Joint South-Central and North-Central Sections, both conducting their 41st Annual Meeting (11–13 April 2007)

Paper No. 5
Presentation Time: 8:40 AM-12:00 PM

210PB-226RA DISEQUILIBRIA IN DACITE FROM MOUNT ST. HELENS, 1980-1986


STARK, Greg J. and REAGAN, Mark K., Department of Geoscience, University of Iowa, 121 Trowbridge Hall, Department of Geoscience, Iowa City, IA 52242, gregory-stark@uiowa.edu

The US Geological Survey reference suite of four Mount St. Helens samples erupted between 1980 and 1986, were analyzed for activities of 210Po (half-life = 138 d), which are assumed to be equal to activities of 210Pb (half-life – 22.6 y) because of the ages and freshness of the samples. These data will be compared with 226Ra activities obtained by analyzing the same sample powders for its descendent 214Pb. The goal will be to investigate whether large scale fluxing of 222Rn-bearing volcanic gasses affected these samples, as has been postulated for other samples erupted from Mount St. Helens in the 1980s (Berlo et al., 2006, Earth and Planetary Science Letters), but not for samples erupted in 2004-2005 (Reagan et al., in press). Disequilibria in (210Pb/226Ra) can be produced through the fractioning of 210Pb from 226Ra through extensive crystal fractionation or partial melting of the crust. Another mechanism for producing 210Pb -226Ra disequilibria are 222Rn excesses or deficits caused by persistent degassing over a number of years. The reference suite rocks show a slight a variation in 210Pb activities between the samples (1.02-1.09 dpm/g), which is above the 1-sigma analytical error of 0.02, but not 2-sigma error, suggesting a relatively steady-state system during the six year period.