# Older buildings and substandard construction left Venezuela vulnerable to earthquakes > Source: > Published: 2026-06-27 04:10:34+00:00 Older buildings, substandard construction and geography left many neighborhoods in [Venezuela vulnerable to strong earthquakes](https://apnews.com/article/venezuela-earthquake-caracas-la-guaira-187d64e541983800b16f063ca5a8392c) like the ones that struck the country this week. Engineers and other experts said the back-to-back earthquakes on Wednesday were among the most intense to hit the country in more than a century, leveling buildings and [leaving more than 900](https://apnews.com/article/venezuela-caracas-guaira-earthquakes-dead-injured-missing-b07aff1cb886cfe616a0e89b3687b8b8) dead with the number expected to rise. Videos and satellite imagery from the disaster zone reviewed by The Associated Press reveal scores of multistory buildings had collapsed. Microsoft's AI for Good Lab analyzed satellite imagery of Catia La Mar in La Guaira state, one of the hardest hit cities along the Caribbean coast. Using AI-based damage assessment models, Microsoft determined that about a third of the city's nearly 30,000 structures were damaged. Among the factors that left so many structures at risk: Some housing complexes in northern Venezuela were constructed quickly during recent oil booms, and builders may not have adhered to best practices that mitigate the risks of serious seismic activity, according to experts. Engineers said that older housing erected in the 1950s and 1960s — before modern earthquake standards were adopted — may not have been retrofitted to survive such violent shaking. And many buildings were constructed on geography and soft soils that compound the danger of the earthquakes, the experts said. Tall buildings and older concrete contributed to damage David Cocke, [a structural engineer in California](https://structuralfocus.com/blog/team/david-cocke/) and former president of the Earthquake Engineering Research Institute, said that a combination of soft soils, tall towers and older concrete structures contributed to the widespread damage, particularly when buildings pancaked, or collapsed floor-by-floor. "They just don't have the more modern reinforcing steel connections that we put in those kinds of buildings today," said Cocke. Since the 1970s, engineers have known that concrete buildings are particularly susceptible to earthquakes and seek to reinforce new construction with steel. While many rich nations have forced property owners to retrofit or tear down dangerous buildings, many poorer or middle income countries have lagged in enforcing upgrades as they battled more immediate woes. "Some of the more advanced countries like Japan and New Zealand and the U.S. have made those changes, but some of the other countries have not," Cocke said. "It's a very typical kind of construction all over the world." 'Soft stories' and soft soil played a role