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Television cameras broadcasting the start of the 1989 World Series instead recorded the urban devastation from a major earthquake striking Northern California. Four hours after the earthquake struck, homes in San Francisco's prosperous Marina District still burned out of control from fires started by broken gas lines; the shock severely damaged or destroyed 70 residential buildings in the district. Across San Francisco Bay in Oakland, the collapse of the double-decker Cypress freeway structure trapped more than 160 people, 42 of whom died.
Both of these grim spectacles from the magnitude 7.1 Loma Prieta, California, earthquake occurred more than 50 miles from the temblor's source in areas underlain by soft soil (loose sediment, uncompacted fill, and mud). In contrast, structures built on rock and firm soil, which underlie most of San Francisco and Oakland, were largely unscathed. Near the earthquake's epicenter, however, shaking was violent enough to cause considerable damage even in areas underlain by rock and firm soil.
This localization of severe shaking and damage was no surprise. It had been noted in previous San Francisco-area earthquakes, as early as 1868. Only after the devastating 1964 magnitude 9.2 Alaska earthquake, however, did the nation direct much attention toward understanding and mapping earthquake hazards. In the late 1960's, the U.S. Geological Survey (USGS) launched a program to develop methods for identifying and mapping areas of potential earthquake hazard.
An early product of this program was a series of maps showing the locations of active segments of the San Andreas Fault in California. These maps demonstrated the feasibility of identifying faults that might rupture the ground surface in future earthquakes. This capability lead to new strategies to reduce losses from such ruptures. In 1972, the California Legislature passed a landmark law requiring the identification of seismic-hazard zones along faults. In these zones, special geologic studies are required before structures can be built for human occupancy. This law has successfully prevented homes, schools, and offices from being built across active faults.
The major cause of earthquake damage, however, is strong ground shaking, not the rupture of the ground surface by faulting. Strong shaking damages or collapses weak structures over wide areas. It also triggers ground failures (fracturing, sliding, and slumping), which in turn damage or destroy structures and disrupt utility and transportation systems. In the mid-1970's, the USGS published an innovative map of the ground-shaking hazard for part of the San Francisco Bay region. This map was used by local and regional government bodies to develop seismic safety policies. The map predicted that shaking on soft ground would be several times as intense as that on nearby rock. Some engineers and scientists were skeptical of these predictions, but records of strong shaking and patterns of damage in the 1989 Loma Prieta earthquake verified the predictions. The map had correctly showed the Marina District and the area of the Cypress freeway structure as being subject to violent shaking during earthquakes.
Faced with the disastrous losses from the Loma Prieta shock, the California Legislature realized that stronger measures were needed to combat earthquake hazards. In 1990, the Legislature passed the California Seismic Hazards Mapping Act to assist cities and counties in protecting public health and safety against such hazards. This law requires the State Geologist to make maps of seismic hazard zones, identifying areas prone to violent shaking and ground failure. It also requires that evaluation of these potential hazards precede approval of construction projects within defined hazard zones and that buyers of real estate be notified when the property lies within such a zone. This act builds on the success of both the 1972 law and the early maps of predicted ground shaking.
Experience in many states reveals that seismic hazard maps serve diverse audiences. Users of these maps include buyers and owners of real estate, geotechnical consultants and engineers, financial institutions, utility and transportation companies, emergency managers, and government planners.
Mapping seismic hazards is especially important in urban areas of earthquake-prone regions of the United States. Such areas have large populations and huge investments in structures and lifelines that are at risk from earthquakes. Potential losses from future urban earthquakes are staggering. For example, a repeat of the 1886 Charleston, South Carolina, earthquake today would cause an estimated 2,000 fatalities and $5 billion of damage. In the central Mississippi Valley region, projected losses from a repeat of an 1811 earthquake are 6,000 lives and $50 billion of damage.
Crucial to reducing these potential losses is sound geologic knowledge leading to effective seismic safety policies and legislation.
Roger D. Borcherdt, Robert B. Brown, Robert A. Page, Carl M. Wentworth, and James W. Hendley II
COOPERATING AGENCIES, COMPANIES, AND INSTITUTIONS
Association of Bay Area Governments
California Division of Mines and Geology
City of San Francisco
For more information contact:
Earthquake Information Hotline (415) 329-4085
U.S. Geological Survey, MS 977
345 Middlefield Road, Menlo Park, CA 94025
USGS Menlo Park Earthquakes Home Page
U.S. Geological Survey Fact Sheet-097-95, March 1995
Web page by Will Prescott - 1996 April 9