Metallogenesis at the Carris W–Mo–Sn deposit (Gerês, Portugal): Constraints from fluid inclusions, mineral geochemistry, Re–Os and He–Ar isotopes

Moura, António; Dória, A.; Neiva, A.M.R.; Gomes, C. Leal; Creaser, Robert A.

doi:10.1016/j.oregeorev.2013.08.001

Cited by 43 publications

(14 citation statements)

References 66 publications

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“…Several studies, particularly in recent years, suggest that FI in gangue minerals may not provide the same data as those investigated in Sn-W ore minerals, particularly for quartz which shows systematically lower FI T h (e.g., Campbell and Panter 1990;Moura et al, 2014;Ni et al, 2015a;Legros et al, 2019). Nevertheless, in most of these studies, petrographic textures clearly show that the gangue minerals postdate the ore.…”

Section: Comparison With Other W Depositsmentioning

confidence: 92%

Contrasting fluid behavior during two styles of greisen alteration leading to distinct wolframite mineralizations: The Echassières district (Massif Central, France)

Monnier

Salvi

Jourdan

et al. 2020

Ore Geology Reviews

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 Fluid cooling, without evidence of sharp pressure variations, is the main cause for one wolframite mineralization episode.  Fluid flashing (vaporization), triggered by fracture-induced pressure drops, initiated crystallization of a second type of wolframite mineralization.  Greisenization of the Beauvoir granite is a continuous process (ca. 400°C down to 190°C), occurring at high temperature as pervasive alteration of the granite body, while at lower temperature it is localized to a vein system.  Globally, greisen-forming fluids have a strong potential for transporting and precipitating W. 2  In greisen systems worldwide, regional veins distal to the altered causative magmatic body can be mineralized by greisen-forming fluids.

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Section: Comparison With Other W Depositsmentioning

confidence: 92%

Contrasting fluid behavior during two styles of greisen alteration leading to distinct wolframite mineralizations: The Echassières district (Massif Central, France)

Monnier

Salvi

Jourdan

et al. 2020

Ore Geology Reviews

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“…Deng et al [43] obtained a molybdenite Re-Os age of 225.5 ± 3. 6 Ma from altered granites in the Indosinian granitic batholith, indicating a possibility for the Indosinian mineralization event in the Xitian ore field; however, this age may not represent the age of the large-scale skarn-type W-Sn mineralization in the Xitian ore field. It was proposed that the skarn occurred in the contact zone between the Yanshanian granites and the Devonian dolomitic limestone [19].…”

Section: Introductionmentioning

confidence: 92%

“…Accompanied by the greater demand for W-Sn, the study and exploitation of W-Sn deposits have long been a hot topic [1][2][3][4][5][6][7][8][9][10][11][12][13]. China holds the largest resources of W and Sn in terms of production and reserves, and their reserves have accounted for ca.…”

Section: Introductionmentioning

confidence: 99%

Geochronology and Genesis of the Xitian W-Sn Polymetallic Deposit in Eastern Hunan Province, South China: Evidence from Zircon U-Pb and Muscovite Ar-Ar Dating, Petrochemistry, and Wolframite Sr-Nd-Pb Isotopes

Cao

Yang

et al. 2018

Minerals

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Abstract:The recently explored Xitian tungsten-tin (W-Sn) polymetallic ore field, located in Hunan province, South China, is one of the largest ore fields in the Nanling Range (NLR). Two major metallogenic types appeared in this ore field, skarn-and quartz vein-type. They are distributed within Longshang, Heshuxia, Shaiheling, Hejiangkou, Goudalan, and so on. Hydrothermal zircons from two altered granites yielded U-Pb ages of 152.8 ± 1.1 Ma, and 226.0 ± 2.8 Ma, respectively. Two muscovite samples from ore-bearing quartz vein yielded 40 Ar/ 39 Ar plateau ages of 156.6 ± 0.7 Ma, 149.5 ± 0.8 Ma, respectively. Combined with the geological evidence, two metallogenic events are proposed in the Xitian ore field, with skarn-type W-Sn mineralization in Late Triassic (Indosinian) and quartz vein/greisen type W-Sn mineralization in Late Jurassic (Yanshanian). The relatively low Ce/Ce* ratios and high Y/Ho ratios in zircons from two altered granites indicate that the hydrothermal fluids of two metallogenic events are characterized by low oxygen fugacities and enrichment in F. The similar chondrite-normalized patterns between the skarn and Xitian Indosinian granites and Sr-Nd-Pb isotopic compositions of wolframite suggest that the metal sources for both types W-Sn mineralization are derived from a crustal source.

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“…In Cornwall, high-temperature Sn-W mineralization related to granite yields ages of 293.3±1.2Ma, whereas hydrothermal mineralization is younger (Late Jurassic/Early Cretaceous; Chen et al, 1996). In the Iberian Massif, W-Mo-Sn quartz veins of the Carris deposit, north Portugal, yield a Re-Os molybdenite age of 279.4±1.2Ma, indicating that circulation of mineralizing fluids took place up to 1-4Ma after the emplacement of the Carris granite (Moura et al, 2014). Thus, although late-Variscan mineralization in part is related to intrusions, in part to hydrothermal veins, it is controlled by the same extensional processes that acted on the large scale.…”

Section: Late-variscan Hydrothermal Mineralizationmentioning

confidence: 99%

Late-Variscan multistage hydrothermal processes unveiled by chemical ages coupled with compositiona.

Timón-Sánchez

Moro

Romer³

et al. 2019

GACTA

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The scheelite skarn from Los Santos and the W-Au veins from El Cabaco district, located in the Spanish Central System Batholith (SCSB), are some of the best-known tungsten ore deposits in Spain. Uraninite is an accessory mineral in both deposits, which underwent several hydrothermal flow events. Chemical and textural characteristics as well as electron microprobe U-Th-Pb uraninite chemical data from the different stages of the skarn and the vein-type mineralizations are presented here. Based on these data the uraninite was able to be classified into two groups. Group I uraninite has an octahedral habit and occurs as inclusions in K-feldspar relicts of the leucogranite related to Los Santos skarn formation. It shows high Th (6.95 to 8.51wt.% ThO 2) and high Rare Earth Elements (REEs) contents (0.55 to 1.38wt.% ∑REE 2 O 3). Group II uraninite occurs i) associated to El Cabaco granite, in a greenish selvage-style greisen and its reddish envelope and in the mineralized rimming quartz veins and ii) in Los Santos high temperature endoskarn and anorthite skarn, where it is associated with U-rich mica. This uraninite type has lower Th and ∑REE 2 O 3 contents than Group-I uraninite. The mineral chemistry and the assemblage and textural relationships suggest that Group-I uraninite is magmatic and the attained U-Th-Pb chemical age of 300±4Ma is interpreted as the magmatic age of the skarn-forming aplite granites in the western part of the SCSB. Group-II uraninite includes two events: i) a hydrothermal uraninite, which yields an age of 295±2Ma, dates a strong-alkali mobilization and early tungsten deposition and ii) a later hydrothermal processes, around 287±4Ma, that resulted in sulfides and late scheelite precipitation and widespread silicification. Finally, the gold deposition is younger than this silicification according to textural criteria. Therefore, W-Au deposits in the western part of the SCSB were formed by superposition of several processes that took place some 15Ma after the skarn-forming granite crystallized. Comparable W, W-Au and U deposits in the Variscan orogenic belt show a similar timing of hydrothermal events, suggesting that the hydrothermal history was controlled by large-scale Late-Variscan tectonic processes. Uraninite. U-Pb dating. W-Au deposits. Spanish Central System Batholith. Variscan belt.

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Metallogenesis at the Carris W–Mo–Sn deposit (Gerês, Portugal): Constraints from fluid inclusions, mineral geochemistry, Re–Os and He–Ar isotopes

Cited by 43 publications

References 66 publications

Contrasting fluid behavior during two styles of greisen alteration leading to distinct wolframite mineralizations: The Echassières district (Massif Central, France)

Contrasting fluid behavior during two styles of greisen alteration leading to distinct wolframite mineralizations: The Echassières district (Massif Central, France)

Geochronology and Genesis of the Xitian W-Sn Polymetallic Deposit in Eastern Hunan Province, South China: Evidence from Zircon U-Pb and Muscovite Ar-Ar Dating, Petrochemistry, and Wolframite Sr-Nd-Pb Isotopes

Late-Variscan multistage hydrothermal processes unveiled by chemical ages coupled with compositiona.

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