W. F. Hanna 1973 <p>New magnetization data for Late Cretaceous glassy welded&nbsp;tuffs, volcanic breccias, and altered basalts from the Elkhorn Mountains&nbsp;volcanic field, together with geologic, mineralogic, and K-Ar data,&nbsp;indicate that (1) the glassy tuffs have unusually strong, uniform&nbsp;remanent magnetizations which are reversely polarized, much of the&nbsp;remanence perhaps residing in submicroscopic single-domain iron oxide&nbsp;particles within the glass itself, (2) breccias emplaced at minimum&nbsp;temperatures of about 400&deg;C have moderately dispersed remanent&nbsp;magnetization directions which are normally polarized, and (3) basalts&nbsp;that occur within a broad area of hydrothermal alteration have&nbsp;remanent magnetization directions which are normally, horizontally,&nbsp;and reversely polarized. Present and previous studies indicate the&nbsp;occurrence of from two to eight complete field reversal cycles during&nbsp;emplacement of the volcanic field about 78 m.y. ago. Among the rocks<br />studied, only basalt from the Zosell mining district is important as a&nbsp;major aeromagnetic anomaly source.</p> application/pdf en U.S. Geological Survey Magnetizations of some Late Cretaceous glassy tuffs, volcanic breccias, and altered basalts of the Elkhorn Mountains volcanic field, Western Montana article