476 results on '"hydrothermal fluids"'
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2. Complexation of REE in Hydrothermal Fluids and Its Significance on REE Mineralization.
- Author
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Di, Jian and Ding, Xing
- Subjects
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RARE earth metals , *PROSPECTING , *COMPLEX fluids , *MINERALIZATION , *FLUIDS , *RARE earth oxides - Abstract
Rare earth elements (REEs) have recently been classified as critical and strategic metals due to their importance in modern society. Research on the geochemical behaviors and mineralization of REEs not only provides essential guidance for mineral exploration but also holds great significance in enhancing our understanding of Earth's origin and evolution. This paper reviews recent research on the occurrence characteristics, deposit types, and hydrothermal behaviors of REEs, with a particular focus on comparing the complexation and transport of REEs by F, Cl, S, C, P, OH, and organic ligands in fluids. Due to the very weak hydrolysis of REE ions, they predominantly exist as either hydrated ions or free ions in low-temperature and acidic to weakly basic fluids. As the ligand activity increases, the general order of transporting REEs is Cl− ≈ S O 4 2 − > F− ≈ P O 4 3 − > C O 3 2 − > OH− under acidic conditions or OH− > S O 4 2 − ≈ Cl− > F− under alkaline conditions. In acidic to neutral hydrothermal systems, the transport of REEs is primarily dominated by S O 4 2 − and Cl− ions while the deposition of REEs could be influenced by F−, C O 3 2 − , and P O 4 3 − ions. In neutral to alkaline hydrothermal systems, REEs mainly exist in fluids as hydroxyl complexes or other ligand-bearing hydroxyl complexes. Additionally suggested are further comprehensive investigations that will fill significant gaps in our understanding of mechanisms governing the transport and enrichment of REEs in hydrothermal fluids. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Isotopic and kinetic constraints on methane origins in Icelandic hydrothermal fluids.
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Stefánsson, Andri, Ricci, Andrea, Garnett, Mark, Gunnarsson-Robin, Jóhann, Kleine-Marshall, Barbara I., Scott, Samuel W., Lelli, Matteo, Cardoso, Carolina Dantas, Pik, Raphaël, Santinelli, Chiara, Ono, Shuhei, Barry, Peter H., Broadley, Michael W., Byrne, David, Halldórsson, Sæmundur A., and Fiebig, Jens
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DISSOLVED organic matter , *HELIUM isotopes , *KINETIC control , *CHEMICAL equilibrium , *CARBON isotopes , *ORGANIC geochemistry - Abstract
The origin of methane in hydrothermal fluids has long been a subject of debate – whether it is abiotic or biotic. In this study, we aim to unravel and quantify the sources of CH 4 in active hydrothermal systems by adopting a holistic approach analyzing well characterized high-temperature hydrothermal fluids (∼230–310 °C) in Iceland. We employ a broad variety of geochemical and isotope indicators, encompassing chemical and isotope compositions of the targeted fluids. These signatures are then compared with results from chemical and isotope kinetic models and data from sedimentary-hosted hydrothermal systems. Carbon species in these fluids include CO 2 (2.60–184 mmol/kg), CH 4 (2.39·10−4–0.325 mmol/kg), dissolved organic carbon (4.78·10−3–0.112 mmol/kg), and CO (1.89·10−6–4.16·10−4 mmol/kg). Carbon and helium isotopes suggest a relatively uniform mantle-derived source of CO 2 (δ13C-CO 2 : −4.80 to −1.50 ‰, CO 2 /3He: 1.49·109–4.14·1010 14C-CO 2 : 0.11–2.42 pMC). Methane, in contrast, has multiple sources. Overall, chemical equilibria among carbon species (CO 2 , CH 4 , CO) is not attained, suggesting kinetic controls. Tritium content (<0.8–1.42 TU) and hydrologic constraints indicate relatively short hydrothermal fluid residence times (∼5–200 years), with occasional inputs from older water components. Within this short timeframe, CH 4 concentrations vary from lower, to significantly higher than those calculated using CO 2 reduction kinetics. The isotope composition (δD-CH 4 : −172 to −138 ‰, δ13C-CH 4 : −32.0 to −24.6 ‰; 14C-CH 4 : 0.36–11.54 pMC) and geochemical and isotope modeling suggest that the majority (>80–90 %) of CH 4 originates from a radiocarbon inactive source, i.e. mantle CH 4 , reduction of mantle CO 2 and/or old organic matter, with relatively small contributions from both marine (<20 %) and terrestrial (<10 %) dissolved organic carbon. Measured isotopic compositions of CH 4 do not match those expected for mantle-derived CH 4 as well as values generated from reduction of mantle-derived CO 2. Instead, differences in δD-CH 4 and δ13C-CH 4 values exist between systems fed by meteoric water and those fed by seawater, challenging the assumption of a uniform CO 2 source and invariable reaction mechanisms. Differences between systems are best explained by variable extent of thermal decomposition and primary variations in the isotope composition of marine and terrestrial organic matter. Also, δD-CH 4 and δ13C-CH 4 values in meteoric water-fed systems closely resemble those in the Öxarfjördur sedimentary-hosted systems. In summary, our data supports a predominant thermogenic origin of CH 4 in both seawater and terrestrial hydrothermal fluids in Iceland. The source of organic matter appears to be a combination of modern dissolved organic carbon and older sedimentary deposits. In addition, some of the hydrothermal systems studied (Krafla, Reykjanes, Theistareykir) which are characterized by low CH 4 concentrations, may contain a significant portion of CH 4 that may originate from CO 2 reduction. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Standard operating procedure for the analysis of major ions in hydrothermal fluids by ion chromatography [version 3; peer review: 2 approved, 1 approved with reservations]
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Angelina Cordone, Mustafa Yucel, Donato Giovannelli, Monica Correggia, Alessia Benedicta Bastianoni, and Luciano Di Iorio
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major ions ,hydrothermal fluids ,ion chromatography ,Standard Operating Procedure ,aqueous geochemistry ,eng ,Science ,Social Sciences - Abstract
This standard operating procedure (SOP) describes an ion chromatography (IC) procedure for the major cations and anions in hydrothermal fluids. Hydrothermal fluids are aqueous solutions with a wide range of temperature, salinity, pH and ion species that can be used by microbial metabolism as electron donors and electron acceptors. Due to the high variability of the environmental physical-chemical parameters in these samples, we have developed this protocol taking into account the special features of the matrices analyzed. An Eco IC Metrohm system equipped with a conductivity detector was used. Calibration curves are linear in the 0.1 to 10 mg/L concentration range for cations Ca2+, Na+, K+, Mg2+, NH4 + and anions Cl-, Br-, NO3 -, NO2 -, SO4 2- , PO4 3-.
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- 2024
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5. Standard Operating Procedure for the determination of trace elements in hydrothermal fluids by Inductively Coupled Plasma Mass Spectrometry (ICP-MS) [version 2; peer review: 1 approved, 2 approved with reservations]
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Angelina Cordone, Donato Giovannelli, Mustafa Yücel, Monica Correggia, Alessia Benedicta Bastianoni, and Luciano Di Iorio
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trace element ,hydrothermal fluids ,inductively coupled plasma mass spectrometry ,Standard Operating Procedure ,aqueous geochemistry ,eng ,Science ,Social Sciences - Abstract
This standard operating procedure (SOP) validates an inductively coupled plasma mass spectrometry (ICP-MS) procedure for the determination of trace elements in hydrothermal fluids. Hydrothermal fluids are aqueous solutions with a wide range of temperature, salinity, pH and trace elements that can be used by a set of microbial proteins containing redox-sensitive transition metals as their catalytic core. Due to the high variability of these samples, we have developed this protocol taking into account the special features of the matrices analyzed. An ICP-MS 7900 Agilent system was used. Calibration curves are linear in the 0.01 to 100 μg/L concentration range.
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- 2024
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6. A contribution to the understanding of the origin of the Ginebra Gold District mineralizations, Colombia /Contribution al estudio del origen de las mineralizaciones auriferas de Ginebra, en Colombia
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Rodriguez-Ramos, Bibiana P., Molano, Juan C., and Camilo, E. Dorado
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- 2023
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7. The Eyasi-Wembere sedimentary successions, NE Tanzania: constraints from core and outcrop logging and elemental proxies
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Kiswaka, Emily Barnabas, Mboya, Venance E., Emanuel, Sara, Saroni, Justina James, and Kasanzu, Charles Happe
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- 2024
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8. Ce and Eu anomalies in zircon as indicators of oxygen fugacity in subsolidus systems.
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Trail, Dustin, Chowdhury, Wriju, Tailby, Nicholas D., and Ackerson, Michael R.
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ZIRCON , *LASER ablation inductively coupled plasma mass spectrometry , *OXYGEN detectors , *RARE earth metals , *INDUCTIVELY coupled plasma mass spectrometry , *OXYGEN , *FUGACITY - Abstract
Quantifying the oxygen fugacity (f o 2) of high temperature lithospheric fluids, including hydrothermal systems, presents a challenge because these fluids are difficult to capture and measure in the same manner as quenched glasses of silicate melts. The chemical properties of fluids can however be inferred through mineral proxies that interacted with the fluids through precipitation or recrystallization. Here, we present hydrothermal experiments to quantify the partition coefficients of rare earth elements (REEs) – including redox-sensitive Ce and Eu – between zircon and fluid. Experiments were conducted in a piston cylinder device at temperatures that range from 1200 to 800 °C under f o 2 -buffered conditions in a SiO 2 -ZrO 2 -NaCl-REE-oxide system, and similar experiments were performed in the absence of NaCl (31 total experiments). The f o 2 was buffered to values that range from approximately 3 log units below to 7 log units above the fayalite magnetite quartz equilibrium. Zircon REE concentrations were quantified using laser ablation inductively coupled plasma mass spectrometry whereas the quenched fluids were extracted and measured by solution-based inductively coupled plasma mass spectrometry. Zircon Ce anomalies, quantified relative to La and Pr, exhibit sensitivity to oxygen fugacity and temperature and our preferred calibration is: l o g Ce Ce ∗ D - 1 = (0.237 ± 0.040) × l o g (f o 2) + 9437 ± 640 T K - 5.02 ± 0.38 where the Ce anomalies are calculated from the partition coefficients for La, Ce, and Pr. Zircon Eu anomalies are also a function of oxygen fugacity though they exhibit no systematic dependence on T. Our preferred calibration is described by: Eu Eu ∗ D = 1 1 + 1 0 0.30 ± 0.04 - [ 0.27 ± 0.03 ] × Δ F M Q We performed additional calculations, in which lattice strain parabolas were fit to all non-redox sensitive rare earth elements that were added to the starting composition (i.e., La, Pr, Sm, Gd, Dy, Ho, Tm, Lu) as an alternate means to calculate anomalies. This method yields broadly similar results, though we prefer the La-Pr calibrations due to the non-systematic REE patterns frequently encountered with hydrothermal zircons; e.g., LREE zircon enrichment relative to other REEs. These experiments are applied to quantify the f o 2 of fluids during mineralization of critical element-bearing systems, and separately to calculate the oxygen fugacity values of fluids formed during plate boundary processes. [ABSTRACT FROM AUTHOR]
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- 2024
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9. Diagenetic evolution and effects on reservoir development of the Dengying and Longwangmiao formations, Central Sichuan Basin, Southwestern China.
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Lei Jiang, An-Ping Hu, Yong-Liang Ou, Da-Wei Liu, Yong-Jie Hu, You-Jun Tang, Peng Sun, Yuan-Yuan Liu, Zi-Chen Wang, and Chun-Fang Cai
- Abstract
The deeply buried Lower Cambrian Longwangmiao Formation and Upper Ediacaran Dengying Formation from the Sichuan Basin, China, have a total natural gas reserve up to 3 × 1012 m³. The complex diagenetic evolution and their impacts on the present-day reservoir quality have not been systematically elucidated, hampering the current exploration. Crucially, the integration and comparation diagenetic study on these two formations, which may be able to shed new lights on reservoir formation mechanism, are yet to be systemically evaluated. By compiling geochemistry data, including carbonate U-Pb ages and petrophysics data, coupled with new petrology, trace elements, and strontium isotope data, of various types of diagenetic carbonates, this study aims to decipher the potential links between diagenesis and reservoir development of both formations. Intriguingly, similar diagenetic sequence, which contains five distinctive dolomite phases, is established in both formations. The matrix dolomite (D1) and early dolomite cement (D2) were likely formed by reflux dolomitization, as inferred by their nearly syn-depositional U-Pb ages and elevated δ18O caused by seawater evaporation. The subsequent moderate burial dolomite cement (D3) was most plausibly the product of burial compaction as indicated by its lighter δ18O and slightly younger U-Pb ages compared with D1 and D2. Whereas deep burial dolomite cements (D4 and D5) yield markedly depleted δ18O, elevated 87Sr/86Sr, along with much younger U-Pb ages and higher precipitation temperatures, suggesting that they were likely linked to hydrothermal fluids. Despite the wide occurrence of meteoric and organic acids leaching and thermochemical sulfate reduction, they may have only played a subsidiary role on these reservoirs development. Instead, superior reservoir quality is tightly linked to tectonics as inferred by higher reservoir quality closely related to the well-developed fractures and faults filled with abundant hydrothermal minerals. Notably, good reservoirs in both formations are mainly attributed to high permeability caused by tectonics. Hence, this new contribution emphasizes the crucial role of tectonics on spatially explicit reservoir prediction of deep to ultra-deep (up to > 8000 m) carbonates in the Sichuan Basin, as well as other sedimentary basin analogues in China. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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10. Fingerprinting alteration and mineralization in the iron oxide Cu-Au (IOCG) system using biotite chemistry and monazite geochronology: constraints from the Khetri Copper Belt, western India.
- Author
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Baidya, Abu Saeed, Saha, Rupashree, Pal, Dipak Chandra, and Upadhyay, Dewashish
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IRON oxides ,FERRIC oxide ,BIOTITE ,GEOLOGICAL time scales ,RARE earth metals ,MAGNETITE ,RARE earth oxides - Abstract
In this contribution, we compare textural relations and major-trace element-halogen chemistry of multiple generations of hydrothermal and metamorphic biotite from IOCG deposits located in the Khetri Copper Belt (KCB), western India. We also present U–Pb isotope monazite age and recalculate the chemical age of uraninite using published U and Th and new Pb concentration data. The textural and geochemical data are used to constrain the evolution of the alteration assemblages, the physicochemical characteristics of the fluids, and the timing of alteration/mineralization in the KCB. We compare biotite halogen data with those from other geologic settings including porphyry, Archean gold, and hydrothermal rare earth deposits for deposit type discrimination. In the KCB, biotite was formed by metamorphic processes as well as during multi-stage hydrothermal alteration events involving K ± (Fe + Mg) metasomatism. Among the five biotite groups studied, three hydrothermal types are genetically related to IOCG-style mineralization (REE (phosphate) ± U, LREE (silicate) ± Th ± U, and Cu (sulfide)-Co-U-REE mineralization) and two types (one metamorphic and one hydrothermal) are genetically unrelated to IOCG mineralization. Comparing monazite and uraninite ages with established ages of alteration and mineralization in the belt, we suggest that (1) IOCG mineralization in the KCB is recursive and took place at ~ 1.31 Ga and 0.85–0.82 Ga, (2) hydrothermal biotite unrelated to the IOCG alteration formed at ca. 1.37 Ga, predating both of the IOCG events, and (3) the IOCG biotite types formed during the younger event at 0.85–0.82 Ga. We propose that biotite groups genetically related to the 0.85–0.82 Ga IOCG event crystallized from high-temperature (average: 460 °C; Ti-in-biotite thermometry) and reduced fluids largely below the fayalite-quartz-magnetite buffer. We note compositional differences among the three biotite groups related to the IOCG mineralization and suggest that low concentrations of Li, Cs, Zn, V, Nb, and Ta in biotite may be an indicator of sulfide mineralization in the KCB. We show that crystal-chemical parameters (X
Fe ) and halogen fugacity of fluids (log(fHCl/fH2 O)fluid ) exerted a significant control on the incorporation of Cl in biotite in the KCB. In contrast, trace element concentrations of biotite are largely controlled by temperature and (log(fHCl/fH2 O)fluid but do not appear to be controlled by crystal-chemical parameters. Compared to hydrothermal biotite from other mineralization settings (porphyry, magmatic-hydrothermal rare earth metal, Archean-Au deposits), biotite in the KCB and several other IOCG deposits precipitated from fluids with higher HCl activity, which we interpret to reflect the direct or indirect involvement of evaporite in their fluid source. The comparison of trace element data shows a significant difference in biotite chemistry in magmatic and hydrothermal settings and in different types of hydrothermal deposits such as IOCG, porphyry, and Archean Au deposits. We think that these elements may be useful for building robust discriminators in the future. [ABSTRACT FROM AUTHOR]- Published
- 2023
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11. The origin and evolution of the ore-forming fluids at the Manondo-Choma gold prospect, Kirk range, southern Malawi
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Chisambi Joshua and von der Heyden Bjorn
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fluid inclusion ,gold mineralization ,kirk range ,hydrothermal fluids ,Geology ,QE1-996.5 - Abstract
This study provides an in-depth analysis of fluid inclusions (FIs) and stable isotopes from the Manondo-Choma gold prospect in southern Malawi to understand the ore-forming mechanisms, genesis, and evolution of the hydrothermal fluids responsible for gold mineralization at the Manondo-Choma gold prospect. FIs and microthermometry studies were carried out on mineralized quartz veins from the area. The Manondo-Choma gold prospect is located in the southern Malawi within the Kirk range. Gold is mostly found in quartz veins within metamorphic rocks, such as gneiss and schists, and is structurally controlled by the NE–SW ductile shear zones. Gold mineralization is linked to quartz sulfide veins. Mineralization occurs in the following three stages: early, middle, and late, of which the middle stage is more plorific. The following three FI types were recognized in the quartz veins: pure carbonic, aqueous carbonic (CO2–H2O) and aqueous (H2O–NaCl) inclusions. Gold and associated mineralization were likely precipitated due to the lowering of pressure and fluid immiscibility. Oxygen isotope data indicate that the source of ore-forming fluids at the Manondo-Choma gold prospect was largely metamorphic in origin with minor magmatic input.
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- 2023
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12. Complexation of REE in Hydrothermal Fluids and Its Significance on REE Mineralization
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Jian Di and Xing Ding
- Subjects
rare earth elements ,REE ,complexation ,speciation ,REE complex ,hydrothermal fluids ,Mineralogy ,QE351-399.2 - Abstract
Rare earth elements (REEs) have recently been classified as critical and strategic metals due to their importance in modern society. Research on the geochemical behaviors and mineralization of REEs not only provides essential guidance for mineral exploration but also holds great significance in enhancing our understanding of Earth’s origin and evolution. This paper reviews recent research on the occurrence characteristics, deposit types, and hydrothermal behaviors of REEs, with a particular focus on comparing the complexation and transport of REEs by F, Cl, S, C, P, OH, and organic ligands in fluids. Due to the very weak hydrolysis of REE ions, they predominantly exist as either hydrated ions or free ions in low-temperature and acidic to weakly basic fluids. As the ligand activity increases, the general order of transporting REEs is Cl− ≈ SO42− > F− ≈ PO43− > CO32− > OH− under acidic conditions or OH− > SO42− ≈ Cl− > F− under alkaline conditions. In acidic to neutral hydrothermal systems, the transport of REEs is primarily dominated by SO42− and Cl− ions while the deposition of REEs could be influenced by F−, CO32−, and PO43− ions. In neutral to alkaline hydrothermal systems, REEs mainly exist in fluids as hydroxyl complexes or other ligand-bearing hydroxyl complexes. Additionally suggested are further comprehensive investigations that will fill significant gaps in our understanding of mechanisms governing the transport and enrichment of REEs in hydrothermal fluids.
- Published
- 2024
- Full Text
- View/download PDF
13. A Review of the Metallogenic Mechanisms of Sandstone-Type Uranium Deposits in Hydrocarbon-Bearing Basins in China
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Guihe Li, Jia Yao, Yiming Song, Jieyun Tang, Hongdou Han, and Xiangdong Cui
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hydrocarbon-bearing basins ,sandstone-type uranium deposits ,metallogenic mechanisms ,hydrothermal fluids ,Electrical engineering. Electronics. Nuclear engineering ,TK1-9971 - Abstract
As a valuable mineral resource, uranium is extensively utilized in nuclear power generation, radiation therapy, isotope labeling, and tracing. In order to achieve energy structure diversification, reduce dependence on traditional fossil fuels, and promote the sustainable development of energy production and consumption, research on the metallogenic mechanisms and related development technologies of uranium resources has been one of the focuses of China’s energy development. Sandstone-type uranium deposits make up approximately 43% of all deposits in China, making them the most prevalent form of uranium deposit there. Sandstone-type uranium deposits and hydrocarbon resources frequently coexist in the same basin in China. Therefore, this study summarizes the spatial and chronological distribution, as well as the geological characteristics, of typical sandstone-type uranium deposits in China’s hydrocarbon-bearing basins. From the perspectives of fluid action, geological structure, and sedimentary environment, the metallogenic mechanisms of sandstone-type uranium deposits in hydrocarbon-bearing basins are explored. According to the research, the rapid reduction effect of oil and gas in the same basin is a major factor in the generation of relatively large uranium deposits. Additionally, ions such as CO32− and HCO3− in hydrothermal fluids of hydrocarbon-bearing basins, which typically originate from dispersed oil and gas, are more conducive to uranium enrichment and sedimentation. This study provides guidance for efficient sandstone-type uranium deposit exploration and production in hydrocarbon-bearing basins and helps to achieve significant improvements in uranium resource exploitation efficiency.
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- 2023
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14. The Vasilinovskoe Pt–Pd Occurrence: A New Type of Noble Metal Mineralization in the Urals.
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Vikentyev, I. V., Tyukova, E. E., Mokri, V. D., Ivanova, Yu. N., Varlamov, D. A., Shuisky, A. S., Groznova, E. O., Sobolev, I. D., and Bortnikov, N. S.
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PRECIOUS metals , *TELLURIDES , *METAL compounds , *FIRE assay , *SULFIDE minerals , *MINERALIZATION , *POLYSULFIDES - Abstract
A new Vasilinovskoe Pt–Au–Pd occurrence found near the settlement of Kharp (Yamal-Nenets Autonomous Okrug) is described for the first time. The occurrence is related to amphibolized gabbroids and subordinate pyroxenites of the mostly Late Ordovician Kershor complex. These rocks host mineralization zones with a visible thickness of 0.5–50 m and 3–5 vol % (rarely more) of sulfides. The feldspar–quartz, epidote, and other veinlets are often present in areas with dispersed or small-pocket sulfide dissemination. According to the fire assay analysis, the Pd, Au, and Pt contents of sulfide-rich samples weighing 0.5–1.0 kg from low-sulfide zones reach 1.4, 0.8, and 0.2 g/t, respectively. The PGE minerals include abundant micron-sized Pd tellurides: merenskite PdTe2, temagamite Pd3HgTe3, kotulskite PdTe, and other noble metal compounds: sadberiite PdSb, arsenopalladinite Pd8(As,Sb)3, and others. In addition to these Pd minerals, the magnetite–chalcopyrite–pyrite assemblage contains microinclusions of native silver, native bismuth, and native tin. The late polysulfide–feldspar–carbonate–quartz assemblage hosts Au and Ag tellurides, native gold (including mercurious), Se-bearing argentite, and greenockite. The formation of noble metal assemblages is related to late magmatic processes, as well as the redistribution of ore matter by later magmatic hydrothermal fluids down to a temperature of ~250°С; the pressure decreased from ~0.9‒1.3 to ~0.4‒0.5 kbar. [ABSTRACT FROM AUTHOR]
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- 2023
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15. Experimental study of apatite-fluid interaction and partitioning of rare earth elements at 150 and 250 °C.
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Caleb Chappell, J., Gysi, Alexander P., Monecke, Thomas, and Chang, Zhaoshan
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APATITE , *RARE earth metals , *SATURATION vapor pressure , *HYDROTHERMAL alteration , *METAMORPHIC rocks , *IGNEOUS rocks , *DISSOLUTION (Chemistry) , *PRECIPITATION (Chemistry) - Abstract
Apatite is a common accessory phase in igneous and metamorphic rocks. Its stability in magmatic-hydrothermal and hydrothermal systems is known to be a key control on the mobility of rare earth elements (REE). To better constrain how apatite is altered during fluid-rock interaction at comparably low temperatures, batch-type apatite dissolution experiments were conducted at 150 and 250 °C at saturated water vapor pressure in acidic to mildly acidic (pH of 2–4) aqueous fluids having variable salinities (0, 0.5, and 5 wt% NaCl). The study reveals the dominance of apatite dissolution textures with the formation of micrometer-scale etch pits and dissolution channels developing prominently along the c-axis of the apatite crystals. Backscattered electron imaging shows an increase in apatite dissolution with increasing temperature and upon reacting the crystals with more acidic and higher salinity starting fluids. This study also demonstrates an increase in dissolved REE in the experimental fluids corroborating with the observed apatite dissolution behavior. Backscattered electron imaging of secondary minerals formed during apatite dissolution and scanning electron microscopy-based energy dispersive spectrometry peaks for Ca, P, and REE support the formation of monazite-(Ce) and minor secondary apatite as deduced from fluid chemistry (i.e., dissolved P and REE concentrations). The studied apatite reaction textures and chemistry of the reacted fluids both indicate that the mobility of REE is controlled by the dissolution of apatite coupled with precipitation of monazite-(Ce), which are enhanced by the addition of NaCl in the starting fluids. This coupled process can be traced by comparing the REE to P ratios in the reacted fluids with the stoichiometry of the unreacted apatite crystals. Apatite metasomatized at temperatures <300 °C is therefore controlled by dissolution rather than dissolution-reprecipitation reactions commonly observed in previous experiments conducted above 300 °C. Furthermore, this study demonstrates that the presence of NaCl plays a crucial role in increasing the solubility of apatite, which controls the availability of REE to form secondary phosphates even in mildly acidic aqueous fluids. This implies that both the effects of acidity/alkalinity of the fluids and the role of dissolved alkalis (NaCl and KCl), need to be considered for understanding the controls on REE in magmatic-hydrothermal systems. Lastly, the experiments of this study expand the known conditions at which apatite is susceptible to be overprinted by hydrothermal alteration from 900 °C down to 150 °C and highlights the necessity of appropriately screening apatite grains using backscattered electron and cathodoluminescence imaging for signs of hydrothermal alteration textures in igneous apatite. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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16. Magmatic–Hydrothermal Transport of Metals at Arc Plutonic Roots: Insights from the Ildeus Mafic–Ultramafic Complex, Stanovoy Suture Zone (Russian Far East).
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Kepezhinskas, Pavel, Berdnikov, Nikolai, Kepezhinskas, Nikita, Krutikova, Valeria, and Astapov, Ivan
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SUTURE zones (Structural geology) , *SPHALERITE , *METALS , *SILVER sulfide , *COPPER , *IGNEOUS intrusions , *TELLURIDES , *SILVER alloys - Abstract
The Ildeus mafic–ultramafic complex represents plutonic roots of a Triassic magmatic arc tectonically emplaced into the thickened uppermost crust beneath the Mesozoic Stanovoy collided margin. The mafic–ultramafic complex cumulates host Ni-Co-Cu-Pt-Ag-Au sulfide-native metal-alloy mineralization produced through magmatic differentiation of subduction-related primary mafic melt. This melt was sourced in the metal-rich sub-arc mantle wedge hybridized by reduced high-temperature H-S-Cl fluids and slab/sediment-derived siliceous melts carrying significant amounts of Pt, W, Au, Ag, Cu and Zn. Plutonic rocks experienced a pervasive later-stage metasomatic upgrade of the primary sulfide–native metal–alloy assemblage in the presence of oxidized hydrothermal fluid enriched in sulfate and chlorine. The new metasomatic assemblage formed in a shallow epithermal environment in the collided crust includes native gold, Ag-Au, Cu-Ag and Cu-Ag-Au alloys, heazlewoodite, digenite, chalcocite, cassiterite, galena, sphalerite, acanthite, composite Cu-Zn-Pb-Fe sulfides, Sb-As-Se sulfosalts and Pb-Ag tellurides. A two-stage model for magmatic–hydrothermal transport of some siderophile (W, Pt, Au) and chalcophile (Cu, Zn, Ag) metals in subduction–collision environments is proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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17. Phosphate Petrochronology of the Belcina REE Mineralization (Ditrău Alkaline Massif, Romania).
- Author
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Klötzli, Urs, Burda, Jolanta, and Tibuleac, Paul
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MINERALIZATION , *PHOSPHATES , *PLAGIOCLASE , *DAMS , *MAGMATISM , *APATITE - Abstract
A notable REE mineralization in Europe is associated with the Ditrău Alkaline Massif (DAM) in the Eastern Carpathians (Romania). It is an expression of the latest hydrothermal phase in the DAM and is found in the form of mineralized carbonate veins cross-cutting the complex in the NW (Jolotca region) and the SE (Belcina region) parts of the DAM. In the Belcina veins monazite-(Ce), xenotime-(Y) and apatite, together with Fe-Mg-rich carbonate, thorite, thorogummite, gedrite and plagioclase are rock-forming. Three different textural and chemical types of the monazite-(Ce) and the xenotime-(Y) document a three-stage evolution. The relative phosphate age succession (from older to younger) thereby is xnt1 > xnt2 (>)+ mnz1 + Fe2O3 + Fe-gedrite > mnz2 + Fe-dolomite (+ plagioclase) > mnz3 + xnt3 + apatite. Phosphate chemistry shows that these crystallized from hydrothermal fluids, whereby each phosphate type follows a separate evolutionary path suggesting growth from (at least) three independent and successive hydrothermal fluids. Chemistry and pathways within the DAM suggest that these hydrothermal fluids could be derived from a subsurface carbonatitic intrusion. Mnz1,2 and xnt1,2 ages are tightly clustered at 215.8 ± 0.7 Ma (Norian, Upper Triassic). The third-generation phosphate ages are younger, but are associated with large analytical uncertainties and did not deliver geologically useful ages. The mean age of ca. 216 Ma is interpreted as the timing of the Belcina REE mineralization, which together with the fluid chemistry, supports a model of the presence of a late-stage, independent carbonatitic intrusion about 10 Ma after the main igneous activity (ca. 235–225 Ma) forming the DAM, synchronous with extension-related magmatism in the region. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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18. A Review of the Metallogenic Mechanisms of Sandstone-Type Uranium Deposits in Hydrocarbon-Bearing Basins in China.
- Author
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Li, Guihe, Yao, Jia, Song, Yiming, Tang, Jieyun, Han, Hongdou, and Cui, Xiangdong
- Subjects
- *
URANIUM mining , *RESOURCE exploitation , *MINES & mineral resources , *URANIUM enrichment , *ENERGY development , *RADIOLABELING , *METALLOGENY , *URANIUM - Abstract
As a valuable mineral resource, uranium is extensively utilized in nuclear power generation, radiation therapy, isotope labeling, and tracing. In order to achieve energy structure diversification, reduce dependence on traditional fossil fuels, and promote the sustainable development of energy production and consumption, research on the metallogenic mechanisms and related development technologies of uranium resources has been one of the focuses of China's energy development. Sandstone-type uranium deposits make up approximately 43% of all deposits in China, making them the most prevalent form of uranium deposit there. Sandstone-type uranium deposits and hydrocarbon resources frequently coexist in the same basin in China. Therefore, this study summarizes the spatial and chronological distribution, as well as the geological characteristics, of typical sandstone-type uranium deposits in China's hydrocarbon-bearing basins. From the perspectives of fluid action, geological structure, and sedimentary environment, the metallogenic mechanisms of sandstone-type uranium deposits in hydrocarbon-bearing basins are explored. According to the research, the rapid reduction effect of oil and gas in the same basin is a major factor in the generation of relatively large uranium deposits. Additionally, ions such as CO32− and HCO3− in hydrothermal fluids of hydrocarbon-bearing basins, which typically originate from dispersed oil and gas, are more conducive to uranium enrichment and sedimentation. This study provides guidance for efficient sandstone-type uranium deposit exploration and production in hydrocarbon-bearing basins and helps to achieve significant improvements in uranium resource exploitation efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
19. Direct H2S, HS− and pH Measurements of High‐Temperature Hydrothermal Vent Fluids With In Situ Raman Spectroscopy.
- Author
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Li, Lianfu, Li, Zimeng, Zhong, Richen, Du, Zengfeng, Luan, Zhendong, Xi, Shichuan, and Zhang, Xin
- Subjects
- *
HYDROTHERMAL vents , *RAMAN spectroscopy , *SULFIDE minerals , *FLUIDS , *CHEMICAL detectors , *EXTREME environments - Abstract
Hydrothermal H2S is an important energy source for hydrothermal ecosystems. However, it is difficult to obtain accurate hydrogen sulfide concentrations in high‐temperature hydrothermal fluids because they are highly susceptible to oxidation and compositional variability with mixing. In this study, a new in situ approach for measuring H2S, HS− and pH in hydrothermal fluids was developed and applied to the detections of Okinawa Trough hydrothermal activities. The in situ total H2S concentrations in the Jade and Biwako fluids were determined to be 31.4 and 76.7 mmol/kg, respectively. The in situ measured pH of the Jade fluids was determined to be 6.3, which has exceeded that of a neutral fluid at a specific temperature and pressure, indicating that the pH of Jade fluids is weakly alkaline. The pH transition of hydrothermal fluids from alkaline to acidic may be attributed to the thermal decomposition of organic matter and sulfide precipitation. Plain Language Summary: Hydrogen sulfide is one of the important gases released from hydrothermal systems, but it is difficult to measure its concentration accurately because it is highly susceptible to oxidation and compositional variability with mixing. The in situ pH of hydrothermal fluids is also a challenging parameter to obtain, as it is significantly affected by factors such as temperature variation and mineral precipitation. Traditional methods of sampling followed by laboratory analysis inevitably result in changes in hydrogen sulfide concentration and pH. Furthermore, conventional chemical sensors and pH electrodes cannot withstand the high‐temperature extreme environment of hydrothermal vents, making it impossible to directly obtain these parameters at the high‐temperature vent orifice. Here, we developed a new method for in situ measurement of the H2S‐HS− ionization equilibrium system based on Raman spectroscopy and used it to determine the H2S concentration and in situ pH of hydrothermal fluids in the Okinawa Trough. Key Points: The first in situ measured pH of high‐temperature hydrothermal vent fluids at arc‐back arc basins was reportedA new approach to obtain in situ H2S/HS− concentration and in situ pH of high temperature hydrothermal vent fluids was establishedThe pH transition of hydrothermal fluids from alkaline to acidic should attributes to the precipitation of sulfide minerals [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
20. Geochronology, Geochemistry, Fluid Inclusion and C, O Isotope Compositions of Calcite Veins in the Paleogene of the Jiangling Basin, South China: Implications for Fluid Evolution and Brine Potash Mineralization.
- Author
-
YU, Xiaocan, WANG, Chunlian, LIU, Chenglin, WANG, Jiuyi, and SHEN, Lijian
- Subjects
- *
FLUID inclusions , *GEOLOGICAL time scales , *GEOCHEMISTRY , *RARE earth metals , *VEINS (Geology) , *CALCITE , *WATER-rock interaction - Abstract
Deep‐seated potassium‐rich brines were identified in the Jiangling Basin, South China. Although magmatic‐hydrothermal sources have been proposed, the relationship between brine‐type potash mineralization and volcanism remains unclear. In this study, U‐Pb geochronology, geochemistry, fluid inclusion and C‐O isotopic compositions of hydrothermal vein minerals in the Jiangling Basin are examined. Laser ablation U‐Pb dating of calcite veins indicates that the ages are slightly younger than the formation age of the Balingshan basalt. Fluid inclusions in hydrothermal minerals show medium–low homogenization temperatures (160–220°C) and low salinities (0.14 to 4.9 wt% NaCl eqv.) and densities (0.882–0.944 g/cm3). The liquid compositions of fluid inclusions in calcite veins from sedimentary strata have higher contents of potassium, compared with those from basalt. The coupled negative δ13CPDB (–10.3‰ to −8.0‰) and positive δ18OSMOW (17.4‰ to 20.7‰) values imply that calcite precipitation resulted from CO2 degassing of the basaltic magmatic fluids, as indicated by the gas composition of these inclusions in hydrothermal minerals. Rare earth element patterns indicate that water‐rock interaction between hydrothermal fluids and sedimentary wall rocks contributed to the calcite precipitation in sedimentary strata. It is proposed that high‐temperature water‐rock interaction between magmatic fluids and sedimentary strata resulted in the potassium enrichment in fluids, interpreted as one of the sources of potassium‐rich brines in the Jiangling Basin. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
21. Apatite evidence for a fluid-saturated, crystal-rich magma reservoir forming the Quellaveco porphyry copper deposit (Southern Peru)
- Author
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Nathwani, Chetan L., Large, Simon J. E., Brugge, Emily R., Wilkinson, Jamie J., and Buret, Yannick
- Subjects
Apatite ,Copper ,Hydrothermal fluids ,Solid solutions ,Copper industry ,Reservoirs ,Porphyry ,Earth sciences - Abstract
Large volume, intermediate-felsic magma reservoirs are the source of melt and mineralising fluids which generate porphyry copper deposits. Cooling and crystallisation of hydrous magmas drives the exsolution and expulsion of a magmatic volatile phase-a process which remains challenging to constrain in porphyry Cu systems where the record of magma volatile compositions is rarely preserved. Here, we use the halogen compositions of apatite inclusions shielded as inclusions within zircon to constrain volatile evolution in magma reservoirs which pre-date and are synchronous with porphyry Cu mineralisation at Quellaveco, Southern Peru. Geochemical and textural data confirm that the zircon-included apatites escaped re-equilibration with hydrothermal fluids, unlike apatites found in the groundmass of the same rocks. We, therefore, recommend that future studies attempting to reconcile magmatic volatile budgets using apatite in porphyry Cu systems should focus on apatite inclusions in zircon. By combining the apatite inclusion data with numerical modelling, we find evidence that the magma reservoir sourcing porphyry Cu mineralisation remained fluid-saturated for the entire period recorded by apatite crystallisation. By contrast, the pre-mineralisation batholith shows more variable, potentially fluid-undersaturated behaviour. Our modelling suggests that in order to attain the porphyry melt volatile compositions inferred from apatite, the magma reservoir must have exsolved a large proportion of its volatile budget, consistent with having been held at high crystallinity (40-60% crystals). This crystallisation interval coincides with peak chlorine and copper extraction from intermediate-felsic magmas, and would have permitted efficient fluid migration and accumulation at the roof of the system. We suggest that the storage of large-volume, long-lived, crystal-rich magma reservoirs in magmatic arcs may be a critical step in generating world-class porphyry copper deposits., Author(s): Chetan L. Nathwani [sup.1] [sup.2] [sup.4], Simon J. E. Large [sup.1], Emily R. Brugge [sup.1] [sup.2], Jamie J. Wilkinson [sup.1] [sup.2], Yannick Buret [sup.1] Author Affiliations: (1) grid.35937.3b, 0000 [...]
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- 2023
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- View/download PDF
22. Hydrothermal Fluids and Where to Find Them: Using Seismic Attenuation and Anisotropy to Map Fluids Beneath Uturuncu Volcano, Bolivia.
- Author
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Hudson, T. S., Kendall, J. M., Blundy, J. D., Pritchard, M. E., MacQueen, P., Wei, S. S., Gottsmann, J. H., and Lapins, S.
- Subjects
- *
SEISMIC anisotropy , *VOLCANIC hazard analysis , *SEISMIC waves , *SHEAR waves , *SEISMIC tomography , *VOLCANOES , *PROSPECTING - Abstract
Mapping fluid accumulation in the crust is pertinent for numerous applications including volcanic hazard assessment, geothermal energy generation, and mineral exploration. Here, we use seismic attenuation tomography to map the distribution of fluids in the crust below Uturuncu volcano, Bolivia. Seismic P wave and S wave attenuation, as well as their ratio (QP/QS), constrain where the crust is partially and fully fluid‐saturated. Seismic anisotropy observations further constrain the mechanism by which the fluids accumulate, predominantly along aligned faults and fractures in this case. Furthermore, subsurface pressure‐temperature profiles and conductivity data allow us to identify the most likely fluid composition. We identify shallow regions of both dry and H2O/brine‐saturated crust, as well as a deeper supercritical H2O/brine column directly beneath Uturuncu. Our observations provide a greater understanding of Uturuncu's transcrustal hydrothermal system, and act as an example of how such methods could be applied to map crustal fluid pathways and hydrothermal/geothermal systems elsewhere. Plain Language Summary: Locating where water/brines, gas, and molten rock are in the crust is important various applications, including assessing volcanic hazard, generating geothermal energy, and exploring for critical metals. Here, we map how seismic energy is absorbed (or attenuated) in Earth's crust, in order to look for fluids in the subsurface. We do this at Uturuncu volcano, Bolivia. This allows us to imagine whether the crust is partly or fully saturated with fluids. We also use seismic anisotropy to help us understand how the seismic energy is absorbed. We then use other data, including pressure, temperature, and electrical conductivity data to identify what fluids can be found where. We find that we can map where water/brines are and whether they contain carbon dioxide (i.e., are "sparkling") or not (i.e., "still"). Key Points: Seismic attenuation tomography can map crustal fluids and elucidate whether fluids are compressible, incompressible, or supercriticalS wave velocity anisotropy suggests that crustal fluids at Uturuncu migrate and/or accumulate along fracturesSeismic attenuation combined with temperature, pressure, and conductivity measurements can provide constraint on fluid composition [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
23. The Impact of Hydrothermal Fluids on Porosity Enhancement and Hydrocarbon Migration in Qamchuqa Formation, Lower Cretaceous, Kirkuk Oil Company.
- Author
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Salih, Namam M.
- Subjects
- *
PETROPHYSICS , *CARBONATE rocks , *HYDROCARBONS , *DOLOMITE , *RESERVOIR rocks , *POROSITY , *GOLD ores - Abstract
The Lower Cretaceous reservoir core samples from the upper part of Qamchuqa Formation, Baba Dome, Kirkuk Oil Company, show evidence for multistage episodes of dolomitization and a complex diagenetic history. Optical microscope reveals muti-phase of diagenesis: an early stage of diagenesis and its alteration, later, by evaporated seawater under near-surface setting conditions, followed by different event of dolomitization. The stylolite microstructures postdate anhydrite and early matrix dolomite crystals (DI) and predated the coarse rhombohedral (DII) and saddle dolomite crystals (SD), which were formed under a deep burial realm. High-resolution data from stable isotopes integrated with intensive optical observation, ImageJ software, and litho-log are utilized to establish a qualified methods for mapping a better image of hydrothermal diagenesis under subsurface conditions. These methods revealed different types of dolomites, mostly focused on fractures and void spaces, and the paragenetic sequence shows the complex history of diagenetic carbonate rocks hosted in the limestone of Qamchuqa Formation. The sequence is started from older to younger as follow: Micritization, early anhydrite mineral formation, early dolomite, stylolization, rhombohedral dolomite, and saddle dolomite crystals. The early dolomite phase is usually corroded by hydrocarbon phase, and, geometrically, the hydrocarbon phase is overgrown by the early dolomite. Therefore, the dolomitizing fluids enhanced the porosity system and had positive impact on the hydrocarbon movement. This phase of dolomite and anhydrite formation were associated with the first groups of δ18OVPDB and δ13CVPDB data, a narrow range of oxygen values, and inverse Js of Lohmann curve fits towards the near-surface and shallow diagenetic settings. Detailed optical microscope and supportive data from oxygen-carbon isotopes of saddle dolomite confirm the presence of hot fluids under subsurface condition. The latter data were supported by light δ18OVPDB and constant heavy δ13CVPDB, which indicates a hot fluid possibly circulated in deep burial conditions, and this is channeled along the fracture and pore spaces, consistent with hydrocarbon migration. These pore spaces influenced by leaching were hydrocarbon migrations associated with hot fluids under deep sitting conditions. However, a remarkable part of pristine microfacies of host limestone was preserved. In summary, this study will add a new understanding and insight into the origin, genesis, and timing of these dolomites and their direct connection to hydrocarbon exploration and development in most reservoir oil rocks, which are exposed to hydrothermal fluids. Additionally, the study adds new data on hydrothermal fluids in subsurface conditions, whereas most of the previous reported work has mostly focused on exposed rock. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
24. Fe-Cu (Ag, Au) ore deposits and thermodynamic conditions of the mineralizing hydrothermal fluids of the Chouichia abandoned mine (Northern Tunisia): mineral geothermometers and occurrence evidences of native gold traces, silver and Ag-related minerals.
- Author
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Ben Aissa, Rania, Ben Aissa, Wiem, Ben Haj Amara, Abdessalem, and Tlig, Said
- Subjects
ABANDONED mines ,ORE deposits ,HYDROTHERMAL deposits ,MICROCHEMISTRY ,OROGENY - Abstract
The Cu-Fe ore deposits of the Chouichia abandoned mine are considered among the most complex mineralizations in the northwest Tunisia due, in particular, to their multi-phased poly-metallic character. The deposits fit into the front of the North African thrust domain of Alpine and Atlas orogenies. The mineralization is associated with hydrothermal fluid circulations through the Fej-Et-Tamer deep-rooted accident. Petrography, microanalysis by transmission electron microscopy and scanning electron microprobe allowed to determine the mineral association, the paragenetic phases and to retrace the thermodynamic conditions of the mineralizing fluids. Five mineralizing phases are defined. Native silver, silver minerals (proustite-pyrargyrite, acanthite-argentite), native gold, molybdenite, cinnabar, pyrrhotite, barite and bornite are first observed. Native silver is frequently in association with silver minerals during the later mineralizing phases. Native gold is observed in polished sections in intergranular vug of siliceous facies or as inclusions in quartz. Sulfides and sulfosalts can be enriched in many metallic elements (Bi, Hg, Ag, Au, Sn). The calculated empirical formulae for the Fahlore's solid solution (tetrahedrite-tennantite) show high Cu values reaching 11.832 apfu for tetrahedrite. According to the literature (Repstock et al. 2016; Shapovalova et al. 2019), such a Cu-excess makes the tetrahedrite from the Chouichia deposits the richest in copper so far cited. The thermodynamic approach using minerals/mineral associations as geothermometers suggests mineralizing fluid temperatures, for the main vein phases, between 200 and 500 °C providing a subsurface heat source. The last mineralizing phase is marked by native silver, silver minerals and by cooling below 178.85 °C. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
25. Coupled Solubility of Cu and Ag in Chloride-Bearing Hydrothermal Fluids (350–650°С, 1000–1500 bar).
- Author
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Rubtsova, E. A., Tagirov, B. R., Akinfiev, N. N., Reukov, V. L, Koroleva, L. A., Nikolaeva, I. Yu., Tarnopolskaya, M. E., and Volchenkova, V. A.
- Abstract
The coupled solubility of Cu
(cr) and Ag(cr) was measured in acidic chloride solutions at 350°C/1000 bar, 450°C/1000 bar, and 653°C/1450 bar in a wide range of chloride concentrations (0.02m HCl + (0–15m) NaCl). The experiments were performed using the autoclave (350, 450°C) and ampoule (653°C) techniques, the dissolved metal concentrations were measured after quenching the experimental system. The equilibrium constants of the reaction combining the dominant forms of transport of the metals are determined: The calculated reaction constant is independent of chloride concentration. It is known that dominates in the studied chloride concentration range. Therefore, the main copper form of occurrence is in all experimental fluids with chloride content up to 47 wt %, which is close to the NaCl saturation limit. The constant of the coupled Cu and Ag solubility was determined for the experimental PT parameters as log = 2.65 ± 0.20 (350°С/1000 bar), 2.28 ± 0.10 (450°С/1000 bar), and 1.49 ± 0.34 (653°С/1450 bar). These data, together with values from the literature for temperatures from 200 to 900°C and pressure up to 2000 bar, were fitted to the density model equation: log = 1.066 + 1.108 × 103 T(K)–1 + 3.585 log d(w) – 1.443log d(w) × 103 T(K)–1 , where d(w) is the pure water density. According to these data, copper is much more soluble in chloride solutions compared to silver, but the difference in the solubility decreases with the increase in temperature. Reliable literature data on the silver solubility constant allow that of copper solubility to be calculated: log = 1.39 ± 0.20 (350°С, 1000 bar), 1.91 ± 0.10 (450°С, 1000 bar), and 2.06 ± 0.34 (653°С, 1450 bar). The new values of are combined with reliable literature data to calculate the density-model parameters. The obtained density-model equation can be used to calculate the copper solubility constant up to 800°C and pressures up to 2000 bar: log = 6.889 – 3.298 × 103 T(K)–1 + 8.694log d(w) – 4.807log d(w) × 103 T(K)–1 . The solubility of chalcopyrite in the system with pyrite–hematite–magnetite and K-feldspar–muscovite–quartz mineral buffer assemblages is discussed. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
26. Direct H2S, HS− and pH Measurements of High‐Temperature Hydrothermal Vent Fluids With In Situ Raman Spectroscopy
- Author
-
Lianfu Li, Zimeng Li, Richen Zhong, Zengfeng Du, Zhendong Luan, Shichuan Xi, and Xin Zhang
- Subjects
hydrothermal fluids ,in situ detection ,in situ pH ,H2S ,Raman spectroscopy ,Geophysics. Cosmic physics ,QC801-809 - Abstract
Abstract Hydrothermal H2S is an important energy source for hydrothermal ecosystems. However, it is difficult to obtain accurate hydrogen sulfide concentrations in high‐temperature hydrothermal fluids because they are highly susceptible to oxidation and compositional variability with mixing. In this study, a new in situ approach for measuring H2S, HS− and pH in hydrothermal fluids was developed and applied to the detections of Okinawa Trough hydrothermal activities. The in situ total H2S concentrations in the Jade and Biwako fluids were determined to be 31.4 and 76.7 mmol/kg, respectively. The in situ measured pH of the Jade fluids was determined to be 6.3, which has exceeded that of a neutral fluid at a specific temperature and pressure, indicating that the pH of Jade fluids is weakly alkaline. The pH transition of hydrothermal fluids from alkaline to acidic may be attributed to the thermal decomposition of organic matter and sulfide precipitation.
- Published
- 2023
- Full Text
- View/download PDF
27. Influence of shallow hydrothermal fluid release on the functioning of phytoplankton communities
- Author
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Chloé Tilliette, Frédéric Gazeau, Gemma Portlock, Mar Benavides, Sophie Bonnet, Catherine Guigue, Nathalie Leblond, Caroline Lory, Dominique Marie, Maryline Montanes, Elvira Pulido-Villena, Géraldine Sarthou, Marc Tedetti, Maria-Elena Vorrath, Hannah Whitby, and Cécile Guieu
- Subjects
hydrothermal fluids ,phytoplankton communities ,trace metal ,fertilizing effect ,toxic effect ,Western Tropical South Pacific ,Science ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Abstract
In the Western Tropical South Pacific (WTSP) Ocean, a hotspot of dinitrogen fixation has been identified. The survival of diazotrophs depends, among others, on the availability of dissolved iron (DFe) largely originating, as recently revealed, from shallow hydrothermal sources located along the Tonga-Kermadec arc that fertilize the Lau Basin with this element. On the opposite, these fluids, released directly close to the photic layer, can introduce numerous trace metals at concentrations that can be toxic to surface communities. Here, we performed an innovative 9-day experiment in 300 L reactors onboard the TONGA expedition, to examine the effects of hydrothermal fluids on natural plankton communities in the WTSP Ocean. Different volumes of fluids were mixed with non-hydrothermally influenced surface waters (mixing ratio from 0 to 14.5%) and the response of the communities was studied by monitoring numerous stocks and fluxes (phytoplankton biomass, community composition, net community production, N2 fixation, thiol production, organic carbon and metal concentrations in exported material). Despite an initial toxic effect of hydrothermal fluids on phytoplankton communities, these inputs led to higher net community production and N2 fixation rates, as well as elevated export of organic matter relative to control. This fertilizing effect was achieved through detoxification of the environment, rich in potentially toxic elements (e.g., Cu, Cd, Hg), likely by resistant Synechococcus ecotypes able to produce strong binding ligands, especially thiols (thioacetamide-like and glutathione-like compounds). The striking increase of thiols quickly after fluid addition likely detoxified the environment, rendering it more favorable for phytoplankton growth. Indeed, phytoplankton groups stressed by the addition of fluids were then able to recover important growth rates, probably favored by the supply of numerous fertilizing trace metals (notably Fe) from hydrothermal fluids and new nitrogen provided by N2 fixation. These experimental results are in good agreement with in-situ observations, proving the causal link between the supply of hydrothermal fluids emitted at shallow depth into the surface layer and the intense biological productivity largely supported by diazotrophs in the WTSP Ocean. This study highlights the importance of considering shallow hydrothermal systems for a better understanding of the biological carbon pump.
- Published
- 2023
- Full Text
- View/download PDF
28. Distribution of gold derived from hydrothermal fluids on the modern seafloor and its impact on the gold budget of seawater
- Author
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Wei Huang, Jin Liang, Jingfang Lu, Fanghui Hou, Panfeng Li, and Ruyong Cui
- Subjects
gold ,hydrothermal fluids ,sulfides ,metalliferous sediments ,budget ,residence time ,Science ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Abstract
The modern seafloor hydrothermal system plays a significant role in the cycling of energy and mass between the internal and external layers of the oceanic crust and upper mantle. It continues to supply hydrothermal fluids containing three to five orders of magnitude more gold into the ocean than the amount typically present in deep seawater. It has a considerable impact on the distribution and budget of gold with respect to the large geological inventory of the ocean along with other input sources such as river water. The large amount of various types of data compiled for this study reveals that only about 0.3% of the annual hydrothermal flux of gold (2618.3 kg/a) injected into the overlying seawater column as a dissolved phase is eventually trapped in sulfide deposits near vent sites on the seafloor, while about 0.8% is trapped in metalliferous sediments that fall out from the distal nonbuoyant plume. The remaining ~98.9% of gold is delivered into the depths of the global open ocean. The global budget of gold in seawater (about 1.4 × 107 kg), the annual flux of hydrothermal fluids at the seafloor (about 2.6 × 103 kg/a), the amount delivered by river water (about 7.2 × 104 kg/a), and significant estuarine removal (15%) allows us to estimate the residence time of gold in the modern ocean to be about 220 years. This value is 70% shorter than that (~1000 years) reported previously. In the future, the use of appropriate artificial means to achieve more efficient precipitation of gold from the hydrothermal system at the seafloor could increase the level of enrichment of gold to obtain gold-rich hydrothermal deposits, yielding greater economic benefits.
- Published
- 2023
- Full Text
- View/download PDF
29. New Science Data Have Been Reported by Researchers at Universita degli Studi di Napoli Federico II [Standard Operating Procedure for the determination of trace elements in hydrothermal fluids by Inductively Coupled Plasma Mass Spectrometry ...]
- Subjects
Journalistic ethics ,Hydrothermal fluids ,Mass spectrometry ,Health ,Science and technology - Abstract
2024 AUG 30 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- Researchers detail new data in science. According to news reporting from Naples, Italy, by NewsRx [...]
- Published
- 2024
30. Data on Chalcogens Detailed by a Researcher at China University of Geosciences (Fingerprinting the source and complex history of ore fluids of a giant lode gold deposit using quartz textures and in-situ oxygen isotopes)
- Subjects
Hydrothermal fluids ,Gold ,Gold industry ,Biological sciences ,Health - Abstract
2024 AUG 20 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Fresh data on chalcogens are presented in a new report. According to news reporting [...]
- Published
- 2024
31. Hydrothermal Fluids and Where to Find Them: Using Seismic Attenuation and Anisotropy to Map Fluids Beneath Uturuncu Volcano, Bolivia
- Author
-
T. S. Hudson, J. M. Kendall, J. D. Blundy, M. E. Pritchard, P. MacQueen, S. S. Wei, J. H. Gottsmann, and S. Lapins
- Subjects
seismology ,volcanoes ,geothermal ,mineral exploration ,hydrothermal fluids ,attenuation ,Geophysics. Cosmic physics ,QC801-809 - Abstract
Abstract Mapping fluid accumulation in the crust is pertinent for numerous applications including volcanic hazard assessment, geothermal energy generation, and mineral exploration. Here, we use seismic attenuation tomography to map the distribution of fluids in the crust below Uturuncu volcano, Bolivia. Seismic P wave and S wave attenuation, as well as their ratio (QP/QS), constrain where the crust is partially and fully fluid‐saturated. Seismic anisotropy observations further constrain the mechanism by which the fluids accumulate, predominantly along aligned faults and fractures in this case. Furthermore, subsurface pressure‐temperature profiles and conductivity data allow us to identify the most likely fluid composition. We identify shallow regions of both dry and H2O/brine‐saturated crust, as well as a deeper supercritical H2O/brine column directly beneath Uturuncu. Our observations provide a greater understanding of Uturuncu's transcrustal hydrothermal system, and act as an example of how such methods could be applied to map crustal fluid pathways and hydrothermal/geothermal systems elsewhere.
- Published
- 2023
- Full Text
- View/download PDF
32. Hydrothermal fluid evolution in the Cuonadong Sn–W–Be polymetallic deposit, southern Tibet: indicated by the in–situ element and boron isotope compositions of tourmaline
- Author
-
Guozhi Xie, Haibo Yan, Rongqing Zhang, Kun Wang, and Lipeng Zhang
- Subjects
tourmaline ,water–rock interaction ,hydrothermal fluids ,boron isotope ,Cuonadong Sn–W–Be polymetallic deposit ,Science - Abstract
The Cuonadong Sn–W–Be polymetallic deposit in the Himalayan leucogranite belt is a representative hydrothermal deposit. The role of fluid exsolution directly from magma and the fluid reaction with surrounding rocks for ore-forming element enrichment is still controversial. Tourmaline is a significant B-bearing mineral in the hydrothermal deposit, and its geochemical and B isotopic signatures can record the source and evolution of the ore-forming fluid. Two types of hydrothermal tourmaline in the hydrothermal quartz vein (Tur-1) and skarn (Tur-2) were used in this study. Both Tur-1 and Tur-2 have low X-site occupancy and mainly belong to the alkali group. Tur-1 plots in the schorl field, whereas Tur-2 is largely Mg-rich dravite. The B isotope analyses of Tur-1 have δ11B values of −13.7 to −13.2‰, whereas Tur-2 has higher δ11B values of −11.1 to −9.3‰. The distinct contact relationship and geochemical compositions suggest that Tur-1 in the hydrothermal vein was formed from a magmatic-hydrothermal fluid with little influence from surrounding rocks and had a genetic relationship with the Cuonadong leucogranite, whereas Tur-2 in the skarn involved more fluid from surrounding rocks with high δ11B values and strong metasomatic texture. The higher ore-forming element contents in Tur-2 than those in Tur-1 indicate that the reaction between the magmatic exsolution fluid and the surrounding rock is essential for the enrichment and precipitation of ore-forming elements.
- Published
- 2023
- Full Text
- View/download PDF
33. Hydrothermal formation of fibrous mineral structures: The role on strength and mode of failure
- Author
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Tiziana Vanorio, Jaehong Chung, Shalev Siman-Tov, and Amos Nur
- Subjects
cementation and sealing ,fibrous minerals ,hydrothermal fluids ,stress-strain response ,brittle-ductile transition ,frictional healing ,Science - Abstract
Studying the mechanisms that control the rheology of rocks and geomaterials is crucial as much for predicting geological processes as for functionalizing geomaterials. That requires the understanding of how structural arrangements at the micro and nano scale control the physical and mechanical properties at the macroscopic scale. This is an area of rock physics still in its infancy. In this paper, we focus the attention on the formation of cementitious phases made of micro- and nano-scale fibrous structures, and the controls of the arrangement of these phases on mechanical properties. We use hydrothermal synthesis, and the properties of hydrothermal water, to promote the growth of fibrous mineral phases having nano-size diameter and length of a few microns, creating disordered and entangled mats of fibrous bundles as those found in natural samples. We draw inferences from structural microscopy to inform a statistical model that establishes an interdependence between structural parameters of fibrous structures and bulk mechanical response. Structural parameters include number and length of fibers, spatial orientation, and fraction of fibrous threads bearing the load. Mechanical properties include strength and mode of failure. Results show that as the fibrous microstructure evolves from ordered and aligned to disordered and entangled, the mechanical response of the fibrous composite transitions from a brittle to ductile behavior. Furthermore, the disordered and entangled microstructure exhibits lower strength at failure though strength increases as the number of fibers within the microstructure increases. Finally, the longer the entangled fiber, the larger the strain that the matrix can accommodate. The value of this study lies in further understanding fault healing through hydrothermal fluids and how the physical properties of fibrous microstructures resulting from it control brittle-ductile transitions, and possibly, slow slip events along subduction zones.
- Published
- 2023
- Full Text
- View/download PDF
34. 3D Modeling and Determination of Factors Responsible for Zinc‐Lead Mineralization in the Mehdiabad Deposit, Central Iran, based on Statistical Analysis of Geochemical Data.
- Author
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BONYADI, Zahra
- Subjects
- *
ANALYTICAL geochemistry , *FAULT zones , *DATA analysis , *TRACE elements , *STATISTICS , *MINERALIZATION , *SULFIDE ores - Abstract
Although the Mehdiabad zinc‐lead deposit is one of the most well‐known deposits in the central Iran structural zone, the genesis of the deposit remains controversial. The host rock of the ore is a dolomitic limestone of the Lower Cretaceous Taft Formation. In the two main orebodies of the deposit, which includes the Black Hill and East Ridge ore zones, the oxide and sulfide ores are observed at the surface and at depth, respectively. The elements Zn, Fe, Mn and Mg are more abundant in the East Ridge ore zone (in both sulfide and oxide ores), with Ba, Pb, Ag and Cu being more abundant in the Black Hill oxide ore. Based on the distribution of elements and their correlation with each other in these ore zones, the elements are divided into three general groups, that of terrigenous elements, chemically‐deposited elements and ore‐forming (hydrothermally deposited) elements, a division that is supported by the results of factor analyses. The spatial distribution of elements is jointly affected by contact with host rocks, the boundary of oxide‐sulfide ores and fault zones. The main factors governing the distribution of elements are the mechanical transfer of detrital sediments, chemical sedimentation, transfer by hydrothermal fluids, oxidation and surface dissolution, all of which affected the spatial distribution of elements. The ore‐forming elements are mostly affected by hydrothermal fluids and oxidation. This study not only provides additional information about the genesis of the Mehdiabad deposit, but also could assist in the exploitation of ore and further exploration purposes. The results of this study can aid in the exploration and exploitation of the Mehdiabad deposit and similar deposits in the region. [ABSTRACT FROM AUTHOR]
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- 2022
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35. The Role of Selenium and Hydrocarbons in Au-Ag Ore Formation in the Rodnikovoe Low-Sulfidation (LS) Epithermal Deposit, Kamchatka Peninsula, Russia.
- Author
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Tolstykh, Nadezhda, Shapovalova, Maria, Shaparenko, Elena, and Bukhanova, Daria
- Subjects
- *
SELENIUM , *PRECIOUS metals , *ORES , *GOLD , *FLUID inclusions , *ORGANIC compounds , *PENINSULAS , *SILVER sulfide - Abstract
Gold-silver mineralization in the Rodnikovoe LS epithermal deposit is characterized by selenium speciation. Two main alternating ore assemblages have been identified: silver-aguilarite-acanthite and gold-uytenbogaardtite-acanthite. The former mineral association is intergrown with secondary silver (Ag0.77–0.91), whereas the latter assemblage is closely associated with high-grade gold (Au0.63–0.67). However, both are dominated by Ag0.49–0.56Au0.44–0.51 alloys. The geochemical evolution of the ore-forming system developed in the direction: Fe → Cu; Ag → Au; S → Se; As → Sb. Organic compounds (1 relative %) of both biogenic and thermogenic origin were found in fluid inclusions. These molecules participated in the formation of Ag,Au-complexes and transported noble metals along with selenium. Hydrothermal fluids are characterized by fSe2/fS2 ratios < 1, conditions such that the deposition of selenide minerals is inhibited, except for the naumannite and acanthite series. These conditions allow active entry of selenium into sulfosalts (the selenium substitutes for sulfur). [ABSTRACT FROM AUTHOR]
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- 2022
- Full Text
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36. Geochemical and microbiological profiles in hydrothermal extreme acidic environments (Pisciarelli Spring, Campi Flegrei, Italy).
- Author
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Crognale, Simona, Venturi, Stefania, Tassi, Franco, Rossetti, Simona, Cabassi, Jacopo, Capecchiacci, Francesco, Bicocchi, Gabriele, Vaselli, Orlando, Morrison, Hilary G, Sogin, Mitchell L, and Fazi, Stefano
- Subjects
- *
EXTREME environments , *WATER temperature , *NUCLEOTIDE sequencing , *HIGH temperatures , *BIOGEOCHEMICAL cycles , *MICROBIAL communities , *GEOTHERMAL resources , *MICROBIOLOGICAL synthesis - Abstract
Although terrestrial hydrothermal systems are considered among the most fascinating environments, how their unique and extreme conditions can affect microorganisms selection and the role in biogeochemical cycles has not yet been well elucidated. A combined geochemical and microbiological exploration in waters and sediments from 10 sampling points along a sharp temperature gradient (15–90°C) within an extremely acidic hydrothermal system (Pisciarelli Spring, Campi Flegrei area, southern Italy) displayed how hydrothermal fluids influence the microbial dynamics. This area was characterized by high levels of reduced gaseous species (e.g. H2S, H2, CH4, CO) and very low pH values (<2.3). Thermodynamic calculations revealed a high microbial catabolic potential in oxidation/reduction reactions of N-, S- and Fe-bearing species. Overall, an increase of the archaeal/bacterial abundance ratio was observed by decreasing temperature and pH values. In particular, Archaea and Bacteria were present in almost equal cell abundance (up to 1.1 × 109 and 9.3 × 108 cell/g, respectively) in the <70°C sampling points (average pH = 2.09); on the contrary, the highest temperature waters (85–90°C; average pH = 2.26) were characterized by a low abundance of archaeal cells. The high-throughput sequencing of the 16S rRNA genes indicated strong differences in archaeal and bacterial communities composition along the temperature gradient. However, the microbiome in this extreme environment was mainly constituted by chemoautotrophic microorganisms that were likely involved in N-, S- and Fe-bearing species transformations (e.g. Acidianus infernus , Ferroplasma acidarmanus , Acidithiobacillus , Sulfobacillus , Thaumarchaeota), in agreement with thermodynamic calculations. [ABSTRACT FROM AUTHOR]
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- 2022
- Full Text
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37. Lithostratigraphy, Origin, and Geodynamic Setting of Iron Formations and Host Rocks of the Anyouzok Region, Congo Craton, Southwestern Cameroon.
- Author
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Swiffa Fajong, Isaac, Nzepang Tankwa, Marvine, Fossi, Donald Hermann, Ganno, Sylvestre, Moudioh, Cyriel, Soh Tamehe, Landry, Suh, Cheo Emmanuel, and Nzenti, Jean Paul
- Subjects
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IRON ores , *GREENSTONE belts , *PETROLOGY , *GEOCHEMISTRY , *MINERALOGY , *GEODYNAMICS - Abstract
In Cameroon, most of the iron formation occurrences reported are found within the Nyong and Ntem Complexes. The Anyouzok iron deposit is located in the Nyong Complex greenstone belts, which represent the NW margin of this Congo craton. The main lithological units comprise the iron formations (IFs) unit, consisting of banded IFs (BIFs) and sheared BIFs (SBIFs), and the associated metavolcanic rocks unit consisting of mafic granulite, garnet amphibolite, and biotite gneiss. Within the Anyouzok area, BIFs are rare, while SBIFs are ubiquitous. This study reports the petrography, mineralogy, and whole rock geochemistry of IFs and interbedded metavolcanic rocks of the Anyouzok iron deposit. The abundance of cavities, higher Fe contents (49.60–55.20 wt%), and strong Eu anomalies (Eu/Eu* = 2.14–3.17) within the SBIFs compared to the BIFs suggest that SBIFs were upgraded through post-depositional hydrothermal alteration activities. REE signatures indicate the contribution of both seawater and hydrothermal fluids during BIFs precipitation. Mafic granulite and garnet amphibolite protoliths were derived from the partial melting of a metasomatized spinel lherzolite depleted mantle source. The overall compositional variations of the Anyouzok IFs and interbedded metavolcanic rocks endorse an Algoma-type formation deposited in the back-arc basin under suboxic to anoxic conditions. [ABSTRACT FROM AUTHOR]
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- 2022
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38. Hydrothermal genesis and growth of the banded agates from the Allumiere-Tolfa volcanic district (Latium, Italy).
- Author
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Conte, Alessandra, Della Ventura, Giancarlo, Rondeau, Benjamin, Romani, Martina, Cestelli Guidi, Mariangela, La, Carole, Napoleoni, Camilla, and Lucci, Federico
- Subjects
- *
QUARTZ crystals , *RAMAN spectroscopy , *CRISTOBALITE , *SPECTRUM analysis , *LOW temperatures , *TRACE elements - Abstract
In this work, we studied the hydrothermal agates from the Neogene–Quaternary volcanic district of Allumiere-Tolfa, north-west of Rome (Latium, Italy) using a combination of micro-textural, spectroscopic, and geochemical data. The examined sample consists of (1) an outer cristobalite layer deposited during the early stages of growth, (2) a sequence of chalcedonic bands (including i.e., length-fast, zebraic, and minor length-slow chalcedony) with variable moganite content (up to ca. 48 wt%), (3) an inner layer of terminated hyaline quartz crystals. The textures of the various SiO2 phases and their trace element content (Al, Li, B, Ti, Ga, Ge, As), as well as the presence of mineral inclusions (i.e., Fe-oxides and sulfates), is the result of physicochemical fluctuations of SiO2-bearing fluids. Positive correlation between Al and Li, low Al/Li ratio, and low Ti in hyaline quartz points to low-temperature hydrothermal environment. Local enrichment of B and As in chalcedony-rich layers are attributed to pH fluctuations. Analysis of the FT-IR spectra in the principal OH-stretching region (2750–3750 cm−1) shows that the silanol and molecular water signals are directly proportional. Strikingly, combined Raman and FT-IR spectroscopy on the chalcedonic bands reveals an anticorrelation between the moganite content and total water (SiOH + molH2O) signal. The moganite content is compatible with magmatic-hydrothermal sulfate/alkaline fluids at a temperature of 100–200 °C, whereas the boron-rich chalcedony can be favored by neutral/acidic conditions. The final Bambauer quartz growth lamellae testifies diluted SiO2-bearing solutions at lower temperature. These findings suggest a genetic scenario dominated by pH fluctuations in the circulating hydrothermal fluid. [ABSTRACT FROM AUTHOR]
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- 2022
- Full Text
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39. Opaline silica precipitations in the Permian Fengcheng Formation indicate hot spring environments in north Mahu Sag, NW China.
- Author
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Yu, Kuanhong, Du, Shuo, Cao, Yingchang, and Zhang, Tao
- Subjects
- *
HOT springs , *SALT lakes , *SILICA , *THERMOPHILIC microorganisms , *OXYGEN isotopes , *QUARTZ - Abstract
The Permian Fengcheng Formation represents a series of deposits formed in an alkaline saline lake, characterized by high proportions of cherts, located in the Northwestern Junggar Basin in China. While discussions on silica-rich hot springs as sources of silica for brine and subsequent chert deposition have been extensively conducted for Quaternary and Mesozoic-Cenozoic alkaline saline lakes worldwide, investigations into Paleozoic alkaline saline lakes are scarce due to challenges associated with identifying evidences of hot spring environments. In this study, we present detailed SEM-EDS analyses and examine silica isotope compositions as well as oxygen isotope compositions to discuss hydrothermal-associated silica precipitation processes. Our findings suggest that migrating silica-rich hot springs along deep-rooted faults released silica into the brine, leading to chert deposition during cooling periods and induction of thermophilic microorganism degradation. Microorganism-associated siliceous precipitates primarily consist of opal-A spheres adhered by extracellular polymeric substances (EPS), while numerous microorganism spheres have undergone silicification. Opal-A spheres within these structures were partially transformed into well-crystallized quartz through multiple stages of dissolution-precipitation processes during prolonged burial history. Furthermore, our results indicate that deep-rooted fault-related hot springs can occur both in marginal and subaqueous areas within alkaline saline lakes, with chert formations observed in shallow-marginal saline lake settings as well as deeper regions. The findings of this study provide valuable insights into the paleoenvironmental conditions, which can be further explored in investigating the accumulation of organic matter in chert-rich successions formed within an alkaline saline lake. • Hot spring in an organic-rich alkaline saline lake. • Spherical microorganisms undergoing silicification through opaline silica deposition. • Silica occurrences transferred by dissolutions and reprecipitations. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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40. REE-phosphate mineralization stages and conditions of monazite formation in the ore veins in the northern part of Ditrău Alkaline Massif (Eastern Carpathians, Romania).
- Author
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Fintor, Krisztián, Kiri, Luca, Walter, Heléna, Tsay, Alexandra, Kristály, Ferenc, and Pál-Molnár, Elemér
- Subjects
- *
VEINS (Geology) , *APATITE , *MONAZITE , *VEINS , *MINERALIZATION , *ORES , *RARE earth oxides - Abstract
[Display omitted] • Rare earth mineralization is a result of successive hydrothermal processes. • Each hydrothermal fluid metasomatised the earlier precipitated phases. • Successive hydrothermal flushes redeposited earlier formed rare earth phosphates. • Monazite crystallized from NaCl dominant aqueous solutions with low CO 2 content. In terms of rare earth potential, the Ditrău Alkaline Massif (Romania) is one of the most prospective formations in Europe. The REE mineralization occurs as mineralized ore veins and is most prominent in the northern (Jolotca) and eastern (Belcina) parts of the Massif. The ore veins of Jolotca area outcrop over a larger area than the Belcina ones, and are predominantly rich in LREE minerals. The most important REE minerals in the Jolotca veins are phosphates, of which monazite (Mnz) (group) is by far the most abundant, while xenotime (Xtm) occur only sporadically. The monazite-xenotime mineral assemblages are the products of at least three successive mineralization stages: (1) Mnz1 followed by Xtm1 (the vast majority of REE phosphates formed in this stage); (2) Mnz2 + Xtm2 (as inclusions in apatite) and Mnz3 + Xtm3 (as interstitial phases), the two assemblages are texturally distinct but their synchronous formation is likely; (3) Mnz4 scattered in magnetite veins (no xenotime formed in this stage). The chemical composition of the phases formed in each stage supports their hydrothermal origin. The alteration characteristics, reaction patterns and internal textural features of the monazite-xenotime assemblages reflect the metasomatizing effect of each hydrothermal stage. Three fluid types with different compositions were identified in the earliest Mnz1 phase: An H 2 O-NaCl-CO 2 type (2–4 mol% CO 2 , 10–22 wt% NaCl eq. , T h : 225–350 °C), an H 2 O-NaCl type (10–22 wt% NaCl eq. , T h : 160–330 °C) and an H 2 O-NaCl-CaCl 2 type (23–25 wt% NaCl eq. , T h : 150–250 °C). Combining Y-in monazite thermometry data with isochores of primary originated fluid inclusions indicate <500 MPa pressures and 200–420 °C temperature conditions for formation of Mnz1. The observed REE patterns of monazites were most probably resulted by a temperature derived fractionation of REEs carried as carbonate complexes in hydrothermal fluids by the effect of successive metasomatic flushing. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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41. Standard Operating Procedure for the determination of trace elements in hydrothermal fluids by Inductively Coupled Plasma Mass Spectrometry (ICP-MS).
- Author
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Correggia M, Di Iorio L, Bastianoni AB, Yücel M, Cordone A, and Giovannelli D
- Abstract
This standard operating procedure (SOP) validates an inductively coupled plasma mass spectrometry (ICP-MS) procedure for the determination of trace elements in hydrothermal fluids. Hydrothermal fluids are aqueous solutions with a wide range of temperature, salinity, pH and trace elements that can be used by a set of microbial proteins containing redox-sensitive transition metals as their catalytic core. Due to the high variability of these samples, we have developed this protocol taking into account the special features of the matrices analyzed. An ICP-MS 7900 Agilent system was used. Calibration curves are linear in the 0.01 to 100 μg/L concentration range., Competing Interests: No competing interests were disclosed., (Copyright: © 2024 Correggia M et al.)
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- 2024
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42. Insights on geochemical characteristics, microthermometry of hydrothermal fluids, and sulfur isotope systematics of the Daralu porphyry Cu deposit, SE Iran
- Author
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Kahnouj, Zahra Jalali, Tangestani, Majid H., and Asadi, Sina
- Published
- 2023
- Full Text
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43. Multiple-Stage Injection of Deep Hydrothermal Fluids in the Dolostone Reservoirs of Ordovician Majiagou Formation, Southern Ordos Basin
- Author
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Zhaolin Yang, Xinshe Liu, Xu Han, Hu Zhou, Sha Zhan, Xiaojun Gui, Jihong Niu, and Ke Wang
- Subjects
hydrothermal fluids ,burial dolomitization ,isotopic geochemistry ,elemental geochemistry ,ordos basin ,Science - Abstract
The Middle Ordovician Majiagou Formation in the southern Ordos Basin develops a set of sub-and peri-tidal carbonate successions that were extensively dolomitized. Diagenetic dolomitization is widely investigated because dolostones provide high-quality gas reservoirs in the southern Ordos Basin. Nonetheless, the ultimate mechanism controlling dolomitization remains enigmatic. In this study, integrated geochemical indexes including carbon and oxygen isotopes, rare earth elements, and microthermometry, coupled with U-Pb dating and lithofacies and mineralogic studies, are investigated to elucidate the periods of hydrothermal fluids involved in the formation of different types of dolomites in the studied section from Ma5 member. The results reveal that the micritic dolomite matrix was formed under the involvement of low-salinity meteoric water in the mixing zone during a shallow-burial environment. The mixing zone of paleokarst possibly provided accommodation for this dolomitization. The fine-/medium-sized dolomites were formed due to interactions between hydrothermal fluids of comparatively low temperature and matrix carbonates, which occurred during the period of the Middle Jurassic. The dolomitic microbialites were formed due to the injection of high-temperature acid fluids associated with organic matter maturing. This dolomitization occurred during the period of the Late Jurassic according to U-Pb ages. The coarse-sized dolomite cements can be furtherly classified into two types according to different U-Pb ages and carbon-oxygen isotopes, although they are very similar with respect to mineralogic features. Comprehensive geochemical evidence revealed that the dolomitizing fluids of two types of dolomite cements were derived from hydrothermal fluids associated with periodical magmatism, which occurred during the period of the Early Cretaceous. This finding provides a new insight for elucidating the diagenetic process of reservoir dolostones from the Middle Ordovician in the Ordos Basin.
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- 2022
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44. Can Eu Anomaly Indicate a Hydrothermal Fluid Si Source? A Case Study of Chert Nodules From the Permian Maokou and Wujiaping Formations, South China
- Author
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Chenqing Li, Yixin Cui, Meng Ning, Chao Li, Chaochao Xing, Pan Xia, and Lin Dong
- Subjects
germanium to silicon ratio (Ge/Si) ,chert nodules ,hydrothermal fluids ,Eu anomaly ,Permian ,rare earth element (REE) ,Science - Abstract
The Middle–Late Permian witnessed an unusual chert accumulation event along the margin of the Pangea and Paleo-Tethys realms, known as the “Permian Chert Event (PCE).” The PCE is well recognized in the Permian limestone from South China, in the forms of nodular and bedded cherts. Previous studies suggested that PCE was caused by hydrothermal fluids related to the Emeishan large igneous province (ELIP). Meanwhile, another hypothesis supported the biogenic origin of PCE, i.e., the Permian chert derived from biosilicification of abundant sponges and radiolarian. Thus, sources of silica from the Permian chert remain uncertain. To understand linkages among PCE, biosilicification mechanism, and the ELIP event, this study focused on chert nodules collected from the Permian Maokou and Wujiaping formations in the Lianziya and Maoertang sections, South China. We measured germanium/silicon ratios (Ge/Si) and rare earth element (REE) compositions of chert nodules on the basis of petrographic analysis. Ge/Si ratios range from 0.14 to 0.63 μmol/mol with an average of 0.33 μmol/mol (n=18) in the Lianziya section and from 0.02 to 0.75 μmol/mol with an average of 0.18 μmol/mol (n=45) in the Maoertang section, both of which are close to the seawater value. The REE pattern is characterized by LREE depleted with a positive Eu anomaly ranging from 0.66 to 2.16 in the Lianziya section and from 1.05 to 9.57 in the Maoertang section. Our results indicate that the silica of the Permian chert predominantly originated from seawater with limited contributions from hydrothermal fluids. To further quantify the contributions of hydrothermal fluids, we applied a binary (seawater and hydrothermal fluid) mixing model based on two geochemical proxies, i.e., the Ge/Si ratio and Eu anomaly. The modeling results suggest a mixing of 0.5 vol% to 1 vol% hydrothermal fluids with contemporaneous seawater, verifying the dominant seawater source of silica in the PCE. Although it has been widely accepted that positive Eu anomaly points to the hydrothermal fluid origin of silica, our study demonstrates that positive Eu anomaly could also be present in cherts that was predominantly derived from normal seawater. Therefore, the analysis of the Ge/Si ratio or REE compositions is highly recommended when determining the Si source of cherts.
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- 2022
- Full Text
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45. Magmatic–Hydrothermal Transport of Metals at Arc Plutonic Roots: Insights from the Ildeus Mafic–Ultramafic Complex, Stanovoy Suture Zone (Russian Far East)
- Author
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Pavel Kepezhinskas, Nikolai Berdnikov, Nikita Kepezhinskas, Valeria Krutikova, and Ivan Astapov
- Subjects
arc plutonic roots ,Mesozoic Stanovoy collided margin ,ultramafic metasome ,sediment melting ,adakites ,hydrothermal fluids ,Mineralogy ,QE351-399.2 - Abstract
The Ildeus mafic–ultramafic complex represents plutonic roots of a Triassic magmatic arc tectonically emplaced into the thickened uppermost crust beneath the Mesozoic Stanovoy collided margin. The mafic–ultramafic complex cumulates host Ni-Co-Cu-Pt-Ag-Au sulfide-native metal-alloy mineralization produced through magmatic differentiation of subduction-related primary mafic melt. This melt was sourced in the metal-rich sub-arc mantle wedge hybridized by reduced high-temperature H-S-Cl fluids and slab/sediment-derived siliceous melts carrying significant amounts of Pt, W, Au, Ag, Cu and Zn. Plutonic rocks experienced a pervasive later-stage metasomatic upgrade of the primary sulfide–native metal–alloy assemblage in the presence of oxidized hydrothermal fluid enriched in sulfate and chlorine. The new metasomatic assemblage formed in a shallow epithermal environment in the collided crust includes native gold, Ag-Au, Cu-Ag and Cu-Ag-Au alloys, heazlewoodite, digenite, chalcocite, cassiterite, galena, sphalerite, acanthite, composite Cu-Zn-Pb-Fe sulfides, Sb-As-Se sulfosalts and Pb-Ag tellurides. A two-stage model for magmatic–hydrothermal transport of some siderophile (W, Pt, Au) and chalcophile (Cu, Zn, Ag) metals in subduction–collision environments is proposed.
- Published
- 2023
- Full Text
- View/download PDF
46. Phosphate Petrochronology of the Belcina REE Mineralization (Ditrău Alkaline Massif, Romania)
- Author
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Urs Klötzli, Jolanta Burda, and Paul Tibuleac
- Subjects
phosphate petrochronology ,Ditrău Alkaline Massif ,Eastern Carpathians ,REE mineralization ,metasomatism ,hydrothermal fluids ,Mineralogy ,QE351-399.2 - Abstract
A notable REE mineralization in Europe is associated with the Ditrău Alkaline Massif (DAM) in the Eastern Carpathians (Romania). It is an expression of the latest hydrothermal phase in the DAM and is found in the form of mineralized carbonate veins cross-cutting the complex in the NW (Jolotca region) and the SE (Belcina region) parts of the DAM. In the Belcina veins monazite-(Ce), xenotime-(Y) and apatite, together with Fe-Mg-rich carbonate, thorite, thorogummite, gedrite and plagioclase are rock-forming. Three different textural and chemical types of the monazite-(Ce) and the xenotime-(Y) document a three-stage evolution. The relative phosphate age succession (from older to younger) thereby is xnt1 > xnt2 (>)+ mnz1 + Fe2O3 + Fe-gedrite > mnz2 + Fe-dolomite (+ plagioclase) > mnz3 + xnt3 + apatite. Phosphate chemistry shows that these crystallized from hydrothermal fluids, whereby each phosphate type follows a separate evolutionary path suggesting growth from (at least) three independent and successive hydrothermal fluids. Chemistry and pathways within the DAM suggest that these hydrothermal fluids could be derived from a subsurface carbonatitic intrusion. Mnz1,2 and xnt1,2 ages are tightly clustered at 215.8 ± 0.7 Ma (Norian, Upper Triassic). The third-generation phosphate ages are younger, but are associated with large analytical uncertainties and did not deliver geologically useful ages. The mean age of ca. 216 Ma is interpreted as the timing of the Belcina REE mineralization, which together with the fluid chemistry, supports a model of the presence of a late-stage, independent carbonatitic intrusion about 10 Ma after the main igneous activity (ca. 235–225 Ma) forming the DAM, synchronous with extension-related magmatism in the region.
- Published
- 2023
- Full Text
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47. A molecular simulation study of Cs-Cl and Cs-F ion pairs in hydrothermal fluids.
- Author
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Zhang, Xi, Liu, Xiandong, Wang, Tianhua, Lu, Xiancai, and Wang, Rucheng
- Subjects
- *
ION pairs , *ALKALI metals , *ALKALI metal halides , *ALKALI metal ions , *MOLECULAR dynamics , *BINDING constant - Abstract
Magmatic-hydrothermal processes play an important role in the transport, enrichment, and mineralization of cesium. In this study, classical molecular dynamics simulations were performed to investigate the properties of Cs-Cl and Cs-F ion pairs in hydrothermal fluids. The association constants (log10KA(m)) under a wide range of temperature (i.e. 298–1273 K) and fluid density (i.e. 0.1–1.0 g/cm3) were derived from the potential of mean force (PMF) curves. The results indicate that Cs-Cl and Cs-F ion pairs have similar stabilities. This is different from other alkali metal cations (e.g., Li+, Na+, and K+), which prefer binding with F over Cl. The stabilities of Cs-Cl and Cs-F ion pairs increase with increasing temperature (except for the fluid density ≤ 0.1 g/cm3) or decreasing fluid density, which is similar to other alkali halide ion pairs. Comparisons among the stabilities of Cs-Cl/F and other alkali halide ion pairs indicate that the Li–F ion pair has the highest stability in hydrothermal fluids. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
48. Magmatic, hydrothermal and ore element transfer processes of the southeastern Archean Superior Province implied from electrical resistivity structure.
- Author
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Roots, Eric A., Hill, Graham J., Frieman, Ben M., Wannamaker, Philip E., Maris, Virginie, Calvert, Andrew J., Craven, James A., Smith, Richard S., and Snyder, David B.
- Abstract
[Display omitted] • MT and seismic data reveal details of Archean crustal mineralizing systems. • Ore-bearing magmatism may be linked to melting of enriched mantle source volumes. • Geodynamic model unifying tectono-magmatic and metallogenic events. Although magmatic- and metamorphic- derived fluids are widely recognized mineralizing agents, the role of crustal architecture in defining source and sink zones within the middle to lower crust and upper mantle of ancient orogens remains enigmatic. The globally largest and best-preserved Archean greenstone belts lie in the Superior Province, Canada. They provide an ideal location to investigate the influence of igneous construction and subsequent syn -deformational plutonism and metamorphism on the localization of metal-rich melts and fluids throughout the crustal column. Integration of three-dimensional magnetotelluric modelling and seismic reflection sections across the Abitibi subprovince reveals details of a 'whole-of-crust' magmatic and hydrothermal system. East-west low resistivity structures broadly underlie the surface traces of the major deformation zones that are host to significant gold endowment (>200 Moz), while mid-crustal cross trends suggest mineralized fluids flowed along 'pipes' within fault planes. Most low resistivity structures are inferred to represent domains containing interconnected zones of graphite and/or sulfide. These delineate relict mantle source/transit domains and crustal pathways enriched by the flow of magmas or metamorphic fluids genetically related to a late-stage pulse of ore-bearing magmatism, possibly as a result of slab break-off or delamination. Using the combined MT and seismic data, we develop a 3-D crustal-scale model which highlights how evolving orogenic architecture-controlled mass transfer and metallogenic processes developed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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49. Zirconium silicates in a peralkaline granite: a record of the interplay of magmatic and hydrothermal processes (Ilímaussaq complex, Greenland).
- Author
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CEGIEŁKA, MAŁGORZATA, BAGIŃSKI, BOGUSŁAW, MACDONALD, RAY, BELKIN, HARVEY E., KOTOWSKI, JAKUB, and UPTON, BRIAN G. J.
- Subjects
- *
URANIUM-lead dating , *GOLD ores , *ZIRCON , *GRANITE , *ZIRCONIUM , *HYDROTHERMAL alteration , *SILICATES , *MAGMAS - Abstract
Compositional and textural data are presented for zircon, secondary Zr-silicates, catapleiite and elpidite in a peralkaline granite from the Ilímaussaq complex, south Greenland. The zircon is essentially stoichiometric, with (Zr + Hf + Si) = 1.96-1.98 a.p.f.u. The secondary Zr-silicates show a wide range of Zr/Si atomic ratios (0.13-0.79). The catapleiite varies from close to stoichiometric to a Na-depleted type showing cation deficiency (5.2-5.8 a.p.f.u.). Elpidite shows similar variations (7.2-9.0 a.p.f.u.). Textural relationships between the Zr phases are interpreted to show that magmatic zircon interacted with hydrous fluids exsolved from the magma to form the secondary Zr-silicates. Formation of catapleiite was late-magmatic, in equilibrium with a Na-Sibearing fluid. This was followed by the crystallization of elpidite, the fluid having a different Na/Si ratio. Both catapleiite and elpidite experienced Na-loss during late-stage hydrothermal alteration. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
50. Not so fast: Million-years of metal precipitation in Mississippi Valley type deposits inferred from in-situ petrochronology of hydrothermal carbonates.
- Author
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Tavazzani, Lorenzo, Guillong, Marcel, Giuliani, Andrea, Fontboté, Lluís, and Chelle-Michou, Cyril
- Subjects
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DOLOMITE , *TRACE element analysis , *CARBONATES , *URANIUM-lead dating , *FLUID flow , *HYDROTHERMAL synthesis - Abstract
• U-Pb ages of hydrothermal carbonates in the San Vicente MVT district. • Carbonate crystallization coeval with tectonic deformation in Andean foreland. • Zn-Pb mineralization in San Vicente triggered by first Andean overthrusts. • Youngest carbonates related to Pliocene sub-Andean thrust exhumation. • Mineralization episode bracketed by syn-ore carbonates, lasted ∼30 Myr. Mississippi Valley-type (MVT) deposits contain about 20% of global zinc resources and host critical raw materials crucial to the development of green technologies. Despite their economic and strategic importance, there is a lack of consensus on the duration of mineralizing fluid flow events in MVT systems. This study couples in-situ U-Pb dating with Sr-isotope and trace element analysis of syn- and post-ore gangue carbonates to establish: (1) timing and duration, (2) redox evolution, and (3) flow rates of mineralizing fluids in the world-class San Vicente Zn-(Pb) deposit (Peru). New radiometric ages bracket the crystallization of syn-mineralization dolomite, characterized by high Fe and Mn contents and Sr isotopic values overlapping with that of host carbonates, between 103.2 ± 4.1 Ma and 70.6 ± 5.6 Ma. This age interval reveals a direct genetic relationship between flow of mineralizing fluids and late Cretaceous Andean compressional tectonics. Basinal fluid expulsion coeval with known tectonic events continues in the district until Pliocene times, driving episodic crystallization of post-ore hydrothermal carbonates between 61.6 ± 9.3 and 2.7 ± 0.2 Ma. The low Mn and Fe content and high 87Sr/86Sr values characteristic of these post-ore, bedding-parallel and cross-cutting carbonate veins indicate a colder, oxidized environment. Our findings highlight the contribution of paired carbonate geochemistry and U-Pb geochronology in drawing links between tectonic events, fluid expulsion and the waxing and waning of mineralization potential in foreland basins. The results of this study challenge our understanding of timescales in MVT systems and imply that anomalous metal enrichment in basinal fluids over a short temporal interval is not a necessary precondition to form economic-sized, sediment-hosted Zn-Pb deposits. Rather, it is the coexistence of a focused fluid flow in an interconnected aquifer with suitable metal depositional mechanisms over a prolonged period of time (106–107 yr) that allows precipitation of economic amount of base metals at a specific site in the upper crust. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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