Bestmann, M. Rice, A.H.N. Langenhorst, F. Grasemann, B. Heidelbach, F. Subglacial bedrock welding associated with glacial earthquakes <p>A <3 mm thick, intensely brecciated layer associated with Marinoan (<strong><em>c</em></strong>. 635 Ma) glacial striations on a Neoproterozoic sandstone pavement is documented. Only instantaneous solidification could have preserved the breccia <strong><em>in situ</em></strong>. Glacier speeds of <strong><em>c</em></strong>. 0.3 m s<sup>−1</sup> would have induced peak flash temperatures sufficient (>1130 °C) to cause partial frictional welding of the deformed quartzitic bedrock beneath an ice-loaded clast. These results support suggestions that glacial seismicity is due to episodic very rapid shifts of large ice masses over the substrate (stick–slip movement). They also indicate that significant effective normal stresses occur at the base of glaciers. </p> Subglacial bedrock welding;results support suggestions;seismicity;clast;glacier speeds;striation;movement;stress;0.3 m;Neoproterozoic sandstone pavement;ice masses;substrate;mm;shift;brecciated layer;Marinoan;635 Ma;quartzitic bedrock;peak flash temperatures;solidification;Geology 2016-06-21
    https://geolsoc.figshare.com/articles/dataset/Subglacial_bedrock_welding_associated_with_glacial_earthquakes/3454346
10.6084/m9.figshare.3454346.v1