University of Hawaiʻi scientists map record stress on San Andreas faults
A University of Hawaiʻi at Mānoa-led study says modeled tectonic stress on Southern California's San Andreas and San Jacinto fault systems has reached, and in places exceeded, the highest levels reconstructed for the past 1,000 years. The study does not predict an earthquake date; it argues that the fault network is in a heavily loaded state and that Cajon Pass, where the systems interact, could either block or transmit a rupture between faults. That matters because a multi-fault rupture could affect Los Angeles, San Bernardino, Riverside and the Coachella Valley more severely than a single-fault event. For Belgium Pulse readers, the story is mainly international science: it sharpens understanding of risk in a region tied to global travel, technology, logistics and research networks, while illustrating why hazard planning depends on probabilities and infrastructure resilience rather than earthquake prediction.
Belgian residents, businesses, students and families with travel, study, professional or family links to California should read this as a risk-planning story, not as a warning that a quake is imminent. Belgian companies exposed to Californian technology, ports, entertainment, insurance or research partnerships could also face indirect disruption if a major Southern California earthquake occurs. For EU and Belgian public-safety readers, the broader lesson is about preparedness: modern hazard science can improve building rules, emergency planning and infrastructure investment without claiming to predict the exact day of a disaster.
The San Andreas Fault (California's major strike-slip boundary between the Pacific and North American plates) is one of the world's best-known seismic hazards. The San Jacinto fault system (a highly active Southern California fault zone branching from the San Andreas system) runs through the inland region east of Los Angeles. Cajon Pass (a mountain corridor between the San Bernardino and San Gabriel ranges) is where the two systems can interact. The University of Hawaiʻi at Mānoa (public research campus in Honolulu) led the new modelling work. Journal of Geophysical Research: Solid Earth (American Geophysical Union peer-reviewed geoscience journal) published the study. The U.S. Geological Survey (US federal science agency) produces national earthquake hazard models. UCERF3 (2013 Uniform California Earthquake Rupture Forecast) is California's official multi-institution earthquake rupture model. Los Angeles, San Bernardino, Riverside and the Coachella Valley are Southern California population and infrastructure zones exposed to major shaking scenarios.
Background
The U.S. Geological Survey's UCERF3 report, first posted in 2013, says California earthquake forecasting had already moved away from rigid single-fault assumptions by including multifault ruptures observed in nature. The 1857 Fort Tejon earthquake, commonly estimated at about magnitude 7.9, ruptured a long southern San Andreas section and remains the key historical benchmark for the region. The 1906 San Francisco earthquake showed the same fault system's destructive potential farther north. The USGS ShakeOut Scenario, published in 2008, modelled a magnitude 7.8 southern San Andreas earthquake to test emergency, economic and infrastructure consequences.
Why now
The immediate trigger is publication of a new peer-reviewed modelling study led by University of Hawaiʻi at Mānoa researchers and publicised on 10 June 2026. The news value comes from the study's claim that present-day stress levels are exceptional in a 1,000-year reconstruction.
What to watch
Watch whether USGS, California Geological Survey or Southern California Earthquake Center researchers incorporate, challenge or refine the model in future hazard products. The practical signal will be whether the work changes scenario planning, infrastructure priorities, building-code discussions or public preparedness messaging in Southern California.
Opposing perspectives
- Research team led by University of Hawaiʻi at Mānoa
The study frames the finding as a preparedness input: stress modelling can refine hazard assessments, infrastructure planning and emergency readiness, while the authors explicitly state that it should not be read as a prediction of when an earthquake will happen.
- U.S. Geological Survey hazard-modelling community
The USGS UCERF3 framework treats California risk as a probabilistic, multi-fault system rather than a clock-like countdown. From that perspective, the new study is most useful if it improves scenario design and building-code assumptions, not if it is turned into a deterministic forecast.
Sources & evidence
- Euronews — La célèbre faille de San Andreas à son plus haut niveau de tension depuis 1 000 ans · 2026-06-12
- University of Hawaiʻi System News — San Andreas fault reaches highest stress level in 1,000 years · 2026-06-10
- Liliane Burkhard et al., 2026, Journal of Geophysical Research: Solid Earth, DOI 10.1029/2025JB033213 · 2026-06-10
- U.S. Geological Survey — Uniform California Earthquake Rupture Forecast, Version 3 (UCERF3), Open-File Report 2013-1165 · 2013-11-05
- U.S. Geological Survey — Earthquake Hazards Program
