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1 Department of Structural Geology and Geodynamics, University of Göttingen, Goldschmidtstr. 3, 37077 Göttingen, Germany mbattag{at}gwdg.de
2 Earth Sciences Division, Mail Stop 90R1116, Berkeley National Laboratory, University of California, Berkeley, CA 94720, USA
Long Valley Caldera and the Mono-Inyo Craters chain form a large volcanic complex in eastern California that has experienced persistent earthquake activity and ground uplift over the past 25 years. The central part of Long Valley Caldera (an area of more than 100 square km) has been slowly rising since 1980 at an average rate of 3 cm a–1. Inversion of micro-gravimetry and deformation data using a single vertical prolate ellipsoid source has helped to define the existence of a relatively shallow (5–8 km) silicic magma intrusion of 0.11–0.19 km3 beneath the caldera’s resurgent dome. We use the information from the single-source inversion to constrain a more general three-dimensional distribution of volume changes in the subsurface. The distributed inversion identifies two main inflation areas beneath the resurgent dome: one following the regional trend of north-south faults, and another in the dome’s southern section, parallel to a strike-slip fault that is responsible for most of the seismic activity in the caldera’s south moat.
