Tectonic control and fluid evolution in the Quartz Hill, California, lode gold deposits
At Quartz Hill, in the Klamath Mountains of northern California, gold-bearing quartz-carbonate-pyrite-chlorite-sericite veins occupy reactivated moderately southeast-dipping faults that originally formed synchronously with the transcrustal Soap Creek Ridge fault. Geophysical evidence suggests that t...
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| Published in: | Economic geology and the bulletin of the Society of Economic Geologists Vol. 87; no. 7; pp. 1795 - 1812 |
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| Main Authors: | , |
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| Language: | English |
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Economic Geology Publishing Company
01-11-1992
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| Abstract | At Quartz Hill, in the Klamath Mountains of northern California, gold-bearing quartz-carbonate-pyrite-chlorite-sericite veins occupy reactivated moderately southeast-dipping faults that originally formed synchronously with the transcrustal Soap Creek Ridge fault. Geophysical evidence suggests that the Soap Creek Ridge fault dips shallowly eastward to a depth of ∼ 14 km, where it intersects a major crustal suture zone that joins layered accreted oceanic crust to crystalline continental crust. Gold mineralization occurs in the footwall along the linear trace of this fault. CO2-rich fluids reacted with wall rock to form alteration zones containing pyrite-siderite, sericite-ankerite, and chlorite-calcite. Microthermometric studies reveal coexisting high-salinity (11-16 wt % salt) aqueous and CO2-rich (13-51 mole % CO2) inclusions that homogenize at temperatures greater than 285°C. These inclusions probably represent the unmixing of a parent fluid that was metamorphic in origin. Low-salinity (0-6 wt % salt) inclusions with variable CO2 concentrations (0-9 mole % CO2) homogenize at temperatures from 170° to 270°C. These inclusions are likely to have formed from the mixing of hot, saline, CO2-rich solutions with cooler, less saline fluids of meteoric origin.K-Ar analyses of two size fractions of hydrothermal sericite from a Quartz Hill mine yielded concordant dates of 145.8 ± 3.0 and 147.7 ± 2.8 Ma and probably represent the age of mineralization. Similarities in tectonic setting, local structural control, host rocks, fluid inclusion properties, and alteration and vein mineralogy suggest that the Early Cretaceous gold mineralization in the Sierra Nevada foothills was equivalent to the ore-forming episode at Quartz Hill and throughout the Klamath Mountains.A tectonic model for ore genesis consistent with thermochemical, geophysical, structural, and geochronological data is that hydrothermal solutions were derived from subducting oceanic plates by devolatilization reactions associated with prograde metamorphism. These CO2-rich fluids migrated upward through a crustal suture zone and were channeled along a transcrustal fault. Deposition occurred in response to pressure fluctuations within brittle fault zones. Important changes in Farallon-North American convergent plate motion occurred at 150 and 133 Ma. The synchronism of these plate motion changes with regional tectonic activity and gold mineralization suggests a genetic relationship. These plate motion changes produced crustal-scale tectonic responses, which generated fluids and created pathways for ore fluid transport. |
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| AbstractList | At Quartz Hill, in the Klamath Mountains of northern California, gold-bearing quartz-carbonate-pyrite-chlorite-sericite veins occupy reactivated moderately southeast-dipping faults that originally formed synchronously with the transcrustal Soap Creek Ridge fault. Geophysical evidence suggests that the Soap Creek Ridge fault dips shallowly eastward to a depth of ∼ 14 km, where it intersects a major crustal suture zone that joins layered accreted oceanic crust to crystalline continental crust. Gold mineralization occurs in the footwall along the linear trace of this fault. CO2-rich fluids reacted with wall rock to form alteration zones containing pyrite-siderite, sericite-ankerite, and chlorite-calcite. Microthermometric studies reveal coexisting high-salinity (11-16 wt % salt) aqueous and CO2-rich (13-51 mole % CO2) inclusions that homogenize at temperatures greater than 285°C. These inclusions probably represent the unmixing of a parent fluid that was metamorphic in origin. Low-salinity (0-6 wt % salt) inclusions with variable CO2 concentrations (0-9 mole % CO2) homogenize at temperatures from 170° to 270°C. These inclusions are likely to have formed from the mixing of hot, saline, CO2-rich solutions with cooler, less saline fluids of meteoric origin.K-Ar analyses of two size fractions of hydrothermal sericite from a Quartz Hill mine yielded concordant dates of 145.8 ± 3.0 and 147.7 ± 2.8 Ma and probably represent the age of mineralization. Similarities in tectonic setting, local structural control, host rocks, fluid inclusion properties, and alteration and vein mineralogy suggest that the Early Cretaceous gold mineralization in the Sierra Nevada foothills was equivalent to the ore-forming episode at Quartz Hill and throughout the Klamath Mountains.A tectonic model for ore genesis consistent with thermochemical, geophysical, structural, and geochronological data is that hydrothermal solutions were derived from subducting oceanic plates by devolatilization reactions associated with prograde metamorphism. These CO2-rich fluids migrated upward through a crustal suture zone and were channeled along a transcrustal fault. Deposition occurred in response to pressure fluctuations within brittle fault zones. Important changes in Farallon-North American convergent plate motion occurred at 150 and 133 Ma. The synchronism of these plate motion changes with regional tectonic activity and gold mineralization suggests a genetic relationship. These plate motion changes produced crustal-scale tectonic responses, which generated fluids and created pathways for ore fluid transport. |
| Author | Elder, Don Cashman, Susan M |
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| CitedBy_id | crossref_primary_10_1007_s10498_017_9323_9 crossref_primary_10_1016_j_oregeorev_2015_06_020 crossref_primary_10_1016_j_oregeorev_2021_104661 crossref_primary_10_1016_S0169_1368_01_00016_6 crossref_primary_10_1016_j_sesci_2018_06_003 crossref_primary_10_1144_GSL_SP_2007_272_01_26 crossref_primary_10_1017_S001675680001075X crossref_primary_10_3390_min10010050 crossref_primary_10_1016_S0169_1368_97_00018_8 crossref_primary_10_1007_BF02867002 crossref_primary_10_1016_0009_2541_93_90325_D crossref_primary_10_1016_S0040_1951_98_00013_4 crossref_primary_10_1016_j_oregeorev_2003_06_001 crossref_primary_10_1111_j_1751_3928_2006_tb00273_x crossref_primary_10_1029_2021JG006316 crossref_primary_10_1111_j_1440_1738_2010_00709_x crossref_primary_10_1016_S0169_1368_97_00012_7 crossref_primary_10_1016_S0169_1368_98_80002_4 crossref_primary_10_1111_j_1365_3121_2008_00834_x crossref_primary_10_5382_econgeo_2017_4519 |
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| Snippet | At Quartz Hill, in the Klamath Mountains of northern California, gold-bearing quartz-carbonate-pyrite-chlorite-sericite veins occupy reactivated moderately... |
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| SubjectTerms | alteration Ar/Ar California economic geology evolution Farallon Plate fluid inclusions geochronology geologic thermometry gold ores homogenization host rocks inclusions Jurassic K/Ar Klamath Mountains Mesozoic metal ores mineral deposits, genesis Morrison-Carlock Mine North American Plate Northern California ore-forming fluids paleosalinity Quartz Hill Sierra Nevada Soap Creek Ridge Fault structural controls United States veins |
| Title | Tectonic control and fluid evolution in the Quartz Hill, California, lode gold deposits |
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