This started with a series of emails from a house owner in Burlington. I said that if you are on soft ground, and felt the recent Ontario earthquake strongly, then get an earthquake rider on the house. I estimate $20K damage over 20 years (drywall, furnishings, windows). Today, instead of ranting, I'll go over an interesting old paper in the BSSA. Text copy in italics, interspersed with my comments.
Bulletin of the Seismological Society of America; October 2004; v. 94; no. 5; p. 1902-1918; DOI: 10.1785/012003007
© 2004 Seismological Society of America
Seismicity of the Southern Great Lakes: Revised Earthquake Hypocenters and Possible Tectonic Controls
Savka Dineva, David Eaton and Robert Mereu
Three preliminary focal mechanisms of earthquakes with magnitudes mN 3.1 to 3.8 show unusual normal faulting, with nodal planes in almost the same direction as the magnetic trends, N42°E-N52°E. Proximity of the earthquake clusters to large bodies of water, coupled with colinearity with magnetic anomaly trends, suggests that both surface water and pre-existing basement structures may play significant roles in controlling intraplate seismicity in the southern Great Lakes region.
Historical seismicity to 1990, locations are weighted to population centres.
Tectonic Map, note Grenville Fault Zone goes right by the Bruce Underground Nuclear Waste Facility
B-curve. The big earthquakes are Cleveland, but fit right in the pattern.
The b-curve shows our odds of getting a 'big one'. Note that if we go to 1 in 100, or 1 in 1000, we are going quite big! This curve would clip (go vertical) at M7, due to the 30km length of the Ham-Burl fault.
Beach balls showing alignment with fault.
Cross-sections showing depth.
Their conclusions are rather weasely, like somebody finding evidence that the sun is more important than CO2 for global climate. But these last figures tell all. Note that there is some depth to the Hamilton fault, but shallower as you go into Buffalo. This shows a perfect relationship between causative fault, and surrounding stress disturbance. All of this is perfect for predicting a likely large earthquake. When it happens, don't say we didn't warn you!