Calibration and application of silica-water triple oxygen isotope thermometry to geothermal systems in Iceland and Chile
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Wostbrock, Jordan
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Calibration and application of silica-water triple oxygen isotope thermometry to geothermal systems in Iceland and Chile
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Abstract
Triple oxygen isotope analyses were made on geothermal fluids and precipitates from Chile and Iceland to calibrate the silica-water isotopic fractionation for abiotic silica formation at elevated temperatures and were used to evaluate potential fractionation effects of biogenic vs. abiogenic samples and polymorphism. Coexisting water and amorphous silica precipitated inside the heat exchanger of the Hellisheioi power plant at 60 and 118 degrees C have triple oxygen isotope fractionations in excellent agreement with previous results from analyses of biogenic silica precipitated in cold waters.
In contrast to samples from the geothermal plant, natural amorphous silica precipitates and waters formed in active hot springs (T = 63-84 degrees C) in the Puchuldiza geothermal area of northern Chile gave temperature estimates from the silicawater thermometer far lower (37-46 degrees C) than the measured water temperatures. Active silica precipitation was found to only occur at and above the air-water interface on glass slides placed in the hot spring waters for 9 days. The calculated temperatures and visual inspection suggest that precipitation occurred along channel edges when saturation was overstepped by a factor of two. In contrast to the surficial neoformed amorphous silica, subsurface silica samples (>10 cm) have recrystallized to opal-CT and quartz within a sinter mound and these samples preserve isotope temperatures of 82 degrees C and 89 degrees C, in good agreement with the ambient temperatures of the thermal spring conduit system. The delta O-18 values of abiogenic, low temperature silica formed in spring water far from the thermal waters with a measured temperature of 19 degrees C correspond to a silica-water temperature estimate of 20 degrees C. All samples preserved isotope data corresponding to their expected formation temperatures and appear to be in equilibrium in the triple oxygen isotope system. A best-fit theta-T relationship for silica-water using our inorganic silica-water samples is theta = 0.5305 = 1.82(+/- 0.02)/T(K) ; R-2 = 0.998 (where theta(a-b) = ln alpha O-17(a-b)/ln alpha O-18(a-b)). This new equation is indistinguishable from a previous empirical fit by Sharp et al. (2016) based primarily on biogenic silica samples, suggesting that the biogenic and abiogenic samples secreted silica with the same fractionation. Our results show that triple oxygen isotope measurements are robust and can be used to estimate the temperature of formation, the isotopic composition of the formation water, and discern between equilibrium and non-equilibrium processes
Patrocinador
United States National Science Foundation Grant
DGE-1418062
European Commission
290040
International Geothermal Association (IGA)
FONDAP-CONICYT project
15090013
Millennium Nucleus for Metal Tracing Along Subduction (NMTM), MSI Grant
NC130065
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Artículo de publicación ISI Artículo de publicación SCOPUS
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URI: https://repositorio.uchile.cl/handle/2250/151308
DOI: 10.1016/j.gca.2018.05.007
ISSN: 0016-7037
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Geochimica et Cosmochimica Acta 234 (2018) 84–97
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