Geology, Fluid Inclusions, and Isotopic Geochemistry of the Jinman Sediment-Hosted Copper Deposit in the Lanping Basin, China

The Jinchang gold–copper deposit is located in Eastern Heilongjiang Province,Northeastern China. The orebody comprises primarily hydrothermal breccias, quartz veins, anddisseminated ores within granite, diorite, and granodiorite. Three paragenetic stages are identified:early quartz–pyrite–arsenopyrite (Stage 1), quartz–pyrite–chalcopyrite (Stage 2), and latequartz–pyrite–galena–sphalerite (Stage 3). Gold was deposited during all three stages and Stage 1was the major gold-producing stage. Copper is associated with the mineralization but has loweconomic value. Fluid inclusions (FIs) within the deposit are liquid-rich aqueous, vapor-rich aqueous,and daughter-mineral-bearing types. Microthermometric data for the FIs reveal decreasinghomogenization temperatures (Th) and salinities of the ore-forming fluids over time. The Th forStages 1–3 of the mineralization are 421–479, 363–408, and 296–347 °C, respectively. Stage 1 fluidsin vapor-rich and daughter-mineral-bearing inclusions have salinities of 5.7–8.7 and 49.8–54.4 wt%NaCl equivalent, respectively. Stage 2 fluids in vapor-rich, liquid-rich, and daughter-mineral-bearinginclusions have salinities of 1.2–5.4, 9.5–16.0, and 43.3–48.3 wt% NaCl, respectively. Stage 3 fluids inliquid-rich and daughter-mineral-bearing inclusions have salinities of 7.9–12.6 and 38.3–42.0 wt% NaClequivalent, respectively. The estimated trapping pressures are 160–220 bar, corresponding toan entrapment depth of 1.6–1.2 km in the paleo-water table. Oxygen and hydrogen isotope data(δ18OV-SMOW = 8.6‰ to 11.4‰; δDV-SMOW = −92.2‰ to −72.1‰) suggest that the ore-forming fluidswere derived from magmatic fluids during the early stages of mineralization and subsequentlyincorporated meteoric water during the late stages. The sulfide minerals have δ34SVCDT values of0.2‰–3.5‰, suggesting that the sulfur has a magmatic origin. The Jinchang deposit is a typicalgold-rich gold–copper porphyry deposit.

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An approach to the genesis of Mahoor copper deposit, southwest of Nehbandan, based on mineralogy, fluid inclusions and sulfur isotopes studies

Iranian Journal of Crystallography and Mineralogy ◽

10.52547/ijcm.29.3.619 ◽

2021 ◽

Vol 29 (3) ◽

pp. 619-636

Author(s):

علیرضا Almasi ◽

روح الله Miri Beydokhti ◽

محمدحسن Karimpour ◽

سید احمد Mazaheri ◽

◽

...

Keyword(s):

Fluid Inclusions ◽

Sulfur Isotopes ◽

Copper Deposit

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Controls of alteration and mineralization in the Sungun porphyry copper deposit, Iran; evidence from fluid inclusions and stable isotopes

Economic Geology ◽

10.2113/gsecongeo.93.5.651 ◽

1998 ◽

Vol 93 (5) ◽

pp. 651-670 ◽

Cited By ~ 132

Author(s):

Ardeshir Hezarkhani ◽

Anthony E. Williams-Jones

Keyword(s):

Stable Isotopes ◽

Fluid Inclusions ◽

Porphyry Copper ◽

Copper Deposit ◽

Porphyry Copper Deposit

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Hydrothermal evolution of Darrehzar porphyry copper deposit, Iran: evidence from fluid inclusions

Arabian Journal of Geosciences ◽

10.1007/s12517-012-0744-x ◽

2012 ◽

Vol 7 (4) ◽

pp. 1463-1477 ◽

Cited By ~ 4

Author(s):

B. Alizadeh Sevari ◽

A. Hezarkhani

Keyword(s):

Fluid Inclusions ◽

Porphyry Copper ◽

Copper Deposit ◽

Porphyry Copper Deposit

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Stable Isotopic Geochemistry of the Bainaimiao Copper Deposit

Acta Geologica Sinica - English Edition ◽

10.1111/1755-6724.12374_77 ◽

2014 ◽

Vol 88 (s2) ◽

pp. 660-661

Author(s):

Yun ZHAO ◽

Jianping WANG ◽

Zenghai YANG ◽

Chunfeng LI ◽

Haiyang ZUO

Keyword(s):

Copper Deposit ◽

Stable Isotopic ◽

Isotopic Geochemistry

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Geochemical Study of Fluid Inclusions from Xingyuanchong Copper Deposit in Wanzai, Jiangxi Province

Nuclear Science and Technology ◽

10.12677/nst.2014.22003 ◽

2014 ◽

Vol 02 (02) ◽

pp. 9-17

Author(s):

婷刘

Keyword(s):

Fluid Inclusions ◽

Copper Deposit ◽

Jiangxi Province ◽

Geochemical Study

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Mineralized Granitic Porphyry of the Yangla Copper Deposit, Western Yunnan, China: Geochemistry of Fluid Inclusions and H-O, S, and Pb Isotopes

Geofluids ◽

10.1155/2020/4391703 ◽

2020 ◽

Vol 2020 ◽

pp. 1-32 ◽

Cited By ~ 2

Author(s):

Xinfu Wang ◽

Bo Li ◽

ShenJin Guan ◽

Olivier Nadeau ◽

Guo Tang

Keyword(s):

Fluid Inclusions ◽

Carbonate Rocks ◽

Large Scale ◽

Early Stage ◽

Copper Deposit ◽

Magmatic Fluid ◽

Ore Body ◽

Ore Bodies ◽

Calcite Veins ◽

Western Yunnan

The Yangla copper deposit (YCD) is located in the central part of the Jinshajiang tectonic belt (Jinshajiang metallogenic belt) and is one of the most important copper deposits which has the large-scale copper reserves of the northwestern Yunnan, China. The ore bodies are strictly controlled by the stratum, pluton, and structure, which are layered, lens, and vein-like within the contact or fracture zone of the pluton and surrounding rock. At Yangla, two styles of mineralization occur at the brecciated contact zone between the pluton (granodiorite and granitic porphyry) and carbonaceous wall rock and include strata bound/lens-shaped replacement of carbonate rocks (skarn style) and porphyry-style sulfide-quart-calcite veins. But, the granitic porphyry mineralization have received less attention; the isotope and fluid inclusion studies are relatively scarce for limited porphyry ore bodies that have been discovered at the YCD. Quartz-hosted fluid inclusions from the recently discovered granitic porphyry have homogenization temperature averaging around 180±20°C and 300±20°C with salinities ranging from 4 to 22 wt.% NaCleq, pointing toward the contribution of medium temperature-medium salinity and low temperature-low salinity fluids during the metallogenesis. These fluid inclusions have δ18OH2O values ranging between -1.91‰ and -1.02‰ and δD values ranging between -143.10‰ and -110‰, suggesting that the ore-forming fluid was a mix of magmatic and meteoric water. Ore-related pyrite/chalcopyrite have δ34SV-CDT values ranging from -1.0‰ to 1.0‰ and whole rocks have δ34SΣS = 0.34, suggesting that sulfur mainly derived from magmatic rocks of the Yangla mining area. The sulfides 208Pb/204Pb ranged from 38.8208-38.9969, 207Pb/204Pb from 15.7079-15.7357, and 206Pb/204Pb from 18.5363-18.7045, indicating that the lead mainly originated from the upper crust. It is demonstrated that the evolution of ore-forming fluid is continuous from the skarn ore body (SOB) stage to the porphyritic ore body stage and belong to the products of the same ore-forming fluid system, and the unisothermal mixing and cooling actions were maybe the main mechanism at the metallic minerals precipitation in mineralized granitic porphyry (MGP). A model is proposed according to the early stage, a magmatic fluid reacted and replaced with the surrounding carbonate rocks and then formed skarn-type ore bodies. The magmatic-hydrothermal fluid subsequently deposited porphyry-type quartz-calcite veins, veinlets, and stockwork mineralization.

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