Earthquake Damage in Mexico City, Mexico, September 19, 1985

Metadata Updated: December 20, 2015

On September 19, 1985, a magnitude 8.1 earthquake occurred off the Pacific coast of Mexico. The damage was concentrated in a 25 km2 area of Mexico City, 350 km from the epicenter. The underlying geology and geologic history of Mexico City contributed to this unusual concentration of damage at a distance from the epicenter. Of a population of 18 million, an estimated 10,000 people were killed, and 50,000 were injured. In addition, 250,000 people lost their homes and property damage amounted to $5 billion. This set of slides shows different types of damaged buildings and the major kinds of structural failure that occurred in this earthquake including collapse of top, middle and bottom floors and total building failure. The effect of the subsoils on the earthshaking and building damage are emphasized. Over 800 buildings crumbled, including hotels, hospitals, schools, and businesses. Communications between Mexico City and the outside world were interrupted for many days. Surrounding areas affected by the earthquake included the Mexican States of Jalisco, Guerrero, and Michoacan. Damage in the epicentral area wasrestricted to a few tourist resorts and industrial estates along the Mexico Pacific coast. A two-meter tsunami also caused some damage in this area. There are geologic reasons why Mexico and especially Mexico City are vulnerable to earthquake damage. Along the west coast of southern Mexico and Central America, the Cocos Plate dips beneath the North American Plate producing a very active seismic zone. Since the beginning of the Twentieth Century, 84 earthquakes of magnitude greater than 7.0 have occurred in this zone. The location of the 1985 earthquake's epicenter near the coast at the border between the states of Michoacan and Guerrero was not a surprise. Prior to the 1985 earthquake this area, located between two areas that had experienced recent earthquakes, was known as the "Michoacan Gap." The "gap" was filled in 1985 by the main shock and a severe aftershock (magnitude 7.5) that occurred two days later, on September 21. Mexico City lies in a broad basin formed approximately 30 million years ago by faulting of an uplifted plateau. Volcanic activity closed the basin and resulted in the formation of Lake Texcoco. The Aztecs chose an island in this lake as an easily defended location for their capitol. The expansion of Mexico City and the gradual draining of the lake left the world's largest population center located on unconsolidated lake-bed sediments. These soft sedimentary clay deposits amplified the seismic waves, or they liquefied, destroying the foundation of some buildings. Double resonance coupling between the earthquake waves, the subsoils, and the buildings caused intensity IX shaking in some areas, lasting up to three minutes. Earthquakes in 1957 and in 1979 also damaged Mexico City. However, neither of these earthquakes was quite as devastating as the 1985 earthquake. In the area of greatest damage in downtown Mexico City, some types of structures failed more frequently than others. In the highest damage category were buildings with six or more floors. Resonance frequencies of these buildings were similar to the resonance frequencies of the subsoil. Because of the unusual flexibility of Mexico City structures, upper floors swayed as much as one meter and frequently collapsed. Differential movements of adjacent buildings also resulted in damage. A flexible building often failed if it was held by adjacent, more rigid lower buildings. Damage or failure often occurred where two swaying buildings came in contact with each other. Corner buildings were also vulnerable to damage. Lessons learned from the patterns of earthquake damage need to be applied to prevent another disaster when an earthquake releases stress that is building in another area-along the Mexico coast between Acapulco and Zihuatanejo.

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Metadata Date October 14, 2015
Metadata Created Date December 20, 2015
Metadata Updated Date December 20, 2015
Reference Date(s) 1994 (publication)
Frequency Of Update notPlanned

Metadata Source

Harvested from NOAA CSW Harvest Source

Additional Metadata

Resource Type Dataset
Metadata Date October 14, 2015
Metadata Created Date December 20, 2015
Metadata Updated Date December 20, 2015
Reference Date(s) 1994 (publication)
Responsible Party DOC/NOAA/NESDIS/NCEI> National Centers for Environmental Information, NESDIS, NOAA, U.S. Department of Commerce (Point of Contact)
Contact Email
Access Constraints Access Constraints: None Use Constraints: None Distribution Liability: While every effort has been made to ensure that these data are accurate and reliable within the limits of the current state of the art, NOAA cannot assume liability for any damages caused by any errors or omissions in the data, nor as a result of the failure of the data to function on a particular system. NOAA makes no warranty, expressed or implied, nor does the fact of distribution constitute such a warranty.
Bbox East Long -99.09
Bbox North Lat 19.24
Bbox South Lat 19.24
Bbox West Long -99.09
Coupled Resource
Frequency Of Update notPlanned
Harvest Object Id d8347006-e5bf-43b5-8bfa-3fd6a39367e7
Harvest Source Id 2aed8e29-fc5b-4cde-aa66-fb1118fd705e
Harvest Source Title NOAA CSW Harvest Source
Metadata Language
Metadata Type geospatial
Progress completed
Spatial Data Service Type
Spatial Reference System
Spatial Harvester True
Temporal Extent Begin 1985-09-19
Temporal Extent End 1985-09-21

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