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21. Quantitative distribution of essential elements and non-essential metals in breast cancer tissues by LA-ICP-TOF–MS.

Author

Escudero-Cernuda, Sara, Clases, David, Eiro, Noemi, González, Luis O., Fraile, María, Vizoso, Francisco J., Fernández-Sánchez, María Luisa, and Gonzalez de Vega, Raquel

Subjects
*PERIODIC table of the elements, *MEDICAL sciences, *STAINS & staining (Microscopy), *COPPER, *LASER ablation, *TRACE metals
Abstract

Breast cancer (BC) is the leading cause of cancer death among women worldwide, making the discovery and quantification of new biomarkers essential for improving diagnostic and preventive strategies to limit dissemination and improve prognosis. Essential trace metals such as Fe, Cu, and Zn may play critical roles in the pathophysiology of both benign and malignant breast tumors. However, due to the high metabolic activity and reduced element selectivity of cancer cells, also non-essential elements may be taken up and may even be implicated with disease progression. This study investigates the spatial distribution and concentrations of both essential and non-essential elements in breast tissues, assessing their potential for diagnostic applications. Laser ablation (LA)–inductively coupled plasma–mass spectrometry (ICP-MS) with a time-of-flight (ToF) mass analyzer (LA-ICP-ToF–MS) was used to inquire the distribution of almost all elements across the periodic table and their abundance in metastatic (n = 11), non-metastatic (n = 7), and healthy (n = 4) breast tissues. Quantification was achieved using gelatine-based standards for external calibration to quantitatively map various elements. Overall, the Fe, Cu, Zn, Sr, and Ba levels were significantly increased in tumor samples with Sr and Ba showing strong correlation, likely due to their similar chemistry. Comparison of calibrated LA-ICP-ToF–MS data with a histologic staining demonstrated the possibility to clearly differentiate between various tissue types and structures in breast tissues such as tumor niche and stroma. The levels of the studied elements were significantly higher in the tumor niche areas compared to the stroma, and for Fe, a significant accumulation was observed in the tumor niche areas from the metastatic patient group relative to the levels found in the same areas of the non-metastatic group. LA-ICP-ToF–MS was used to quantitatively map the biodistribution of essential and non-essential elements in metastatic and non-metastatic breast cancer tissues. [ABSTRACT FROM AUTHOR]

Published
2025
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22. Relationship between U and Ni-Co-As mineralization in the Midwest polymetallic U deposit, Athabasca Basin (Canada) – constraints from mineralogical, geochemical, and fluid inclusion studies.

Author

Ferguson, Daniel, Chi, Guoxiang, Normand, Charles, Mercadier, Julien, Wang, Yumeng, McKee, Kelsey, Anderson, Magdalena, and Robbins, John

Abstract

The unconformity-related uranium (URU) deposits in the Proterozoic Athabasca Basin are one of the most important U resources in the world. This type of U deposit can be divided into monometallic (U) and polymetallic (U-Ni-Co-As) subtypes. While it is generally agreed that the URU deposits formed from reaction between oxidizing, basinal brines carrying U and/or Ni-Co-As with reducing basement fluids or lithologies, it is debatable whether the polymetallic deposits formed from co-enrichment of U-Ni-Co-As or enrichment of U superimposed by a separate Ni-Co-As mineralization event. This study addresses this problem through mineralogical, geochemical and fluid inclusion investigation of the Midwest U-Ni-Co-As deposit. Petrographic studies indicate that the sequence of ore precipitation started with uraninite, followed by Ni-Co arsenides and sulfoarsenides and then Cu-Pb-Fe sulfides, and this sequence was repeated episodically. This observation suggests that the deposit did not form from two separate U and Ni-Co-As mineralization events, but rather multiple episodes of U-Ni-Co-As mineralization. Linear correlations between chemical ages and Si-Ca-Fe contents of the most pristine uraninite U1 suggest a maximum primary mineralization of ca. 1600 Ma, which is consistent with the inferred primary U mineralization age in the Athabasca Basin. Microthermometric and laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) analyses of fluid inclusions in syn-mineralization drusy quartz indicate that the composition of the ore-forming fluids is characterized by the H2O-NaCl-CaCl2-KCl-MgCl2 system and comparable to those from both monometallic and polymetallic URU deposits. The relationship between U and Ni + Co in the fluid inclusions and its comparison with other URU deposits support a model in which U and Ni-Co were co-enriched in a unified mineralization process. The development of breccia structures in the ores and the dramatic fluid pressure fluctuation revealed by fluid inclusions suggest that the deposit formed from multiple episodes of fluid flow related to repeated reactivation of basement-rooted faults. [ABSTRACT FROM AUTHOR]

Published
2025
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23. Chemical fingerprinting of European radiolarites and raw material economies from the Moravian Aurignacian.

Author

Moník, Martin, Nerudová, Zdeňka, Gregar, Filip, Pluháček, Tomáš, Součková, Jitka, and Hamrozi, Petr

Abstract

Chemical fingerprinting and spectrophotometry were combined to conduct a provenance analysis of radiolarite artefacts from three Moravian (Czech Republic) Aurignacian sites of Tvarožná I, Nová Dědina I and Milovice I. Of the different methods used, laser ablation with inductively coupled plasma mass spectrometry (LA-ICP-MS) was the best suited to distinguish the different areas containing radiolarite outcrops. Based on their chemical fingerprint, Moravian Aurignacian radiolarite artefacts were most likely imported from the western Slovak part of the Pieniny Klippen Belt. The abundant radiolarite outcrops in the Vienna region were apparently ignored, with the possible exception of two radiolarite artefacts from the Milovice I site. However, these could also have been manufactured from gravel radiolarites found around the site. Upon assigning other lithologies from Aurignacian sites in Moravia to their areas of provenience, it transpired those imports derived primarily from non-south-western regions. A similar situation was previously observed in the Moravian Szeletian, possibly indicating information exchange between the two Upper Palaeolithic cultures. Although the subsequent Gravettian culture relied more on long-distance imports, north-eastern − south-western movements and transfers were predominant up until the end of the Moravian Upper Palaeolithic, largely due to the communication corridor of the Moravian Gate. Upper Palaeolithic Moravia was an important source of raw materials and a hub for gathering other materials and information from concrete supply zones, while others were neglected. [ABSTRACT FROM AUTHOR]

Published
2025
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24. The composition of magmatic-hydrothermal fluids and their related metal mineralization.

Author

Shu, Qihai and Deng, Jun

Abstract

Magmatic hydrothermal deposits are important sources of many bulk, precious, and rare metals, and have attracted interest from both academic and industrial communities. However, it is still unclear if the major enrichment of the ore-forming metals occurs in the parental magma source region, during the magma evolution, or after the fluid exsolution. Fluid inclusions trapped in hydrothermal minerals crystallized in the early, high-temperature stage before metal precipitation record information close to that of the initially exsolved magmatic fluids, which are helpful in revealing whether the metals have been already significantly enriched prior to the hydrothermal stage. In this study, available compositional data of such early-stage fluid inclusions from magmatic hydrothermal systems globally have been compiled. The results indicate that the concentrations of Cu, Sn, and W respectively from the Cu-, Sn-, and W-mineralized fluids are significantly higher than the hydrothermal systems that do not produce ores with the corresponding metals. This suggests that Cu, Sn, and W could have already been enriched in the magma source and/or magma evolution stage. The Mo concentrations show no difference between Mo-mineralized and Mobarren fluid systems, indicating no significant pre-enrichment in the source region or during the magma evolution. This also implies that an efficient collection of Mo from a large volume of magmas is required to account for the formation of a large Mo deposit. Almost all the hydrothermal fluids contain high concentrations of Fe and Zn-Pb, but only a few of them eventually form Fe or Zn-Pb deposits, reflecting an important role of the hydrothermal evolution process on the selective metal mineralization. The above results indicate that different metals are enriched in different stages of a magmatic hydrothermal system, and that the major roles played in the formation of a deposit vary with the metal types. In addition to the metal concentrations in the ore-related magmas and fluids, other factors (including but not limited to the intrusion shapes, emplacement depths, structural pathways, and wallrock properties) are also critical in determining the fertility and mineralization diversity of a magmatic hydrothermal system. [ABSTRACT FROM AUTHOR]

Published
2025
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25. 独居石 LA-ICP-MS U-Pb 法测定北大别木子店片麻杂岩变质年龄.

Author

邱啸飞, 卢山松, 谭娟娟, 童喜润, 吴年文, 杨小莉, 邵鑫, 刘飞, and 杨小丽

Subjects
*TRACE element analysis, *CONTINENTAL crust, *GNEISS, *URANIUM-lead dating, *MONAZITE
Abstract

The Muzidian gneiss complex (MGC) in the Northern Dabie Orogen is the oldest exposed rock formation in the South China block. However, there is still a lack of research on its metamorphic age and tectonic implications. LA-ICP-MS in situ U-Pb dating and trace element analysis of monazite were carried out on two gneiss samples from the MGC. The results show that most monazite grains exhibit homogeneous features with no zoning, evident depletion of HREEs and negative Eu anomalies, suggesting that they may be of metamorphic origin. The monazite U-Pb ages of the two gneiss samples are 129±1Ma and 130±1Ma, respectively, which represent the time of metamorphism of the MGC. These ages are broadly consistent with the emplacement age of the early Cretaceous granitoids in the Muzidian area, as well as the large amount of exposed migmatites in the Northern Dabie Orogen. Our study shows that the extensional collapse of the thickened continental crust and the delamination of the orogenic crustal root during the early Cretaceous of the Dabie Orogen caused contemporaneous metamorphism, migmatation, and magmatism, which constrained the tectonic regime switch time of the Northern Dabie Orogen from compression to extension to ~130Ma. [ABSTRACT FROM AUTHOR]

Published
2025
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26. 北宋定窑茶叶末釉的微观结构与矿物形态学研究.

Author

徐建业, 王富芳, 梁汉东, and 李展平

Subjects
*MINERALS, *SECONDARY ion mass spectrometry, *LASER ablation inductively coupled plasma mass spectrometry, *SCANNING electron microscopy, *OPTICAL microscopes, *RAMAN lasers, *LASER plasmas, SONG dynasty, China, 960-1279
Abstract

The tea-dust glaze ancient porcelain is one of the earliest crystalline glazes, which is rarely studied deeply because of its rarity. In this study, the mineral crystals in tea-dust glaze made in the Ding Kiln of the Northern Song Dynasty were analyzed by optical microscope (OM), laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS), scanning electron microscopy coupled with an X-ray energy dispersive spectrometer (SEM-EDS), laser confocal Raman spectrometer (LRS), and high-resolution time of flight-secondary ion mass spectrometry (ToF-SIMS). The results show that the main crystal phase in the glaze is the same as that of the Longquanwu Kiln in the Liao and Jin Dynasty, which is anorthite and augite. The overall performance of the glaze is that the sauce-black glaze matrix is rich in iron (Fe2O3 mean 9.73%) and the mineral crystal is rich in iron (Fe2O3 mean 11.33%). In addition to α-Fe2O3 crystals, Fe3O4 crystals and other recrystallized minerals after melting, the glaze also has pleonaste, residual kaolinite and other unmelted minerals from raw glaze materials. The residual kaolinite shows that the firing temperature of the samples in this study was most likely below 1200℃. [ABSTRACT FROM AUTHOR]

Published
2025
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27. The Diverse Habitats of Eclogite Formation: Insights From the Mesoproterozoic Glenelg Inlier, Scotland.

Author

Lucas, Nicholas A., Weller, Owen M., Copley, Alex, Mottram, Catherine M., Chapman, Glenn, and McMahon, William J.

Subjects
*SEDIMENTARY rocks, *METAMORPHIC rocks, *ECLOGITE, *GEOLOGICAL time scales, *PHASE equilibrium, *SUTURE zones (Structural geology)
Abstract

Eclogite‐facies rocks provide important constraints on the behaviour of convergent plate boundaries and the geometries of tectonic reconstructions due to the high to ultrahigh pressure conditions at which they form. Many eclogite occurrences are documented near the suture zone of active collisional settings where they are interpreted to mark the approximate location of former ocean basin subduction. Such observations influence tectonic interpretations for older eclogites within more deeply eroded and/or less well‐exposed terranes. The eclogitic Glenelg inlier in northwest Scotland is one such example, with c. 1 Ga eclogites having previously been interpreted as marking the trace of a Grenville‐aged collisional suture zone that defines a third 'arm' to the Grenville orogen alongside well‐defined sutures in North America and Scandinavia. Here we use a combination of geochronology, phase equilibrium modelling and accessory‐phase thermometry to show that the eclogite‐facies assemblages were produced at ∼$$ \sim $$18–19 kbar and 700°C–750°C from c. 1.1 to 1.0 Ga. Accounting for the foreland basin setting of equivalent‐aged sedimentary rocks in the region and demonstrating the thermal viability of this setting, we show that eclogite formation occurred in deforming foreland crust adjacent to the Grenville orogen, in a setting broadly analogous to fault‐bounded basement uplifts in the forelands of active deformation belts, such as the Himalayas and Andes. Our results demonstrate that eclogite‐facies rocks can form in a greater range of tectonic settings than are sometimes considered, with implications for tectonic reconstructions of collisional zones. In this instance, our results remove the need for a third 'arm' of the Grenville orogen by placing Glenelg in a foreland setting, reconciling the absence of plentiful Grenville‐aged metamorphic rocks in northwest Scotland, the sedimentological record and paleomagnetic data in the wider region. [ABSTRACT FROM AUTHOR]

Published
2025
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28. Otolith elemental composition indicates differences in the habitat use for larvae and early juveniles of Japanese jack mackerel (Trachurus japonicus) in the waters around Japan.

Author

Fujinami, Yuki, Takahashi, Motomitsu, Sassa, Chiyuki, Hiraoka, Yuko, Kurota, Hiroyuki, and Ohshimo, Seiji

Subjects
*TRACE element analysis, *TERRITORIAL waters, *MEDIAN (Mathematics), *RECRUITMENT (Population biology), KUROSHIO
Abstract

Trace element analysis of otoliths from core to edge was used to reveal differences in habitats of larvae and early juveniles of Japanese jack mackerel (Trachurus japonicus) caught in the East China Sea (ECS), Pacific Ocean, and Sea of Japan. Multi‐element signatures (Sr:Ca, Mg:Ca, Na:Ca, K:Ca, and Ba:Ca) were analyzed with multivariate statistics to determine whether these element signatures provide insight into regional population structure. The median values of elements: Ca ratios in otolith core region differed significantly among areas, with most elements between the ECS and the Pacific Ocean or Sea of Japan showing significant differences. The Sr:Ca ratios exhibited a V‐shaped trend from the otolith core to the edge, which was likely related to the vertical habitat layer shift of larvae and early juveniles of T. japonicus. Canonical analysis of principal coordinates using the element: Ca ratios and the hatching day were re‐classified according to the sampling area with higher accuracy in the ECS (88–95%) and the Sea of Japan (76–83%) compared to the Pacific Ocean (69–72%). These results indicate that the proportion of eggs, larvae, and early juveniles transported by the Kuroshio Current from the southern ECS—the main spawning ground—to the Pacific Ocean or the Sea of Japan is low and that juveniles distributed in the coastal waters off southwestern Japan may have originated from local spawners. These results suggest that determining the elemental composition of larvae and juveniles of T. japonicus is effective in determining the habitat differences of this species in the three regions. These findings will help to understand population structure and recruitment process of this species around Japan. [ABSTRACT FROM AUTHOR]

Published
2025
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29. LA-ICP-MS Trace Element Characteristics and Geological Significance of Stibnite in the Zhaxikang Pb–Zn–Ag–Sb Deposit, Southern Tibet, SW China.

Author

Qiu, Zijun, Wu, Jinchao, Voudouris, Panagiotis, Tombros, Stylianos, Liu, Jiajun, and Zhai, Degao

Subjects
*LASER ablation inductively coupled plasma mass spectrometry, *INCRUSTATIONS, *COPPER, *SUBSTITUTION reactions, *ORE deposits, *TRACE elements
Abstract

Discovered within the North Himalayan Metallogenic Belt (NHMB), the Zhaxikang Pb–Zn–Ag–Sb deposit stands as the sole super-large scale ore deposit in the region. This deposit holds significant quantities of Pb and Zn (2.066 million tons at 6.38% average grade), Ag (2661 tons at an average of 101.64 g/t), and Sb (0.235 million tons at 1.14% average grade), making it one of China's foremost Sb–polymetallic deposits. Stibnite represents the main carrier of Sb in this deposit and has been of great attention since its initial discovery. However, the trace element composition of stibnite in the Zhaxikang deposit has not yet been determined. This study carried out an analysis of the distribution patterns and substitution processes of trace elements within stibnite gathered from the Zhaxikang deposit, aiming to provide crucial information on ore-forming processes. Utilizing high-precision laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS), we discovered that the studied stibnite is notably enriched in arsenic (~100 ppm) and lead (~10 ppm). Furthermore, the notably consistent time-resolved profiles suggest that elements such as Fe, Cu, As, In, Sn, Hg, and Pb predominantly exist as solid solutions within stibnite. Consequently, it is probable that the enrichment of Cu, Pb, and Sn in stibnite is due to isomorphic substitution reactions, including 3Pb2+↔2Sb3+, Cu+ + Pb2+↔Sb3+, and In3+ + Sn3+↔2Sb3+. Apart from that, Mn, Pb, and Hg with the spiky signals indicate their existence within stibnite as micro-inclusions. Overall, we found that the trace element substitutions in stibnite from the Zhaxikang Pb–Zn–Ag–Sb deposit are complicated. Incorporations of trace elements such as Pb, Cu, and In into stibnite are largely influenced by a variety of factors. The simple lattice structure and constant trace elements in studied stibnite indicate a low-temperature hydrothermal system and a relatively stable process for stibnite formation. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Apatite in Pegmatoid Gabbro (Khudolaz Differentiated Complex, Southern Urals): Electron-Microprobe and LA-ICP-MS Geochemical Study in Context of Petrogenesis.

Author

Rakhimov, Ildar R.

Subjects
*GABBRO, *PLAGIOCLASE, *GEOCHEMISTRY, *APATITE, *LASER ablation inductively coupled plasma mass spectrometry, *CHLORINE
Abstract

The conducted study shows that apatite is one of the key accessory minerals in the ultramafic-mafic rocks of the Khudolaz differentiated complex in the Southern Urals, including late pegmatoid gabbro. Petrographic and mineralogical investigations determine apatite crystallizing simultaneously with hornblende in pegmatoid gabbro from the residual water-saturated melt after plagioclase crystallization at a temperature of 990–800 °C, a pressure of 1–3 kbar, oxygen fugacity from −13.9 to −10.7, and water content of 3.9–5.5 wt. %. Pegmatoid gabbro apatite (Appg) from the Severnyi Buskun composite massif differs from early ultramafic-mafic apatite having a fairly high potential for sulfide-platinum metal mineralization in low chlorine and high fluorine content. Low sulfur concentrations in Appg testify to the lack of sulfide-platinum metal mineralization potential of pegmatoid gabbro, but a scanty potential for rare-metal mineralization (e.g., REE) is possible. Appg is quite poor in REE despite the enrichment of pegmatoid gabbros in REE relative to early ultramafic-mafics, which indicates REE accumulation in the fluid. The ratios of cerium and europium anomalies characterize the Appg crystallization under conditions transitional from the magmatic to the hydrothermal stage. Generally, apatite is a good indicator of the difference in the conditions of formation of late pegmatoid gabbro and early ultramafic-mafic rocks, which determines the importance of this mineral in mineralogical and petrological studies. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Thermochronological Constraints on the Tectonic History of the Arabian–Nubian Shield's Northern Tip, Sinai, Egypt.

Author

Mansour, Sherif, Abdelfadil, Khaled M., Hasebe, Noriko, Tamura, Akihiro, Abdelrahman, Kamal, Gharib, Mohamed A., Fnais, Mohammed S., and Shehata, Amer A.

Subjects
*AGE groups, *THERMOCHRONOMETRY, *LASER ablation inductively coupled plasma mass spectrometry, *EROSION, *RIFTS (Geology)
Abstract

The effects of different regional tectonic events on the Neoproterozoic basement rocks of the Arabian–Nubian Shield in Sinai, as well as the Egyptian unstable and stable shelves, remain uncertain. Coupling fission-track thermochronometry findings with the modeling of the time–temperature history has proved to be an effective method for tackling these issues. The obtained zircon fission-track ages were differentiated into two groups from the Ediacaran–Cambrian and the Ordovician–Carboniferous periods, while the apatite fission-track data revealed two separate groups of cooling ages of the Carboniferous–Triassic and Late Cretaceous ages. The integration of these cooling ages and modeling of the time–temperature history revealed four discrete cooling pulses during the Neoproterozoic, Devonian–Carboniferous, Cretaceous, and Oligocene–Miocene eras. After integrating our findings with the regional tectonic historical and sedimentological records, these could be identified as cooling/exhumation pulses activated in response to the post-accretional event of erosion, Variscan tectonism, the disintegration of Gondwana, and the Gulf of Suez rifting, respectively. Furthermore, the southern border of the Egyptian unstable shelf was found to extend southward to South Sinai and south of the Bahariya depression. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Assessment of Natural Reference Materials for U‐Pb Geochronology of Grossular‐Andradite Garnet.

Author

Beno, Carl J., Lackey, Jade Star, Schmitz, Mark D., Bowman, John R., Stearns, Michael A., Bartley, John M., and Fernandez, Diego P.

Subjects
*REFERENCE sources, *ATOMIC mass, *SINGLE crystals, *GEOLOGICAL time scales, *SKARN, *LASER ablation inductively coupled plasma mass spectrometry, *GARNET
Abstract

Garnet U‐Pb dating by laser ablation‐inductively coupled plasma‐mass spectrometry requires the development of matrix‐matched reference materials of variable chemistry and U mass fraction for accurate analysis. Additional calibration of existing primary reference materials is also justified based on the relatively poor calibration of some of the widely available primary reference materials that are currently utilised by the geoscience community. We present a micro sampling workflow combined with a refined ID‐TIMS methodology for the generation of high precision (~ 0.1%) U‐Pb dates from domains within garnet single crystals. Using this workflow, we calibrated two new natural andradite reference materials, the Jumbo andradite (And99; 110.34 ± 0.03 (0.04) [0.13] Ma, n = 7, MSWD = 1.21) and the Tiptop andradite (And87; 209.57 ± 0.11 (0.13) [0.26] Ma, n = 6, MSWD = 1.39). We also present additional calibration of the widely utilised Willsboro‐Lewis andradite primary reference material (And90; 1024.7 ± 9.5 (9.6) [9.6] Ma (2s; overdispersed), n = 6). Wafers of the Jumbo and Tiptop andradite reference materials are available from the authors upon request. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Exploring emerald global geochemical provenance through fingerprinting and machine learning methods.

Author

Alonso-Perez, Raquel, Day, James M. D., Pearson, D. Graham, Yan Luo, Palacios, Manuel A., Sudhakar, Raju, and Palke, Aaron

Subjects
MACHINE learning, ARTIFICIAL intelligence, CONVOLUTIONAL neural networks, TRACE elements, SUPPORT vector machines
Abstract

Emeralds - the green colored variety of beryl - occur as gem-quality specimens in over fifty deposits globally. While digital traceability methods for emerald have limitations, sample-based approaches offer robust alternatives, particularly for determining the geographic origin of emerald. Three factors make emerald suitable for provenance studies and hence for developing models for origin determination. First, the diverse elemental chemistry of emerald at minor (<1 wt%) and trace levels (<1 to 100's ppmw) exhibits unique inter-element fractionations between global deposits. Second, minimally destructive techniques, including laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS), enable measurement of these diagnostic elemental signatures. Third, when applied to extensive datasets, machine learning (ML) techniques enable the creation of predictive models and statistical discrimination with adequate characterization of the deposits. This study employs a carefully selected dataset comprising more than 1000 LA-ICP-MS analyses of gem-quality emeralds, enriched with new analyses. This dataset represents the largest available for global emerald deposits. We conducted unsupervised exploratory analysis using Principal Component Analysis (PCA). For machine learningbased classification, we employed Support Vector Machine Classification (SVM-C), achieving an initial accuracy rate of 79%. This was enhanced to 96.8% through the use of hierarchical SVM-C with PCA filters as our modeling approach. The ML models were trained using the concentrations of eight statistically significant elements (Li, V, Cr, Fe, Sc, Ga, Rb, Cs). By leveraging high-quality LA-ICP-MS data and ML techniques, accurate identification of the geographical origin of emerald becomes possible. These models are important for accurate provenance of emerald, and from a geochemical perspective, for understanding the formation environments of beryl-bearing pegmatites and shales. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Auriferous Fluid Evolution and the Role of Carbonaceous Matter in a Saddle‐Reef Gold Deposit: Dufferin Deposit, Meguma Terrane, Nova Scotia, Canada.

Author

Kerr, Mitchell J., Hanley, Jacob J., Kontak, Daniel J., Ramlochund, Preetysha, and Zajacz, Zoltán

Subjects
CARBON-based materials, PRECIOUS metals, FLUID inclusions, VEINS (Geology), SEDIMENTARY rocks, GOLD ores
Abstract

The metaturbidite‐hosted, ∼380 Ma Dufferin gold deposit, Meguma terrane, northeastern Appalachian Orogen (Nova Scotia, Canada) is an orogenic gold deposit with mineralized saddle reef‐type quartz veins hosted by metasandstones and black slates in a tightly folded anticline. Together with native gold inclusions, genetically related hydrothermal carbonaceous material (CM) in veins occurs as pyrobitumen in cavities and along fractures/grain boundaries proximal to vein contacts and wallrock fragments. Integrating several microanalytical methods we document the precipitation of gold via coupled fluid‐fO2 reduction (via interaction with CM) and pH increase. These changes in fluid chemistry destabilized gold bisulfide complexes, leading to efficient Au precipitation from a gold‐undersaturated (0.045 ± 0.024 ppm Au; 1σ; n = 58 fluid inclusions) aqueous‐carbonic fluid (H2O‐NaCl‐CO2 ± N2 ± CH4). The proposed mineralization mechanism is supported by: (a) a complementary decrease in Au and redox‐sensitive semimetals (As, Sb), and increase in wall rock‐derived elements (i.e., Mg, K, Ca, Sr, Fe) concentrations in fluid inclusions with time; (b) a corresponding decrease in the XCO2, consistent with CO2 removal via reduction/respeciation and late carbonate precipitation; and (c) gold embedding in, or on, the surface of CM inside mineralized cavities and fractures. Despite mineralizing fluids transporting low concentrations of Au far from saturation, precipitation of gold was locally evidently high where such fluids interacted with CM, contributing to the overall gold endowment of Meguma deposits. This work re‐emphasizes CM as a potential prerequisite for efficient gold precipitation within the overall genetic model for similar orogenic metasedimentary settings globally where the presence and/or role of CM has been documented. Plain Language Summary: The Dufferin gold deposit in Nova Scotia, Canada, formed ∼380 million years ago within metamorphosed sedimentary rocks called the Meguma Group. The deposit contains gold‐bearing quartz veins sandwiched between layers of tightly folded rocks. This study focused on unraveling the mechanisms behind some of the gold deposition within this deposit, specifically where associated with carbonaceous matter (CM). We found a close association between gold and CM, which represents organic matter preserved in the rocks. CM is abundant within small cavities throughout the quartz veins that also contain appreciable gold occurring as microscopic particles in the CM. By using a variety of analytical techniques, we determined that efficient gold mineralization occurred in response to specific chemical changes to the gold‐carrying fluid, including a decrease in the oxidation potential and a decrease in the acidity of the fluid through interaction with the CM‐rich rocks. Such changes to the fluid caused gold to become insoluble and form particles that were deposited in the rocks and vein material. Importantly, despite the fluid having a low concentration of dissolved gold, it exhibited a remarkable ability to deposit significant quantities of the precious metal, underscoring the important role of CM in facilitating efficient gold precipitation from fluids. Key Points: First fluid gold concentrations (0.045 ± 0.024 μg/g) measured from an economic, Meguma‐type metasediment‐hosted gold depositFluid Au, S, As, W, and B concentrations comparable to Alpine and Variscan metamorphic fluids hosted in uneconomic, Au‐poor vein systemsGold and carbonaceous matter are coeval and co‐distributed in flysch wallrocks and vein laminae [ABSTRACT FROM AUTHOR]

Published
2024
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35. Titanite as an indicator of granite fertility and gold mineralization in the Xiaoqinling gold province, North China Craton.

Author

Wei, Quan, Li, Lin, Li, Sheng-Rong, Santosh, M., Alam, Masroor, Chen, Zhen-Yu, Li, Min-Gang, Chen, Xiao-Dan, Wen, Zi-Hao, and Liu, Jia-Wei

Subjects
HYDROTHERMAL alteration, SPHENE, IGNEOUS intrusions, GALLIUM, LASER ablation inductively coupled plasma mass spectrometry
Abstract

The Xiaoqinling gold province, located in the southern margin of the North China Craton (NCC), is the second largest gold-enriched region in China. In this region, the Mesozoic Huashan (HS) and Wenyu (WY) plutons are the major magmatic intrusions coeval with gold mineralization, although they show contrasting characteristics in the distribution of gold. In this study, we use geochemical features of titanite determined by LA-ICP-MS and EPMA analyses and elemental mapping to decipher the mechanisms that led to the difference in gold enrichment related to the two plutons. Titanite from the Wenyu granitic pluton exhibits significantly higher (La/Sm)N, (La/Yb)N, ΣLREE/ΣHREE ratios, and ΣREE concentration and slightly higher (Gd/Yb)N values than those of the Huashan Pluton, suggesting that the Wenyu pluton might have experienced more complex magmatic evolution, widespread hydrothermal alteration, and higher silica activity in the melt than the Huashan pluton. The titanite grains from the Huashan pluton show higher (Nb/Ta)N and (Lu/Hf)N values and significantly lower Zr concentration than those of the Wenyu pluton. The titanite grains from the Wenyu pluton show higher vanadium and gallium concentrations and Fe/Al ratio than those of the Huashan pluton, indicating comparatively higher f o 2 . Furthermore, the titanite grains from Wenyu pluton indicate higher water content in the magma. In addition, magma mingling and magmatic hydrothermal fluids derived from the crust/mantle are critical sources for ore-forming materials. These results suggest that the Wenyu pluton is more conducive to gold migration and enrichment than the Huashan pluton. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Baddeleyite SK10‐3: A Natural Reference Material for Microbeam U‐Pb Geochronology and Hf Isotopic Measurements.

Author

Chen, Ranran, Wu, Shitou, Wang, Hao, Senger, Martin, Paul, André Navin, Sylvester, Paul J., Yang, Yueheng, Yang, Jinhui, and Wu, Fuyuan

Subjects
*CENOZOIC Era, *IGNEOUS rocks, *REFERENCE sources, *ARITHMETIC mean, *GEOLOGICAL time scales
Abstract

Baddeleyite is an important U‐Pb geochronometer and Hf isotope tracer that commonly occurs as an accessory phase in silica‐undersaturated igneous rocks of terrestrial and extra‐terrestrial origin. Currently, very few well‐characterised, large sized reference materials are available for baddeleyite U‐Pb geochronology and Hf isotope measurement. In this study, we document a baddeleyite reference material (SK10‐3) of Cenozoic age. SK10‐3 is inclusion‐free and does not contain secondary alteration minerals. The baddeleyite has uniform U‐Pb ages and Hf isotope ratios, within analytical uncertainty, as demonstrated by multiple LA‐ICP‐MS spot analyses (weighted mean 206Pb/238U age: 31.59 ± 0.11 Ma, MSWD = 0.7, n = 197) and LA‐MC‐ICP‐MS analyses (arithmetic mean 176Hf/177Hf ratio: 0.282741 ± 59, 2s, n = 188). Seven ID‐TIMS analyses yielded a weighted mean 206Pb/238U age of 31.592 ± 0.020/0.022/0.040 Ma (n = 7, 2s, MSWD = 2.2). Nine aliquots of MC‐ICP‐MS analyses yielded an arithmetic mean 176Hf/177Hf ratio of 0.282742 ± 8 (2s). We further demonstrate that the method of shallow‐pit (~ 2 μm depth) ablation substantially improves the precision and accuracy of baddeleyite U‐Pb ages. SK10‐3 has a relatively high 176Yb/177Hf ratio (~ 0.007) compared with most other baddeleyites, allowing the precise measurement of βYb and may be useful in generating the βYb‐βHf relationship during LA‐MC‐ICP‐MS Hf isotope measurement. SK10‐3 may be a useful addition to previously distributed baddeleyite reference materials for microbeam‐based U‐Pb geochronology and Hf isotope measurements. [ABSTRACT FROM AUTHOR]

Published
2024
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37. The Upper Devonian to Lower Carboniferous Billefjorden Group on Bjørnøya, Svalbard, and Its North‐Eastern Greenlandic Provenance.

Author

Janocha, Julian, Grundvåg, Sten‐Andreas, and Stockli, Daniel F.

Subjects
*BRAIDED rivers, *CHANNELS (Hydraulic engineering), *ZIRCON, *SEDIMENTATION & deposition, LAURENTIA (Continent)
Abstract

In this contribution, we document changes in detrital zircon ages in the upper Devonian (Famennian) to lower Carboniferous (Mississippian) Billefjorden Group on Bjørnøya, the southernmost island of Svalbard. This alluvial, coal‐bearing clastic succession is widely distributed across the archipelago and the Barents Shelf. The sediments were deposited in subsidence‐induced lowlands that formed just after regional post‐Caledonian collapse‐related extension, which created the classical 'Old Red Sandstone' basins during the Devonian, and prior to localised rift‐basin development in the middle Carboniferous (Serpukhovian–Moscovian). Moreover, the succession is little affected by Ellesmerian compressional deformation, which occurred in the latest Devonian. However, little is known of the provenance and regional sediment routing in this tectonically transitional period between the post‐Caledonian structuring events in the Devonian and the middle Carboniferous rifting. It has previously been invoked that a regional fault running parallel to the western Barents Shelf margin, the West Bjørnøya Fault, controlled sedimentation in the area. Here, we combine detrital zircon U–Pb ages and sedimentological data to investigate stratigraphic provenance variations and test whether tectonics controlled deposition of the Billefjorden Group on Bjørnøya. Sedimentological investigations demonstrate changes in fluvial style with intercalations between successions dominated by meandering channel fills and abundant overbank fines to sandstone‐dominated sheet‐like successions of braided stream origin. Palaeocurrent data show that two competing drainage directions accompany the changes in fluvial architecture. Northeasterly transport directions, recorded in the braided stream deposits, indicate possible fault‐transverse drainage. The detrital zircon content in these deposits indicates sourcing from Caledonian terranes in Northeast Greenland. Northwest‐oriented transport directions, measured in the meandering channel deposits, are inferred to represent axially positioned drainage systems. These may have been sourced from either Northeast Greenland, a more localised source, or Baltica. The latter would require long‐distance sourcing, which, given the tectonic setting of the region, seems unlikely. Although our sedimentological observations point to syn‐tectonic deposition, this is not clearly captured in the detrital zircon data, suggesting a common source for the Late Devonian–Mississippian fluvial systems of Bjørnøya. Thus, combined with previously published provenance data from Svalbard and Greenland, we demonstrate that the East Greenland Caledonides formed a long‐lived and significant source area which provided sediments to nearby basins from the Devonian to the Early Cretaceous. [ABSTRACT FROM AUTHOR]

Published
2024
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38. 东秦岭钼多金属成矿带夜长坪斑岩-矽卡岩型钼钨矿床磁铁矿成因类型与指示意义.

Author

晏国龙, 祁小军, 肖淳, and 蒋昊原

Abstract

Yechangping super-large porphyry-skarn type Mo-W deposit, located in the East Qinling Mo polymetallic metallogenic belt, preserves crucial information on skarn formation evolution and mineralization. Through detailed field geological surveys and microscopic identification, magnetite in Yechangping Mo-W Deposit is classified into 3 types:Mt1 magnetite, formed during the late skarn stage, clay minerals, etc.; Mt2 magnetite, formed during the oxide stage, is semi-euhedral to euhedral and associated with garnet, tremolite, actinolite, etc.; and Mt3 magnetite, densely disseminated and associated with molybdenite or occurring in quartz polymetallic sulfide veins. Electron probe and LA-ICP-MS in-situ trace element analysis show that the average FeO content increases progressively from Mt1 to Mt3 magnetite. Mt1 magnetite is rich in elements such as Si, Mg, and Na, and has the highest content of V, Cr, Ti, Al, and Mo. Ti content in Mt2 magnetite decreases significantly, with a slight reduction in Si content and the highest levels of Mg and Mn. Mt3 magnetite has the lowest content of Ti, Si, Na, and Ca. The changes in magnetite element characteristics suggest that Fe is easily replaced by Si, Ca, and Al elements, with Mo and other ore-forming elements gradually enriching in the ore-forming fluids during magnetite crystallization. Genesis discrimination diagrams of magnetite indicate that Mt1 magnetite has a different source material compared to Mt2 and Mt3, tending more toward a magmatic-hydrothermal origin, while Mt2 and Mt3 are more metamorphic hydrothermal in nature. The host wall rock participated more in the mineralization with the formation of Mt2 magnetite. From the higher temperature early Mt1 magnetite to the lower temperature late Mt3 magnetite, V and Ti show a clear positive correlation. Discrimination diagrams for fluid-rock interaction indicate that metasomatism intensifies progressively. Therefore, changes in oxygen fugacity and the increasing degree of fluid-rock interaction in Yechangping Mo-W Deposit are the main factors controlling mineralization. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Trace and Minor Element Analysis of Azurite Blues in Fine Arts: Possibilities and Limitations in Provenance Studies.

Author

Hradil, David, Čermáková, Zdeňka, Hradilová, Janka, Bezdička, Petr, and Míková, Jitka

Subjects
*LASER ablation inductively coupled plasma mass spectrometry, *RARE earth metals, *ELECTRON probe microanalysis, *TRACE element analysis, *TRACE analysis, *ARSENIC, *RARE earth oxides
Abstract

Azurite, a historical blue mineral pigment, has previously been described to contain certain elemental impurities. These may originate from host rocks, vein fillings, or the primary copper ore mineralization. In this study, azurites (and also green malachites) from three important Central European deposits with a potential of being exploited for pigment usage already in the Middle Ages have been studied, together with azurite from Chessy, France, with a different geological setting. Using electron probe microanalysis and, more importantly, laser ablation inductively coupled plasma mass spectroscopy for trace elemental analysis, several indicators were pinpointed as important for provenance: characteristic elemental fingerprint of the deposit, e.g., elevated lead (Pb) in combination with rare earth elements, may be combined with zinc (Zn)/arsenic (As) ratio (indicating sources of excess Zn in the primary deposit) and the overall amount of metal impurities (suggesting the source mineral of copper for azurite formation). In addition, malachites from the same deposits were found to preferentially incorporate primary ore metal elements as well as Cd, Mg, Mn, or U. Therefore, if azurite pigment contains an elevated amount of malachite as an impurity, it may significantly influence the overall elemental composition. The results obtained on geological samples were applied to two micro-samples of works of art containing azurite-rich layers originating from the 13th–14th and 16th centuries. It was shown that it is highly beneficial to focus on the overall trace elemental composition of the paint layer and not on the admixed mineral grains, as their presence, especially in minute micro-samples, is largely accidental and thus not representative. Although a higher number of samples need to be studied in the future, the newly described criteria made it possible to exclude some of the localities of the employed azurite pigment. This confirmed the key importance of trace elements analysis of mineral pigments for the provenance studies of fine arts. [ABSTRACT FROM AUTHOR]

Published
2024
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40. 滇西北卓玛铅锌矿床成矿闪锌矿原位微量元素及 硫化物原位硫同位素特征与地质意义

Author

王乾鑫, 冷成彪, 李凯旋, 王大钊, and 张兴春

Abstract

Copyright of Acta Petrologica et Mineralogica / Yanshi Kuangwuxue Zazhi is the property of Acta Petrologica et Mineralogica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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41. 鄂尔多斯盆地中北部直罗组砂岩地球化学、 碎屑锆石 U-Pb年龄对物源和构造背景的限定.

Author

杨桐旭, 俞礽安1. 2., 荣辉, 李彤1., 朱强, 司庆红, 涂家润, and 彭胜龙

Abstract

Copyright of Acta Geoscientica Sinica is the property of Acta Geoscientica Sinica Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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42. Peculiarities of formation, isomorphism and geochemistry of trace elements of sphalerite and wurtzite unusual varieties from the Goniatite occurrence (Pai-Khoi Ridge, Nenets Autonomous District)

Author

Aleksandr B. Makeyev, Ilya V. Vikentyev, Elena V. Kovalchuk, Vera D. Abramova, and Vsevolod Yu. Prokofyev

Subjects
sphalerite, wurtzite, pai-khoi, la-icp-ms, trace elements, fluid, cathodoluminescence, Mining engineering. Metallurgy, TN1-997
Abstract

A unique Mn-, Cd-bearing sphalerite from quartz-calcite veins in the coal-bearing series (Visean C1v) marine sediments in a 50 km segment of the middle course of the Silova-Yakha River in the Arctic zone of the European part of Russia (Pai-Khoi Ridge) has been studied. The veins have a conformable and cross-cutting occurrence in two types of rocks: gray limestones and black siliceous-carbonaceous shales, the area is known as the Goniatite occurrence. The sulfide content in vein samples ranges from 0.1 to 2 vol.%. The chemical composition of 27 monomineral samples of Mn-, Cd-bearing sphalerites was studied, 82 points were analyzed. Correlations between typomorphic elements-impurities were revealed and correlation matrix was constructed. Cu, V, Ga, In, Sn, As, Sb, Bi, Pb, Tl, Se, Ag, Au, Ni are positively correlated with each other; Cd, Mn and Ge are negatively correlated with each other. The hydrothermal fluid involved in crystallization of sphalerite is characterized by low temperature (164-211 °С) and average salinity of 5-6 wt.% eq. NaCl. An updated “portrait” of typomorphic features (composition and properties) of sphalerite of the Pai-Khoi province was obtained. The features allowing to determine the type of impurity entering the sphalerite structure – in the form of isomorphic impurity or in the form of microinclusions of paragenetic association minerals – have been established. Submicron inclusions of sulvanite and colusite, invisible by other methods, were detected in sphalerite (by LA-ICP-MS method).The cathodoluminescence data of sphalerite from the Pai-Khoi province were typified. In contrast to other provinces, ZnS crystals here are characterized by almost complete absence of isomorphic iron. This allowed us to study pure isomorphism schemes of ZnS↔MnS, ZnS↔CdS, namely cathodoluminescence and other types of luminescence. The presence of a rare wurtzite-4H polytype in assemblage with sphalerite was revealed. High contents of strategic metals Cd, Ga, In, Ge in the ZnS matrix, as well as sulvanite (V, Cu) in a single paragenesis were found. A serious reassessment of the potential for industrial use of this mineralization will be required.

Published
2024

43. Evidence of glass bead‐making in the early Islamic Iberian Peninsula.

Author

Boschetti, Cristina, Juan Ares, Jorge, Gilotte, Sophie, Guerrot, Catherine, and Schibille, Nadine

Subjects
*GLASS beads, *GLASS recycling, *LASER ablation inductively coupled plasma mass spectrometry, *CRYSTAL glass, *ARCHAEOLOGICAL excavations, *MASS spectrometry
Abstract

Glass beads from two Islamic archaeological sites in the Tagus valley in central Spain were selected and analysed by laser ablation inductively coupled plasma mass spectrometry (LA‐ICP‐MS), and a subset of samples (n = 6) was analysed for Pb isotopes by multicollector thermal ionization mass spectrometry (MC‐TIMS). The analytical and isotopic data of the beads from Ciudad de Vascos (Toledo) and Albalat (Cáceres) demonstrate beyond reasonable doubt that glass beads were produced in the Iberian Peninsula during the Islamic period using local Pb‐silica and soda‐rich plant‐ash glass. The bead workshops in al‐Andalus were evidently part of an efficient system of glass collection and recycling, and used only relatively simple bead‐making techniques such as winding and folding. At present it is unclear to what extent the Islamic bead‐makers in the Iberian Peninsula were involved in the international trade in glass beads or whether their products were mainly destined for a regional market. Despite local production, some samples show compositional and typological features that suggest the import of finished glass beads, perhaps from Central Asia. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Tracing the magmatic-hydrothermal evolution of the Xianghualing tin-polymetallic skarn deposit, South China: Insights from LA-ICP-MS analysis of fluid inclusions.

Author

Chen, Yong-Kang, Ni, Pei, Pan, Jun-Yi, and Cui, Jian-Ming

Subjects
*CARBONATE rocks, *FLUID inclusions, *SKARN, *ORES, *FLUID control
Abstract

The Xianghualing large tin-polymetallic skarn deposit is located in the Nanling W-Sn metallogenic belt, South China, showing distinct spatial zoning of mineralization. From the contact between granite and carbonate rocks, the mineralization transitions from proximal skarn Sn ore to cassiterite-sulfide ore and more distal Pb–Zn-sulfide ore. This study reveals the fluid evolution and genetic links among these different ore types. The physical and chemical characteristics of fluid inclusions from each ore types indicate that the skarn Sn ore, cassiterite-sulfide ore, and Pb–Zn-sulfide ore all originated from the identical magmatic fluid exsolved from the Laiziling granite. Their formation, however, is controlled by diverse fluid evolutionary processes and host rock characteristics. The Sn–Pb-Zn-rich fluids were primarily derived from cooled and diluted magmatic brine, which is generated by boiling of initial single phase magmatic fluid. Mixing of magmatic brine with meteoric water is crucial to form skarn Sn ore. Redox reactions of aqueous Sn (II) complexes with As (III) species and/or minor CO2 during short cooling period of ore-forming fluid is likely an effective mechanism to form high-grade cassiterite-sulfide ores, accompanied by favorable pH conditions maintained through interaction with carbonate host rocks. The later stage addition of meteoric water prompts the formation of Pb–Zn-sulfide ore. Comparing these findings with the characteristics of initial or pre-ore magmatic fluids in both mineralized and barren granitic systems indicates that high Sn content in the pre-ore fluids and the suitable fractional crystallization degree of the parent magma may determine high Sn mineralization potential in granitic magmatic-hydrothermal systems. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Insights into fluid evolution and Re enrichment by mineral micro-analysis and fluid inclusion constraints: Evidence from the Maronia Cu-Mo ± Re ± Au porphyry system in NE Greece.

Author

Falkenberg, Jan J., Keith, Manuel, Melfos, Vasilios, Hohl, Max, Haase, Karsten M., Voudouris, Panagiotis, Höss, Alica, Wenske, Julia, Klemd, Reiner, Beier, Christoph, Kutzschbach, Martin, and Strauss, Harald

Subjects
*GOLD ores, *FLUID inclusions, *VEINS (Geology), *ISOTOPIC fractionation, *PHASE separation, *MOLYBDENITE
Abstract

Porphyry-epithermal veins hosting Re-rich molybdenite and rheniite (ReS2) from the Maronia Cu-Mo ± Re ± Au porphyry in Thrace, NE Greece, provide new insights into the hydrothermal processes causing extreme Re enrichment. Quartz trace element chemistry (Al/Ti, Ge/Ti), Ti-in-quartz thermometry, and cathodoluminescence imaging reveal multiple quartz generations in consecutive hydrothermal quartz-sulfide veins associated with potassic, sericitic, and argillic alteration. Fluid inclusions in different quartz generations indicate that phase separation and fluid cooling are the main ore-forming processes in the porphyry stage (~ 500 – 350 °C), whereas mixing of a vapor-rich fluid with metalliferous (e.g., Pb, Zn, Au) meteoric water forms the epithermal veins (~ 280 °C). These processes are recorded by trace element ratios in pyrite that are sensitive to changes in fluid temperature (Se/Te), fluid salinity (As/Sb, Co/As), and mixing between fluids of magmatic and meteoric origin (Se/Ge). Highly variable intra-grain δ34S values in pyrite record S isotope fractionation during SO2 disproportionation and phase separation, emphasizing the importance of in situ δ34S analysis to unravel ore-forming processes. High δ34S (~ 4.5‰) values of sulfides are indicative of low SO42−/H2S fluid ratios buffered by the local host rocks and mixing of the magma-derived fluid with meteoric water. The formation of Re-rich molybdenite (~ 6600 ppm) is favored by cooling and reduction of a magma-derived, high-temperature (~400 °C), oxidized, and Re-rich fluid triggering efficient Re precipitation in early veins in the potassic alteration zone. The systematic temporal fluid evolution therefore reveals that coeval cooling and reduction of oxidized Re-rich fluids cause extreme Re enrichment at the Maronia porphyry system. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Porphyry indicator zircons (PIZ) from the Kaziranga porphyry Cu–S mineralization, NE India: an exploratory tool assessing magma fertility.

Author

Majumdar, Dilip, Gogoi, Abhijit, Cottle, John M., and Borah, Debasish

Subjects
*ISLAND arcs, *MANTLE plumes, *SHEAR zones, *PORPHYRY, *ZIRCON
Abstract

Porphyry indicator zircons (PIZ) are often used as an exploratory guide to distinguish fertile granitoid-hosted porphyry copper deposits (PCD). Alumina-saturated granitoids with higher zirconium (> 200 ppm) contents are often the hosts of PCD. REE profiling of zircon is used here to evaluate the chemistry of zircon from a blend of I- and A-type granitoids that hosts the 'Kaziranga' porphyry copper mineralization in the Karbi Hills of the Shillong Plateau. Zircon Hf(t) (1.69–9.88; av.4.65) and whole rock 87Sr/86Sr (0.703) of the Kaziranga granitoids suggest magma derivation in an intraplate or primitive island arc tectonic setting, in which the active mechanism of magma derivation was partial melting of a metasomatically enriched lithospheric mantle that was probably fertilized by an intraplate mantle plume. The fertility indicators with PIZ are grouped with respect to the distribution pattern of normalized REEs, as they exhibit low LREE and enriched HREE, large + Ce, and small -Eu anomalies. The hypogene alteration zones have developed on a regular basis, the potassic alteration zone being close to the central zone around Kuthori in the north Karbi Hills. Although the hosts demonstrate expansion and development of the hypogene alteration zones, the zircons from the mineralized granitoids of Kuthori central zone and granitoids of the nearby Panbari–Dallamara shear zone have similar REE pattern. The target zone's zircon has higher values of ΣHREE, U, Th, Y, Nb, and Hf. The admissible range of fertile PCD is matched by the cross plots of critical element ratios, demonstrating high calculated Ti in zircon temperature (up to 828 °C). [ABSTRACT FROM AUTHOR]

Published
2024
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47. Exploring the limits of the provenience postulate: chemical and mineralogical characterization of Bronze Age ceramics from the Great Hungarian Plain.

Author

Golitko, Mark, Riebe, Danielle J., Kreiter, Attila, Duffy, Paul R., and Parditka, Györgyi

Abstract

Determining the provenience of archaeological objects relies on the so-called “provenience postulate,” namely, that sources of these objects are more compositionally distinct from each other than they are internally variable. For ceramics, it can be relatively straightforward in geologically heterogeneous environments to determine where vessels were produced, and whether they were traded or not. In geologically homogeneous regions, this can be far more complicated. In this study, we mineralogically and chemically compare Bronze Age ceramics (primarily Middle Bronze Age) from five archaeological sites on the Great Hungarian Plain to a large regional clay sample. The Great Hungarian Plain is comprised almost entirely of Pleistocene loess deposits, yet prior compositional studies have identified patterned variability between ceramics from different sites. Our results show that chemical variation in the region is continuous and clinal, making it difficult to strictly apply the provenience postulate to identify distinct production locations. However, we show that this clinal chemical variability can be used to make broad statements about whether most ceramics at any given site were produced relatively locally or were obtained from further distances (c. 50 km or more). We show that while production at most of our study sites was likely relatively localized, in one instance (the tell at Berettyóújfalu-Herpály-Földvár), many ceramics may have been obtained from other Bronze Age communities, including those in the Körös River drainage. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Tracing the Genesis and Mineralization Mechanism of the Xiejiagou Pb‒Zn Deposit in Gansu, China: Insights from Trace Element Analysis, Fluid Inclusion Studies, and the Sulfur Isotopic Composition.

Author

Chenxiao Zhang, Bai, Ronglong, Guo, Dongbao, Chen, Xuefeng, Yang, Lijuan, Yang, Mingxia, Xia, Xiaoyu, and Wang, Kaining

Abstract

The Xicheng ore field in West Qinling contains numerous Pb‒Zn deposits of varying sizes and is one of the largest areas of Pb‒Zn mineral resources in China. The Xiejiagou Pb‒Zn deposit is in the central part of the southern belt of the Xicheng ore field. No research has been completed on the trace elements and origin of this deposit. To supplement the geochemical information for each deposit in the Xicheng ore field and provide a scientific basis for the exploration of critical metals in the region, the sulfide in the Xiejiagou deposit is selected as the subject of investigation in this study, and its trace element composition is examined using laser ablation–inductively coupled plasma–mass spectrometry (LA–ICP‒MS), accompanied by fluid inclusion thermometry and sulfur isotope analysis, to elucidate the geochemical characteristics of the deposit and propose its genesis. The results showed that the compositions of the trace elements in different sulfides differ greatly, with sphalerite mainly enriched in Cd and relatively enriched in Ge, Mn and In; galena mainly enriched in Ag and relatively enriched in Se, Ge and Tl; chalcopyrite relatively enriched in Sn and Ge; and pyrite relatively enriched in Ni, Co, Ge and Tl. The critical metals are mainly in sphalerite. Zn and Cd mapping diagrams of sphalerite suggest a possible Zn2+ ↔ Cd2+ substitution mechanism; Fe and Mn are positively correlated, while Fe and Zn are negatively correlated, suggesting a possible Fe2+ + Mn2+ ↔ 2Zn2+-coupled substitution mechanism; and the positive correlation between Cu and Ge is strong, while the difference in the content is large, suggesting a substitution mechanism involving (n + 1)Zn2+ ↔ Ge2+ + nCu2+. The sulfur isotopes show obvious heavy sulfur characteristics; the sulfur source is likely Middle Devonian seawater sulfate or marine sulfate from the strata, and the production of reduced sulfur is closely related to thermochemical sulfate reduction (TSR). The trace element compositions of sulfides in the Xiejiagou Pb‒Zn deposit exhibit characteristics that are essentially consistent with those of Mississippi valley-type (MVT) deposits, which clearly distinguish them from sedimentary exhalative (SEDEX) deposits. Additionally, the homogenization temperatures of the fluid inclusions in this deposit are lower than those of the SEDEX deposits; they range between 120 and 160°C, with a mean value of 172°C. Overall, the results indicate that the deposit is classified as an MVT Pb‒Zn deposit, and in this article, a mineralization model diagram has been drawn for the Xiejiagou Pb–Zn deposit. [ABSTRACT FROM AUTHOR]

Published
2024
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49. The Gulf of Suez rifting: implications from low-temperature thermochronology.

Author

Mansour, Sherif, Hasebe, Noriko, Abdelrahman, Kamal, Fnais, Mohammed S., and Tamura, Akihiro

Subjects
*SHIELDS (Geology), *MANTLE plumes, *AGE groups, *LASER ablation inductively coupled plasma mass spectrometry, *ZIRCON
Abstract

The Gulf of Suez is a continental rift basin that has been developed during the Oligocene-Miocene as a northern extension of the Red Sea rift system. The Oligo-Miocene rift-activated flanks are represented by exposures of the Neoproterozoic basement rocks of the Arabian-Nubian Shield. An additional thermal overprint (i.e. mantle plume) and the preceding tectono-thermal events that also affected the rifting dynamics and the uplift of its flanks remain uncertain. We here present thermochronological data for 20 basement samples collected from the Gabal Somr ElQaa area at the northwestern flank of the Gulf of Suez. The resulted zircon fission-track ages could be divided temporospatially into two groups: the Cambrian and the Silurian-Devonian with average ages of 503 ± 14 Ma and 407 ± 11 Ma, respectively. While apatite fission-track data reveal three different age groups of the Devonian-Carboniferous, the Permian-Triassic, and the Late Cretaceous, with average ages of 349 ± 10 Ma, 246 ± 6 Ma, and 81 ± 5 Ma, respectively. The modelled t-T histories indicate four cooling pulses during the Neoproterozoic, the Devonian-Carboniferous, the Cretaceous, and the Oligocene-Miocene. Integrating our findings with the regional tectonism and depositional records indicates that these cooling pulses could be attributed to synchronous activities of the post-accretion erosional event, the Variscan tectonic event, the Mid-Atlantic Ridge spreading, and the Gulf of Suez rifting. The Gulf of Suez is a passive rift, formed by a single and rapid rifting pulse within the framework of the Red Sea rift system. An additional east-southward far-field thermal overprint from the Arabian marginal plume partially affected the Suez rifting process. This thermal print affected only the rift’s southern portion of its eastern flank, causing syn-rift cooling ages, highly elevated rift flanks, and an increased heat flow. The western rift flank and the northern segment of the eastern flank are characterized by pre-rift cooling ages, modest rift flanks, and reduction in heat flow. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Chumnungwa Glass Beads: New Insights into the Geochemistry, Circulation, and Consumption Patterns of Pre-European Glass Beads in Iron Age Southern Africa, CE 980–1650.

Author

Nyamushosho, Robert T., Moffett, Abigail J., Chirikure, Shadreck, Bandama, Foreman, Dussubieux, Laure, Stephens, Jay, Mathoho, Eric N., and Sitas, Ari

Subjects
*GLASS beads, *ARCHAEOLOGICAL dating, *ARCHAEOLOGICAL excavations, *TAXONOMY, *CLASSIFICATION
Abstract

Glass beads first appear in the archaeological record of southern Africa around the mid-first millennium CE, marking the earliest signatures of extensive connections between the southern African region, the East African coast, and the broader Indian Ocean rim. Key research focused on glass beads, particularly from notable southern African polities, like the renowned Mapungubwe and Great Zimbabwe sites, has laid the groundwork for a regional taxonomic series of these beads, emphasizing their role as indicators of wealth and social status. This paper introduces new data on 59 glass beads from a recently excavated and lesser-known Zimbabwe culture site in the Mberengwa region of south-central Zimbabwe. The analysis employs non-invasive techniques, including typological classification and laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS). The investigation identifies six glass bead series from Chumnungwa, composed of plant ash-lime (v-Na-Ca), vegetable soda-high alumina (v-Na-Al), and soda-based glasses with high-alumina concentrations (m-Na-Al). These beads, widely distributed in Asia and Africa between the eight and seventeenth centuries, shed new light on the geochemistry, provenance, and circulation patterns of glass beads in southern Africa, particularly within a community situated beyond the well-known Iron Age polities. Notably, Chumnungwa emerges as the first known Zimbabwe culture site in southern Africa to yield m-Na-Al 6 glass beads. However, as recently demonstrated at the Toutswe sites in Botswana, it is probable that other Zimbabwe culture sites in the region also possessed m-Na-Al 6 glass beads. These beads may have been misclassified as m-Na-Al 2 glass since this group was only recently unveiled on the East African coast, after the bulk of the currently available literature had been published. Insights drawn from contextual recovery data and Shona anthropology form the basis for an extended discussion on the consumption and sociality of glass beads in Iron Age southern Africa. Ultimately, the study underscores the challenge of typologically categorizing beads into established series without the application of LA-ICP-MS and other scientific approaches. [ABSTRACT FROM AUTHOR]

Published
2024
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