrite–pyrite–chalcopyrite–sphalerite stage, (2) the galena–sphalerite–quartz stage, and (3) the pyrite–calcite–quartz stage. In this study, we present a systematic study on the mineralogical and geochemical characteristics (including major elements, S isotopes, and Pb isotopes) of the main sulfide ore minerals in the Jilinbaolige Pb-Zn-Ag deposit in order to evaluate the metallogenic environment, ore-forming material source, and genesis of this polymetallic deposit. The sulfide typomorphic characteristics, ore fabric, and thermometry suggest that the genesis of sulfides in the deposit is closely related to magmatic-hydrothermal activity. The early stage of mineralization might have evolved from a high-temperature hydrothermal environment. The sulfur isotopic results show that the δ34S values in the Jilinbaolige deposit range from 2.3‰ to 6.1‰, with an average value of 3.98‰, indicating that the sulfur originated from magmas with both mantle and crustal components. The Pb isotopic compositions (206Pb/204Pb = 18.214–18.330, 207Pb/204Pb = 15.478–15.615, 208Pb/204Pb = 37.957–38.292, μ = 9.24–9.50, ω = 34.49–36.49) of the sulfide ores suggest that that the lead is of crust-mantle mixed origin. The comparison between the S and Pb isotopic compositions of the Jilinbaolige deposit and the polymetallic deposits from the central-southern parts of the Great Xing'an Range suggests that these deposits have a similar metallogenic source, which is closely related to the Yanshanian granite and medium-temperature hydrothermal fluids. These ore-bearing hydrothermal fluids that evolved from deep magmatic sources migrated along the contact and fracture zones and during the subsequent gradual decrease in temperature, and the metallogenic components were deposited in the relatively open fracture and fissure space. Our results provide insights for further mineral prospecting in the south-central part of the Great Xing'an Range. [ABSTRACT FROM AUTHOR]

Published

2022

3. Transformation of the Sub-Continental Lithospheric Mantle Beneath the North China Craton (NCC): Constraints from the Geochemical Characteristics of Olivine Websterite Xenoliths and Their Minerals in the Cenozoic Basalts from Hannuoba.

Author

Duan, Xianzhe, Shen, Hongjie, Li, Nan, Xiao, Wenzhou, Sui, Qinglin, He, Haiyang, Feng, Peng, and Tang, Zhenping

Subjects

*INCLUSIONS in igneous rocks, *METASOMATISM, *MINERALS, *CENOZOIC Era, *BASALT, *OLIVINE, *SUBDUCTION zones

Abstract

The sub-continental mantle beneath North China Craton (NCC) has attracted extensive attention in the past decades because of its dramatic transformation from an old, cold, thick, and refractory mantle to a juvenile, hot, thinner, and fertile mantle. However, the transformation mechanism remains largely controversial. The mantle xenoliths entrapped in basalts, as petrogenetic indicators, can provide an important window to reveal the evolution of the sub-continental lithospheric mantle. In this study, we present a systematical study on the geochemical characteristics of the olivine websterite xenoliths and their minerals in the Cenozoic basalts in the Hannuoba region located at the central orogenic belt of the NCC. The results, compared with the geochemical data of Paleozoic and Meosozic peridotites, the Cenozoic composite pyroxenites as well as the global cumulate pyroxenites, demonstrate that: (1) The source of the websterite is probably the lithospheric mantle, which is mainly newly accreted, but with small amounts of ancient mantle residues. The source may be contaminated by different degrees of crustal materials. The high Nb/Ta ratios (11.36–20.57) of the websterite indicate that the Ti-bearing minerals (such as rutile) are probably involved in the source; (2) The websterite is more likely to be produced as a result of interaction of mantle peridotite with the silica-rich melts that are mainly derived from the asthenospheric mantle and also contributed by the crustal materials; (3) The metasomatic crustal melts might be derived from the subducted Paleo-Pacific plate. These melts interacted with the lithospheric mantle can significantly transform the chemical composition of the lithospheric mantle, and consequently play an important role in the destruction of the NCC. An important implication for the destruction of the NCC is further discussed. [ABSTRACT FROM AUTHOR]

Published

2022

4. In situ U-Pb dating of rutile and titanite from the Chaihulanzi lode gold deposit, northern North China Craton and its geological significance.

Author

Shi, Kaituo, Duan, Xianzhe, Wang, Rui, Xiao, Wenzhou, Tang, Zhenping, Zhao, Chenfei, and Li, Nan

Subjects

*SPHENE, *URANIUM-lead dating, *RUTILE, *SULFIDE minerals, *VEINS (Geology), *HYDROTHERMAL alteration, *GOLD

Abstract

[Display omitted] • New U-Pb geochronology and trace element data of hydrothermal rutile and titanite were obtained. • The Chaihulanzi deposit is a subduction-related orogenic gold deposit. • The northern NCC has exploration potentials for Early Permian lode gold deposits. The Chifeng-Chaoyang region, located along the northern margin of the North China Craton, is an important gold producer in China, with a proven gold reserve of about 500 tons. Most gold deposits are fault-controlled and formed in the Mesozoic, but the absolute ages of gold mineralization in this region have not been well constrained due to the lack of suitable dating minerals. This study presents in situ U-Pb ages of hydrothermal rutile and titanite for the Chaihulanzi gold deposit and obtains a distinctive age. The Chaihulanzi deposit (∼27 t Au) is located in the western portion of the Chifeng-Chaoyang region and mainly hosted in the carbonaceous mica schist of the Neoarchean-Paleoproterozoic Jianping Group along NW to NWW striking faults. It contains auriferous quartz veins and disseminated ores in hydrothermal alteration zones, with pyrite and pyrrhotite as the predominant ore minerals. Based on field and petrographic observations, four stages of mineralization process can be identified, involving stage I quartz-pyrite, stage II quartz-pyrite-pyrrhotite-chalcopyrite, stage III quartz-polymetallic sulfides, and stage IV quartz-calcite. Stage II represents the main gold stage and contains abundant hydrothermal rutile and titanite, which are intergrown with pyrite, pyrrhotite and native gold. Rutile grains have high contents of V, Nb, Fe, Cr, W and low contents of Zr and yield a Tera-Wasserburg lower intercept age of 285.4 ± 8.5 Ma (n = 37, MSWD = 3.9). Titanite grains show low Th/U and La/Yb ratios (0.03 to 0.66 and 0.26 to 3.98, respectively) and flat chondrite-normalized REE patterns (LREE/HREE = 0.88–5.72, Eu/Eu* = 0.71–1.71), with a Tera-Wasserburg lower intercept age of 282.3 ± 3.4 Ma (n = 20, MSWD = 2.1). Combined with the emplacement age of a post-ore mafic dyke (ca. 275.5 Ma), the timing of the Chaihulanzi deposit can be constrained to Early Permian, representing a new gold mineralization epoch in the Chifeng-Chaoyang region. On the basis of available geological and geochronological evidence, the Chaihulanzi deposit can be classified as an orogenic gold deposit formed during the southward subduction of the paleo-Asian Ocean. These new findings likely have important implications for future regional gold exploration. [ABSTRACT FROM AUTHOR]

Published

2023

5. Melt–peridotite interaction in the shallow lithospheric mantle of the North China Craton: evidence from melt inclusions in the quartz-bearing orthopyroxene-rich websterite from Hannuoba.

Author

Duan, Xianzhe, Sun, He, Yang, Wei, Su, Benxun, Xiao, Yilin, Hou, Zhenhui, and Shi, Hao

Subjects

*LITHOSPHERE, *QUARTZ, *PETROLOGY, *ORTHOPYROXENE, *RARE earth metals, *ANDORITE

Abstract

To better understand the origin, migration, and evolution of melts in the lithospheric mantle and their roles on the destruction of the North China Craton (NCC), we conducted a petrological and geochemical study on a quartz-bearing orthopyroxene-rich websterite xenolith from Hannuoba, the NCC, and its hosted melt and fluid inclusions. Both clinopyroxene and orthopyroxene in the xenolith contain lots of primary and secondary inclusions. High-temperature microthermometry of melt inclusions combined with Raman spectroscopy analyses of coexisting fluid inclusions shows that the entrapment temperature of the densest inclusions was ~1215°C and the pressure ~11.47 kbar, corresponding to a depth of ~38 km, i.e. within the stability of the spinel lherzolite. Intermediate pressure inclusions probably reflect progressive fluid entrapment over a range of depths during ascent, whereas the low-pressure inclusions (P < 2 kbar) may represent decrepitated primary inclusions.Insitulaser-ablation ICP-MS analyses of major and trace elements on individual melt inclusions show that the compositions of these silicate melt inclusions in clinopyroxene and orthopyroxene are rich in SiO2, Al2O3, and alkalis but poor in TiO2and strongly enriched in light rare earth elements (LREEs) and large ion lithophile elements (LILEs), with negative anomalies of high-field strength elements (HFSEs). These characteristics suggest that the silica-rich melts could be derived from the partial melting of subducted oceanic slab. Therefore, this kind of quartz-bearing orthopyroxene-rich websterite may be produced by interaction between the slab-derived melts with the mantle peridotite. This study provides direct evidence for the origin, migration, and evolution of melts in the lithospheric mantle, which may play an important role in the destruction of the NCC. [ABSTRACT FROM AUTHOR]

Published

2014

6. Integrated geophysical exploration of the coupling of a concealed rock body and metallogenic structures—Ag-Pb-Zn mining area case study in Jilinbaolige, Inner Mongolia, China.

Author

Han, Shili, Wang, Sheng, Tang, Zhenping, Tan, Kaixuan, Duan, Xianzhe, He, Haiyang, Feng, Zhigang, and Xie, Yanshi

Subjects

*GEOPHYSICAL prospecting, *METALLOGENY, *MINES & mineral resources, *PROSPECTING, *ROCKS

Abstract

The Jilinbaolige polymetallic deposit, located in the Dong Ujimqin Banner in Inner Mongolia, China, belongs to the Daxinganling and Nangebi-Dongwu Banner polymetallic metallogenic belts. In recent years, many medium to large Ag-Pb-Zn deposits have been discovered, but due to their deep burial and the Quaternary soils cover, mineral exploration is difficult. In order to investigate the relationship among the mineralization, rock body and tectonic structures in the study region, we implemented 5.57 km2 magnetic exploration and four audio-magnetotelluric survey lines with 184 exploration points. Through comprehensive geophysical and geological inference and interpretation, we identified two types of granite which were formed at different stages in the early Yanshanian period, and inferred the NNE F4, NW F5 and NW F6 faults as the ore-conducting and ore-hosting structures of the Ag-Pb-Zn deposits. We determined that the faults' intersections provide the main metallogenic spaces while also locating concealed rock bodies interspersed as small stocks or veins within the upper Devonian Anguinwula formation. Apparently the Ag-Pb-Zn deposits are closely related to subsequently intrusive monzonitic granites of the early Yanshanian period. As confirmed by drilling, many Ag-Pb-Zn ore veins are found at 550–600 m depths and monzonitic granite porphyries at 750 m depth. Our geophysical exploration results reveal the coupling relationship between the concealed rock bodies and metallogenic structures, which can provide direction and effective geophysical methods to prospect for potentially similar deposits in the surrounding area. • Comprehensive geophysical and geological methods were used to investigate metallogenic regularity. • Two types of Yanshanian granites, exhibiting strong and weak magnetism, have been detected. • Results show that Ag-Pb-Zn mineralization is closely related to strongly magnetic granite. • Coupling relationship was found between concealed a rock body and metallotectonics. • Methods for seeking analogous deposits in the study region are proposed. [ABSTRACT FROM AUTHOR]

Published

2020