Statistical earthquake focal mechanism forecasts

Yan Y. Kagan, & David D. Jackson

Published February 11, 2014, SCEC Contribution #1967

Forecasts of the focal mechanisms of future shallow (depth 0--70 km) earthquakes are important for seismic hazard estimates and Coulomb stress and other models of earthquake occurrence.
Here we report on a high-resolution global forecast of earthquake rate density as a function of location, magnitude, and focal mechanism. In previous publications we reported forecasts of 0.5 degree spatial resolution, covering the latitude range from -75 to +75 degrees, based on the Global Central Moment Tensor earthquake catalog. In the new forecasts we have improved the spatial resolution to 0.1 degree and the latitude range from pole to pole. Our focal mechanism estimates require distance-weighted combinations of observed focal mechanisms within 1000 km of Forecasts of the focal mechanisms of future shallow (depth 0--70 km) earthquakes are important for seismic hazard estimates and Coulomb stress and other models of earthquake occurrence. Here we report on a high-resolution global forecast of earthquake rate density as a function of location, magnitude, and focal mechanism. In previous publications we reported forecasts of 0.5 degree spatial resolution, covering the latitude range from -75 to +75 degrees, based on the Global Central Moment Tensor earthquake catalog. In the new forecasts we have improved the spatial resolution to 0.1 degree and the latitude range from pole to pole. Our focal mechanism estimates require distance-weighted combinations of observed focal mechanisms within 1000 km of each grid point.
Simultaneously we calculate an average rotation angle between the forecasted mechanism and all the surrounding mechanisms, using the method of Kagan & Jackson proposed in 1994. This average angle reveals the level of tectonic complexity of a region and indicates the accuracy of the prediction. The procedure becomes problematical where longitude lines are not approximately parallel, and where shallow earthquakes are so sparse that an adequate sample spans very large distances North or south of 75 degrees, the azimuths of points 1000 km away may vary by about 35 degrees. We solved this problem by calculating focal mechanisms on a plane tangent to the earth's surface at each forecast point, correcting for the rotation of the longitude lines at the locations of earthquakes included in the averaging. The corrections are negligible between -30 and +30 degrees latitude, but outside that band uncorrected rotations can be significantly off. Improved forecasts at 0.5 and 0.1 degree resolution are posted at http://eq.ess.ucla.edu/ kagan/glob_gcmt_index.html.

Key Words
probabilistic forecasting, earthquake interaction, forecasting, prediction, seismicity and tectonics, theoretical seismology, statistical seismology, dynamics: seismotectonics

Citation
Kagan, Y. Y., & Jackson, D. D. (2014). Statistical earthquake focal mechanism forecasts. Geophysical Journal International, 197(1), 620-629. doi: 10.1093/gji/ggu015.

Related Projects & Working Groups
Earthquake Forecasting and Predictability