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Paragenesis of an Orogenic Gold Deposit: New Insights on Mineralizing Processes at the Grass Valley District, California

Taylor, Ryan D. ; Monecke, Thomas ; Reynolds, T. James ; [weitere]

Society of Economic Geologists, Inc. ; 2021

In: Economic Geology Vol. 116, No. 2 ( 2021-03-01), p. 323-356

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 116, No. 2 ( 2021-03-01), p. 323-356

Kurzfassung: The Grass Valley orogenic gold district in the Sierra Nevada foothills province, central California, is the largest historical gold producer of the North American Cordillera. Gold mineralization is associated with shallowly dipping north-south veins hosted by the 160 Ma Grass Valley granodiorite to the southwest of the Grass Valley fault and steeply dipping east-west veins in accreted oceanic rocks to the northeast of this major fault. Quartz veins from both vein types show well-preserved primary textural relationships. Using a combination of petrographic and microanalytical techniques, the paragenetic sequence of minerals within the veins and the compositions of ore minerals were determined to constrain the mechanisms of quartz vein formation and gold deposition. The veins are composed of early quartz that formed through cooling of hydrothermal fluids derived from a geopressured reservoir at depth. The early quartz shows growth zoning in optical cathodoluminescence and contains abundant growth bands of primary inclusions. The primary inclusion assemblages and myriads of crosscutting secondary fluid inclusions have been affected by postentrapment modification, suggesting that early quartz formation was postdated by pronounced pressure fluctuations. These pressure fluctuations, presumably involving changes from lithostatic to hydrostatic conditions, may be related to fault failure of the host structure as predicted by the fault-valve model. Fluid flow associated with pressure cycling took place along microfractures and grain boundaries resulting in extensive recrystallization of the early quartz. Deposition of pyrite, arsenopyrite, and first-generation gold from these hydrothermal fluids causing recrystallization of the early quartz occurred as a result of wall-rock sulfidation. The gold forms invisible gold in the compositionally zoned pyrite or micron-sized inclusions within pyrite growth zones. The latest growth zones in euhedral quartz crystals that formed in association with this stage of the paragenesis contain very rare primary fluid inclusions that have not been affected by postentrapment modification. The hydrothermal system transitioned entirely to hydrostatic conditions immediately after formation of the latest quartz, explaining the preservation of the primary fluid inclusions. The formation of minor quartz in open spaces was followed by the deposition of second-generation native gold and telluride minerals that are commonly associated with base metal sulfides. Ore formation at this stage of the paragenesis is attributed to the rapid decompression of hydrothermal fluids escaping from the geopressured part of the crust into the overlying hydrostatic realm. There is no fluid inclusion evidence that this pressure drop resulted in fluid immiscibility of the hydrothermal fluids. Fluid inclusion evidence suggests that the north-south veins formed at a paleodepth of ~8 km, whereas the east-west veins appear to have formed at ~10 to 11 km below surface, confirming previous inferences that the NE-dipping Grass Valley reverse fault accommodated a large displacement. The findings of the study at Grass Valley have significant implications for the model for orogenic gold deposits, as the reconstruction of the paragenetic relationships provides evidence for the occurrence of two discrete events of gold introduction that occurred at different conditions during the evolution of the hydrothermal system.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.4794

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2021

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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The Influence of CO2 on the Solubility of Quartz in Single-Phase Hydrothermal Fluids: Implications for the Formation of Stockwork Veins in Porphyry Copper Deposits

Monecke, Thomas ; Monecke, Jochen ; Reynolds, T. James

Society of Economic Geologists, Inc. ; 2019

In: Economic Geology Vol. 114, No. 6 ( 2019-09-01), p. 1195-1206

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 114, No. 6 ( 2019-09-01), p. 1195-1206

Kurzfassung: Porphyry copper deposits consist of low-grade stockwork and disseminated sulfide zones that contain characteristic vein generations formed during the evolution of the hydrothermal systems. The present contribution examines the influence of variable CO2 concentrations on the solubility of quartz in single-phase hydrothermal fluids forming stockwork veins in porphyry deposits at temperatures of 150° to 550°C and pressures ranging from 100 to 2,000 bar at concentrations up to 8 mol % CO2. The calculations demonstrate that quartz solubility in hydrothermal fluids decreases with increasing CO2 content. Retrograde quartz solubility is less pronounced in CO2-bearing fluids and is not observed in single-phase fluids having CO2 concentrations exceeding 6 mol %. Despite the effects of CO2, retrograde quartz solubility plays an important role in the formation of porphyry stockwork veins that contain little or no quartz as a gangue mineral. At high temperatures and lithostatic pressure conditions below 900 bar, early biotite veins can form as a result of quasi-isobaric cooling of single-phase hydrothermal fluids under conditions of retrograde quartz solubility or near-constant quartz solubility. Stock-work veins consisting of molybdenite or hypogene copper sulfide minerals lacking quartz could form at temperatures of up to 450°C under hydrostatic pressures ranging from ~250 to 900 bar. In the presence of CO2, retrograde quartz solubility is shifted toward slightly lower temperatures at constant pressure. At temperatures below ≾375°C, quartz is precipitated during quasi-isobaric cooling irrespective of CO2 content of the hydrothermal fluids, resulting in the formation of late porphyry quartz veins.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.4680

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2019

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Quartz Solubility in the H2O-NaCl System: A Framework for Understanding Vein Formation in Porphyry Copper Deposits

Monecke, Thomas ; Monecke, Jochen ; Reynolds, T. James ; [weitere]

Society of Economic Geologists, Inc. ; 2018

In: Economic Geology Vol. 113, No. 5 ( 2018-08-01), p. 1007-1046

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 113, No. 5 ( 2018-08-01), p. 1007-1046

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.2018.4580

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2018

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Evolution of High-Level Magmatic-Hydrothermal Systems: New Insights from Ore Paragenesis of the Veladero High-Sulfidation Epithermal Au-Ag Deposit, El Indio-Pascua Belt, Argentina

Holley, Elizabeth A. ; Monecke, Thomas ; Bissig, Thomas ; [weitere]

Society of Economic Geologists, Inc. ; 2017

In: Economic Geology Vol. 112, No. 7 ( 2017-11-1), p. 1747-1771

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 112, No. 7 ( 2017-11-1), p. 1747-1771

Kurzfassung: The world-class Veladero high-sulfidation epithermal Au-Ag deposit is located in the Andean cordillera of Argentina near the northern end of the El Indio-Pascua metallogenic belt. The deposit comprises two nearly coalescing subhorizontal orebodies that are centered on an extensive zone of intense hydrothermal alteration. Intensely altered volcanic rocks are composed of fine-grained groundmass quartz that formed as a result of extreme acid leaching. These quartz grains contain ubiquitous rutile inclusions as well as healed microfractures of vapor-filled inclusions that record magmatic vapor streaming through the Miocene volcanic host succession. Condensation of the magmatic vapor into ambient groundwater generated the highly acidic waters responsible for the alteration. Alunite is present in the fine-grained groundmass quartz and fills vugs in the altered rocks. Stable isotope data indicate that the alunite formed through the disproportionation of SO2 in the condensed magmatic vapor. The fine-grained groundmass quartz is crosscut by later fracture-controlled euhedral quartz that is texturally associated with ore minerals. The euhedral quartz crystals show oscillatory growth zoning and contain rare primary fluid inclusions suggesting that quartz formation occurred at ~200°C from a moderately saline ( 〈 5 wt % NaCl equiv) liquid-phase hydrothermal fluid. High-fineness native Au grains are hosted in euhedral quartzlined void spaces and along fractures. In addition to native Au, vugs and fractures in the silicified volcanic rocks host Fe oxide/hydroxide and jarosite that are interpreted to represent the oxidation products of hypogene sulfide minerals that formed during and after the late stages of quartz formation. Results of previous jarosite dating suggest that pervasive oxidation of the orebody commenced during the waning stages of the hydrothermal activity or immediately thereafter. Oxidation of the orebody continued in the supergene environment for at least 3 m.y. Laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) showed that jarosite, which formed as a result of the oxidation of the orebody, is the principal host for Ag in Veladero ore, explaining the low (ca. 10%) Ag recovery from the oxide ore. The Veladero high-sulfidation epithermal deposit is interpreted to have formed in the shallow part of a magmatic-hydrothermal system. Early alteration related to magmatic vapor discharge was followed by later mineralization from liquid-phase hydrothermal fluids under reduced and slightly acidic to near-neutral conditions. This change from early vapor-dominated to later liquid-dominated magmatic-hydrothermal fluid flow was key in formation of the deposit.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.2017.4528

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2017

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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The Veladero High-Sulfidation Epithermal Gold Deposit, El Indio-Pascua Belt, Argentina: Geochronology of Alunite and Jarosite

Holley, Elizabeth A. ; Bissig, Thomas ; Monecke, Thomas

Society of Economic Geologists, Inc. ; 2016

In: Economic Geology Vol. 111, No. 2 ( 2016-03), p. 311-330

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 111, No. 2 ( 2016-03), p. 311-330

Materialart: Online-Ressource

ISSN: 0361-0128 , 1554-0774

URL: Article

DOI: 10.2113/econgeo.111.2.311

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2016

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Evolution of the Magmatic-Hydrothermal System at the Santa Rita Porphyry Cu Deposit, New Mexico, USA: Importance of Intermediate-Density Fluids in Ore Formation

Tsuruoka, Subaru ; Monecke, Thomas ; Reynolds, T. James

Society of Economic Geologists, Inc. ; 2021

In: Economic Geology Vol. 116, No. 6 ( 2021-09-01), p. 1267-1284

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 116, No. 6 ( 2021-09-01), p. 1267-1284

Kurzfassung: The Santa Rita porphyry Cu deposit in New Mexico, USA, is characterized by a stockwork of three vein types that differ in morphology, mineralogy, and associated alteration assemblages. Early quartz veins associated with potassic alteration are composed of recrystallized granular quartz grains that host ubiquitous hypersaline liquid and vapor-rich fluid inclusions. The early quartz likely formed at high (≳500°C) temperatures and lithostatic pressures. Hypogene Cu mineralization at Santa Rita is in sulfide veins that reopened or crosscut the early quartz veins. The sulfide veins are surrounded by alteration halos containing chlorite and K-feldspar. Rare quartz crystals are present in some of these chalcopyrite and pyrite veins. The cores of the quartz crystals contain hypersaline liquid and vapor-rich fluid inclusions, whereas the rims mostly contain hypersaline liquid inclusions. The quartz crystals are interpreted to have formed close to the ductile-brittle transition as a result of the pressure drop from lithostatic to hydrostatic conditions. Formation of the quartz crystals was postdated by the deposition of Cu sulfides. Grain boundaries between the quartz and the sulfide minerals are irregular in shape, with sulfide crosscutting growth zones in the quartz. The Cu sulfides are interpreted to have formed from intermediate-density fluids that form secondary fluid inclusion assemblages in all earlier-formed quartz types. Microthermometric investigations showed that these fluid inclusion assemblages homogenize at ~385° to 435°C by critical or near-critical behavior and have salinities of & lt;10 wt % NaCl equiv. The precipitation of Cu sulfides occurred as a result of cooling of these fluids following their escape from the lithostatic into the hydrostatic realm. Retrograde quartz solubility caused the corrosion of earlier-formed quartz during Cu sulfide deposition. The youngest veins at Santa Rita are composed of quartz and pyrite. These veins are associated with intense sericite alteration that overprinted all earlier alteration assemblages. The late quartz hosts primary and secondary liquid-rich fluid inclusions, but no intermediate-density fluid inclusions were identified. This quartz vein type formed at temperatures & lt;360°C and hydrostatic pressures. The paragenetic relationships show that hypogene Cu mineralization at Santa Rita postdated potassic alteration of the host rocks. The Cu mineralization was formed by cooling intermediate-density fluids with critical or near-critical densities as they escaped from lithostatic to hydrostatic conditions.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.4831

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2021

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Textural Characteristics of Barren and Mineralized Colloform Quartz Bands at the Low-Sulfidation Epithermal Deposits of the Omu Camp in Hokkaido, Japan: Implications for Processes Resulting in Bonanza-Grade Precious Metal Enrichment

Zeeck, Lauren R. ; Monecke, Thomas ; Reynolds, T. James ; [weitere]

Society of Economic Geologists, Inc. ; 2021

In: Economic Geology Vol. 116, No. 2 ( 2021-03-01), p. 407-425

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 116, No. 2 ( 2021-03-01), p. 407-425

Kurzfassung: The Miocene low-sulfidation epithermal deposits of the Omu camp in northeastern Hokkaido, Japan, are small past-producers of precious metals and represent significant exploration targets for high-grade Au and Ag ores. The quartz textures of ore samples and the distribution of ore minerals within quartz veins were studied to identify the processes that resulted in the bonanza-grade precious metal enrichment in these deposits. In the high-grade vein samples, which are crustiform or brecciated in hand specimen, ore minerals exclusively occur within colloform quartz bands. High-magnification microscopy reveals that ore-bearing colloform bands consist of fine-grained quartz exhibiting relic microsphere textures and quartz having a mosaic texture that formed through recrystallization of the microspheres. The presence of relic microspheres is evidence that the microcrystalline quartz hosting the ore minerals formed through recrystallization of a noncrystalline silica precursor phase. The ore-hosting colloform bands composed of agglomerated microspheres alternate with barren colloform quartz bands that are composed of fibrous chalcedonic quartz and mosaic quartz formed through recrystallization of the chalcedony. The findings of this study are consistent with previous models linking bonanza-grade precious metal enrichment and the formation of bands of noncrystalline silica in low-sulfidation epithermal veins to episodic vigorous boiling or flashing of the hydrothermal system in the near-surface environment.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.4795

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2021

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Mineral Potential Mapping in an Accreted Island-Arc Setting Using Aeromagnetic Data: An Example from Southwest Alaska

Anderson, Eric D. ; Monecke, Thomas ; Hitzman, Murray W. ; [weitere]

Society of Economic Geologists, Inc. ; 2017

In: Economic Geology Vol. 112, No. 2 ( 2017-03), p. 375-396

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 112, No. 2 ( 2017-03), p. 375-396

Materialart: Online-Ressource

ISSN: 0361-0128 , 1554-0774

URL: Article

DOI: 10.2113/econgeo.112.2.375

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2017

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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Geology and Controls on Gold Enrichment at the Horne 5 Deposit and Implications for the Architecture of the Gold-Rich Horne Volcanogenic Massive Sulfide Complex, Abitibi Greenstone Belt, Canada

Krushnisky, Alexandre ; Mercier-Langevin, Patrick ; Ross, Pierre-Simon ; [weitere]

Society of Economic Geologists, Inc. ; 2023

In: Economic Geology Vol. 118, No. 2 ( 2023-03-01), p. 285-318

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In: Economic Geology, Society of Economic Geologists, Inc., Vol. 118, No. 2 ( 2023-03-01), p. 285-318

Kurzfassung: The Archean Horne 5 deposit, located in the Rouyn-Noranda district in the southern Abitibi greenstone belt, Canada, contains a total resource of 172.4 t Au (5.6 Moz) from 112.7 Mt of ore grading at 1.53 g/t Au. The deposit is part of the Au-rich Horne volcanogenic massive sulfide (VMS) complex that also includes the past-producing Horne mine (i.e., the Upper and Lower H zones plus small subsidiary lenses) that yielded 325.4 t Au (10.5 Moz Au) from 53.7 Mt of ore grading at 6.06 g/t Au. Combined, the Horne mine and Horne 5 deposit contain ~500 t Au (16 Moz), making them the world’s single largest accumulation of VMS-related Au. The Horne 5 deposit consists of stacked lenses of massive to semimassive sulfides alternating with extensive zones of disseminated and stringer sulfides. The mineralization is hosted within thick accumulations of steeply dipping dacitic to rhyodacitic volcaniclastic units of transitional to calc-alkaline magmatic affinity. Dacitic-rhyodacitic synvolcanic units (lobes, sills, and/or domes) intrude the host succession, which is also crosscut by a series of post-ore mafic and younger intermediate to felsic feldspar ± quartz porphyry dikes. A broad and diffuse halo of distal sericite-chlorite-epidote alteration extends outboard of intensely sericite-altered zones proximal to the sulfide lenses. Gold is interpreted to be synvolcanic on the basis of Au-rich massive sulfide clasts in the volcaniclastic units, the presence of preserved Au-rich primary pyrite, Au zones limited to the sulfide envelope, crosscutting deformed but unaltered and barren dikes, and the absence of typical syndeformation, orogenic-style alteration and mineralization despite overprinting high-strain corridors and faults. Gold is spatially associated with pyrite, sphalerite, and chalcopyrite, and its distribution is largely controlled by the higher porosity and permeability of the volcaniclastic host rocks, which are interpreted to have facilitated hydrothermal fluid circulation in the subseafloor environment. Synvolcanic intrusions and fine-grained tuffs overlying auriferous zones also influenced the distribution of the mineralization by acting as cap rocks to ascending fluids. Evidence suggests that Au enrichment at the Horne 5 deposit is due to efficient transport and precipitation of Au in the subseafloor environment, a favorable geodynamic setting (transitional to calc-alkaline magmatism over thick crust), and possible input of magmatic fluids as suggested by high Te and Cu in the mineralization. Minor and very local remobilization of metals occurred in response to regional deformation and associated greenschist facies metamorphism. The detailed study of the Horne 5 deposit geology and a review of the available information on the Horne mine and recent 3-D modeling indicate that the Horne 5 deposit may have formed higher in the stratigraphy than the Upper and Lower H orebodies of the former Horne mine, which originally formed a single lens. Therefore, the Horne Au-rich VMS complex originally formed as a stacked system in which the Horne 5 deposit was deposited above the Upper and Lower H zones and not in a distal or lateral position as previously proposed, indicating that a robust hydrothermal system was responsible for the formation of the world’s largest Au-rich VMS complex.

Materialart: Online-Ressource

ISSN: 1554-0774 , 0361-0128

URL: Article

DOI: 10.5382/econgeo.4978

Sprache: Englisch

Verlag: Society of Economic Geologists, Inc.

Publikationsdatum: 2023

ZDB Id: 217703-1

ZDB Id: 2091221-3

SSG: 13

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