Patterns of event and chronic hydrothermal venting following a magmatic intrusion: new perspectives from the 1996 Gorda Ridge eruption

The remote detection of a seismic swarm on the northern Gorda Ridge on 28 February 1996 prompted a three-cruise response effort to investigate event and chronic hydrothermal discharge associated with a dike intrusion. The GR1 cruise reached the northern Gorda only 10 days after seismicity began and discovered a 15 km-diameter event plume, EP96A, centered between depths 1800 and 2800m above the shallowest portion of the axial valley axis (similar to 3100 m). One month later, GR2 returned and found only a weak, near-bottom chronic plume at the EP96A site. A few kilometers to the south, however, GR2 mapped a distinctly different chronic plume (similar to 2500-2900 m depth) as well as the edge of a second event plume, EP96B (similar to 1800-2400-m depth), above the western wall of the axial valley. EP96B was seeded with a neutrally buoyant float, which traveled 10 net km to the northwest before surfacing on 10 June at the start of GR3. Mapping around the float location fully revealed EP96B, a 10 km diameter plume with a heat content similar to 25% that of BP96A. Extensive observations within the axial valley determined that chronic venting was effectively exhausted within three months. Models seeking to explain the perturbation of hydrothermal venting by a dike intrusion and eruption must satisfy several criteria generalized from this and previous events: (1) venting begins (or increases) with the intrusion/eruption and declines exponentially afterwards; (2) the time scale of the post-intrusion decline varies within and among sites; (3) the discharge of multiple event plumes is common; (4) an existing high-temperature vent field may not be necessary or even conducive to event plume formation; and (5) the ratio of total chronic to event discharge varies among intrusion events. (C) 1999 Published by Elsevier Science Ltd. All rights reserved.