A team led by the U.S. Geological Survey has found that there are more low-frequency earthquakes along the San Andreas fault when fortnight tides are getting stronger.
Earthquakes can be caused by the sun and moon’s gravitational forces, finds new research.
The recently published paper, led by the U.S. Geological Survey, focuses on the 800-mile-long San Andreas fault in southern California.
After assessing more than 80,000 tremors in the area between 2008 and 2015, the team determined that they occurred more actively during periods when the tides were becoming stronger.
While tides exhibit 12 and 24-hour cycles, there is also a longer one involving the alignment of the sun and moon to Earth which lasts 14 days (fortnightly cycle); this is the span the team used.
According to a study summary, "deep, small earthquakes on the San Andreas Fault are most likely to occur during the waxing fortnightly tide—not when the tidal amplitude is highest, as might be expected, but when the tidal amplitude most exceeds its previous value."
Just as gravitational pulls impact ocean currents, they can also shift the Earth’s plates.
The hope is that this research can help to better predict earthquakes in the future, notes Gizmodo.
Earthquakes can be caused by the sun and moon’s gravitational forces, finds new research.
The recently published paper, led by the U.S. Geological Survey, focuses on the 800-mile-long San Andreas fault in southern California.
After assessing more than 80,000 tremors in the area between 2008 and 2015, the team determined that they occurred more actively during periods when the tides were becoming stronger.
While tides exhibit 12 and 24-hour cycles, there is also a longer one involving the alignment of the sun and moon to Earth which lasts 14 days (fortnightly cycle); this is the span the team used.
According to a study summary, "deep, small earthquakes on the San Andreas Fault are most likely to occur during the waxing fortnightly tide—not when the tidal amplitude is highest, as might be expected, but when the tidal amplitude most exceeds its previous value."
Just as gravitational pulls impact ocean currents, they can also shift the Earth’s plates.
The hope is that this research can help to better predict earthquakes in the future, notes Gizmodo.
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