Brent P. Fabbi Donald A. Swanson 1973 <p>The amount of water and sulfur in pumice erupted during&nbsp;periods of vigorous activity during the 1969-71 Mauna Ulu eruption&nbsp;varied inversely with fountain height because of degassing during the&nbsp;fountaining. The pumice lost about 0.05 wt percent water and 0.003 wt&nbsp;percent sulfur during fountaining to heights of 400-540 m. Analyses&nbsp;suggest that the initial volatile content of Mauna Ulu lava was greater&nbsp;immediately preceding periods of high fountaining than during weak&nbsp;activity between those periods or after the last high fountains on&nbsp;December 30, 1969. Water and sulfur were systematically depleted&nbsp;during nearly isothermal flowage in lava tubes. Rapidly quenched&nbsp;samples of dipped melt show losses of about 0.03-0.04 wt percent&nbsp;water and 0.007-0.008 wt percent sulfur during flowage for several&nbsp;hours through a distance of 12 km. Glassy skins on cooled pahoehoe&nbsp;flows contain about 0.002-0.003 wt percent less sulfur than quenched&nbsp;melt at comparable distances from the vent, because of continued&nbsp;degassing under natural cooling conditions. Chlorine shows similar but&nbsp;less well defined trends. Pumice erupted in high fountains becomes&nbsp;more strongly oxidized than the parent magma, because of mixing with&nbsp;air while still at high temperatures.</p> application/pdf en U.S. Geological Survey Loss of volatiles during fountaining and flowage of basaltic lava at Kilauea Volcano, Hawaii article