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Teilprojekt: Experimentelle Untersuchungen zur Tiefenbestimmung von rhyolitischen Magmakammern in der Snake River Plain Provinz, USA

Description: Das Projekt "Teilprojekt: Experimentelle Untersuchungen zur Tiefenbestimmung von rhyolitischen Magmakammern in der Snake River Plain Provinz, USA" wird vom Umweltbundesamt gefördert und von Leibniz Universität Hannover, Institut für Mineralogie durchgeführt. The investigation of high-silica rhyolitic rocks collected in the recent ICDP drilling from the Snake River Plain (SRP) volcanic province (western United States) as well as rocks from the adjacent rhyolitic complexes offers a unique opportunity to track the evolution of magma storage conditions in time and space in the 'Yellowstone hotspot' intracontinental volcanic province. The application of various geothermometers which can be used to determine pre-eruptive temperatures show a general trend indicating a general decrease of temperature over the last 16 Ma. However, the depth (or pressure) of the magma chambers is difficult to constrain and remains mainly unknown because the mineral assemblage in the rhyolitic systems is not suitable for geobarometry. As an alternative to mineral compositions, the silica content of rhyolitic melts can be used to constrain pressure, provided that the silicate melts have cotectic compositions (melts coexisting with quartz and feldspar), which is the case for most SRP rhyolites. From studies in synthetic systems, it is well known that the silica content of cotectic melts decreases with increasing pressure and that it may be used as barometer in pressure ranges of ca 1000 - 50 MPa. However, the evolution of silica content with pressure is not calibrated for natural systems containing up to 2 wtProzent Cao and 4 wtProzent FeO. In this study, we plan to determine the role of pressure on the silica content of cotectic melts compositions relevant for SRP compositions. The experimental data are crucial to interpret the natural glass compositions (matrix glass and glass inclusions) analyzed in the ICDP core samples and will be used to extract quantitative information on the depth of magma storage prior to eruption. The dataset obtained from various eruptive events (samples from ICDP drillings and other SRP rhyolites) will be used to check if there is an evolution of the depth of magma storage over the lifetime of the 'Yellowstone hotspot' in the last 16 Ma and if there is a correlation between the pre-eruptive pressure, the volume of erupted material, the temperature (or differentiation level) and the water activity of magmas. This study will be conducted in close cooperation with other U.S. groups who are in charge of the analysis of ICDP rhyolitic samples. It is emphasized that the experimental database obtained in this project can also be applied to other case studies (high silica rhyolites, A-type granites).

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Origin: /Bund/UBA/UFORDAT

Tags: Glas ? Hannover ? Schlange ? Siliziumdioxid ? Silikat ? Fluss ? Biogeochemie ? Kalibrierung ? Skigebiet ? Wassertemperatur ? Brunnen ? USA ? Gebühr ? Brunnenbau ? Kristallographie ? Temperatur ? Gesteinskunde ? Feldspat ? Bewässerung ? Bohrkern ? Daten ? Evolution ? Fallstudie ? Mineralogie ? Quarz ? Wasserprobe ? Wasser ? Flachland ? Vulkanit ? Schmelzen ? Festgestein ? Studie ? Ballungsraum ? Datenbank ? Bohrung ? Zusammenarbeit ? Gestein ? Lagerung ? Plan ? Produktlebensdauer ? Mineral ? Vorgang ? GRUPPE ? Gebühr [Abgabe] ? DATENSATZ ? Lagerstättenkunde ? Lagerungsbedingung ? PROBE ? PROJEKT ? SONSTIG ? STILLGELEGT ? DIFFERENZIERUNG ? ANGEWANDT ? ERFASSUNG ? Schmelzbad ? GEHALT ? UEBERRESTE ? VORHERIG ? Vermehrung ? Verwertung ?

Region: Lower Saxony

Bounding box: 9.16667° .. 9.16667° x 52.83333° .. 52.83333°

License: cc-by-nc-nd/4.0

Language: Deutsch

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Time ranges: 2013-01-01 - 2016-12-31

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