2014 Napa Quake Could be Linked to Groundwater Changes, Study Shows
Research suggests the magnitude 6.0 earthquake that rocked California wine country in 2014 may have been caused by an expansion of Earth’s crust because of seasonally receding groundwater under the Napa and Sonoma valleys.
The vineyard-filled valleys flank the West Napa Fault, which produced the quake that killed one person, injured several hundred and caused more than $500 million in losses.
The study recently published in the American Geophysical Union’s Journal of Geophysical Research: Solid Earth suggests land between the valleys is stretched each summer as groundwater levels fall beneath the valleys and the ground in the valleys sinks and contracts.
The amount of the horizontal stretching measured is tiny, about 0.12 inch, but enough to stress faults, according to the researchers.
Co-authors were William E. Holt of Stony Brook University and Adrian A. Borsa of the Scripps Institution of Oceanography at the University of California, San Diego.
The early morning Napa quake on Aug. 24, was the largest to hit the San Francisco Bay Area since the magnitude 6.9 Loma Prieta earthquake of Oct. 17, 1989.
It left 8 miles of surface rupture and damaged many historical masonry buildings and older residences, according to the U.S. Geological Survey.
Related:
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- Napa Quake May Cost Up to $4 Billion as Wineries Shuttered