WATER CONTENTS OF YELLOWSTONE MAGMAS ESTIMATED FROM HYDROXYL CONCENTRATIONS IN FELDSPAR PHENOCRYSTS
Feldspars from the Yellowstone samples were separated from the rock matrix by crushing and picking individual crystals, and were identified using an optical microscope. The feldspar phenocrysts were prepared for infrared analysis by creating two perpendicular doubly-polished thick sections of each crystal. Polarized infrared spectra were obtained at 4 cm-1 resolution using the microscope accessory on the Varian Digilab Excalibur FTS3000 Fourier-Transform Infrared (FTIR) spectrometer in the Department of Mineral Sciences at the National Museum of Natural History, Smithsonian Institution, Washington, D.C. Hydroxyl concentrations were determined using the calibration from Johnson and Rossman (2003; Am Min v.88, 901-911).
The Canyon Flow feldspars contain about 760 ppm of hydrous layer silicates and fluid inclusions indicating that these phenocrysts experienced hydrothermal exchange after eruption. The structural hydroxyl concentrations in the other four Yellowstone samples range from 12 to 47 ppm H2O by weight. The feldspar from the Lava Creek Tuff, erupted 630,000 years ago, contains 21 ppm H2O. These hydroxyl concentrations are on the lower end of the range of hydroxyl concentrations reported for feldspar phenocrysts from other volcanoes (0-510 ppm H2O). Based on these measurements, we estimate that the Yellowstone magmas contained less than 1.5 wt% water.