It’s not if, but when: Californians live with the certainty that someday, the Big One will hit.

The Big One is an earthquake with a magnitude of at least 7.8 on the Richter scale. Because of the plate tectonics at work under California, big quakes like that hit the area every 45 to 230 years.

The last one was more than 160 years ago. That’s why paleoseismologist Kerry Sieh says the next one is likely to happen “within the lifetime of children in primary school today.”

The Long Beach earthquake hit on 10 March 1933 in California, with an estimated magnitude of 6.25 on the Richter scale.
The Long Beach earthquake hit on 10 March 1933 in California, with an estimated magnitude of 6.25 on the Richter scale. Nathan Callahan/CC BY 2.0

Here’s how the United States Geological Survey (USGS) rates the hazard of a major earthquake in California in the next 30 years:

  • 60% chance of a 6.7-magnitude quake.
  • 46% chance of a 7.0-magnitude quake.
  • 31% chance of a 7.5-magnitude quake.

It should be noted that the Richter scale is logarithmic in nature, meaning that a one-point increase in magnitude (e.g. from 6.7 to 7.7) represents a tenfold increase in amplitude. So, the Big One will be considerably stronger than the highest-magnitude quake considered by the USGS. When it hits, the Big One is likely to kill hundreds, hurt thousands, and displace many more. It will cause widespread damage to buildings and infrastructure and start hundreds of fires. How do you put as much distance as possible between yourself and that apocalyptic prospect? Start with this earthquake hazard map.

2014 USGS National Seismic Hazard Map, displaying intensity of potential ground shaking from an earthquake in 50 years (which is the typical lifetime of a building).
2014 USGS National Seismic Hazard Map, displaying intensity of potential ground shaking from an earthquake in 50 years (which is the typical lifetime of a building). USGS/Public Domain

Hazard everywhere

The Pacific coast is purple: the highest hazard. The entire West is shaded in colors denoting declining hazard. Only relatively small parts of the country are covered by the zone of lowest hazard:

  • central and southern Texas;
  • most of Florida, Michigan, Wisconsin, Iowa, and North Dakota;
  • sizable chunks of Kansas, Nebraska, Montana, and South Dakota;
  • and tiny bits of Alaska, Colorado, New Mexico, Louisiana, Arkansas, Alabama, and Georgia.

One state seems hazard-free, but that’s only until you notice the blue spot in Minnesota’s western bulge.

The widely referred "New York" earthquake on April 5, 2024 actually had an epicenter in New Jersey, as seen by the colors on the map.
The widely referred “New York” earthquake on April 5, 2024 actually had an epicenter in New Jersey, as seen by the colors on the map. USGS/Public Domain

So, what do these colors actually denote? Earthquake hazard maps show the potential shaking hazard from future earthquakes.

The USGS defines earthquake hazard as the probability of ground motion over 50 years. That probability is determined by a region’s geology and earthquake history.

The location of fault lines alone is not enough to determine quake hazard: a large earthquake can produce tremors at a relatively large distance from the actual fault line.

The colors on this earthquake hazard map correspond to Seismic Design Categories (SDCs), which reflect the likelihood of seismic activity leading to ground motion of various intensities.

Buildings have to meet certain codes based on location in order to be more equipped to handle big quakes.
Buildings have to meet certain codes based on location in order to be more equipped to handle big quakes. Matthew Keys/CC BY-SA 4.0

Seismic resistance

These SDCs are used to determine the level of seismic resistance required in building design and building codes.

  • SDC level A (gray): Very small probability of experiencing damaging earthquake effects.
  • SDC level B (blue): Moderate-intensity shaking possible. Such shaking will be felt by all. Many will be frightened. Some furniture will be moved and some plaster will fall. Overall damage will be slight.
  • SDC level C (green): Strong shaking possible. Damage will be negligible in well-designed and well-constructed buildings; considerable in poorly-built structures.
  • SDC levels D0 (yellow), D1 (orange) and D2 (red): Very strong shaking possible. Damage will be slight in specially designed structures; considerable in ordinary substantial buildings, with partial collapse; and great in poorly built structures.
  • SDC level E (purple): This is near major active faults capable of producing the most intense shaking. Even in specially designed structures, the damage will be considerable. The shaking is intense enough to completely destroy buildings.
A tiny blue dot shows the one place in Minnesota that was not earthquake-free.
A tiny blue dot shows the one place in Minnesota that was not earthquake-free. USGS/Public Domain

The Morris quake

This earthquake hazard map is not a snapshot of the past, but an evolving prediction of the future. The map is adapted as geological knowledge increases. But it is also partly based on past events—or more precisely, the likelihood of their recurrence.

Minnesota earned its blue spot from the 1975 Morris earthquake. With its epicenter in Stevens County, it struck at around 10 a.m. on July 9 of that year and had a magnitude of 4.6. It was the first seismic event recorded in the state since the Staples quake of 1917, and it was felt as far afield as the eastern Dakotas and northern Iowa.

Near the epicenter, plaster cracked and pictures fell off walls. In the town of Morris, two homes suffered damage to their foundations. Not quite California-sized, but for lack of comparison, probably Big Enough for the local.