• Helping Calculate Likelihood of Worst-Case Scenarios

    If you had to guess, what would you think is most likely to end all life on Earth: a meteor strike, climate change, or a solar flare? New statistical method could help accurately analyze low-probability, high-risk events such as earthquakes, pandemics, or meteor strikes.

  • Community-Based Solutions to Enhance Disaster Resilience

    The NSF announced a $15.9 million in awards to teams to conduct and evaluate ready-to-implement pilot projects that address community-identified challenges. A significant portion of the funds was awarded to projects focusing on resilience to natural disasters in the context of equipping communities for greater preparedness to and response after disasters such as floods, hurricanes and wildfires.

  • Ground Improvement Technique Ahead of Earthquakes

    Helping engineers better understand and predict the “liquefaction” hazard during earthquakes and more reliably mitigate it.

  • Preventing and Responding to High-Consequence Biological Threats

    A new report offers actionable recommendations for the international community to bolster prevention and response capabilities for high-consequence biological events.

  • The U.K. Government’s Preparedness for COVID-19: Risk-Management Lessons

    A new report from the U.K. National Audit Office (NAO) examines the government’s risk analysis, planning, and mitigation strategies prior to the arrival of the COVID-19 pandemic. The report notes that the pandemic has exposed a vulnerability to whole-system emergencies – that is, emergencies which are so broad that they require the engagement of the entire system.

  • Balance of Power—Building a Resilient Electric Grid

    Events such as blackouts and outages are increasing in frequency as the nation’s infrastructure ages and climate change leads to extreme weather events. Hotter, wetter summers and harsher winters require more reliance on heating and cooling utilities, placing higher stress on the nation’s electric grid. Newtechnology can ‘help keep the lights on’ during emergencies.

  • Microgrids May Hold the Key to Grid Resilience

    The aging energy grid is being pushed to the breaking point. Power outages from extreme weather alone cost anywhere from $2 billion to $77 billion per year. And some isolated communities still rely on diesel generators for electricity, since powerlines don’t reach them. Grid expansion isn’t an option—in most cases, the economics don’t make sense. When the main grid falls short, the right mix of renewables offers local, low-carbon power.

  • Getting the Asteroid Before It Gets Us

    Last week, the stuff of Hollywood blockbusters became a reality when NASA launched its Double Asteroid Redirection Test (DART), a small spacecraft that will smash into an asteroid sometime in September or October to try to alter its path.

  • Earthquakes and Tsunamis in Europe?

    Earthquakes and tsunamis do not only threaten distant coasts, but also ports, cities and coasts in European waters. Researchers, provides for the first time comprehensive information on the marine geological hazards that can affect countries across Europe. The manifold risks should be considered more strongly in political and economic decisions.

  • Groundwater in California’s Central Valley May Be Unable to Recover from Past and Future Droughts

    Groundwater in California’s Central Valley is at risk of being depleted by pumping too much water during and after droughts. Water resources could be pushed beyond recovery in a region that provides about a quarter of the U.S. food supply.

  • “People Should Probably Be Worried”: Texas Hasn’t Done Enough to Prevent Another Winter Blackout, Experts Say

    Natural gas powers the majority of electricity in Texas, especially during winter. Some power companies say the state’s gas system is not ready for another deep freeze.

  • Eight Worst Wildfire Weather Years on Record Happened in the Last Decade

    The world’s eight most extreme wildfire weather years have occurred in the last decade. Lower humidity and higher temperatures are driving extreme weather that makes wildfires more frequent and intense.

  • Machine Learning Helps Measure Building Earthquake Damage

    One obstacle which often prevent an effective response to earthquakes is that the buildings from which such a response is managed and response equipment stored, are themselves damaged. Researchers have developed a method to quickly assess damage to such buildings immediately after an earthquake to determine whether the buildings can be continued to be used.  

  • National Security Consequences of Climate Change

    The consequences of climate change for national security and international stability are numerus and serious. Rising temperatures which reduce agricultural opportunities can lead to mass migrations away from struggling communities. Violent hurricanes and winter storms can disrupt electric grid operations, interrupting access to electricity and other utilities long after the initial climate threat has passed. Researchers are simulating how climate change affects the safety and security of the country.

  • How Climate Change Will Impact National Security

    The recent U.S. National Intelligence Estimate (NIE) lays out the likely security implications over the next two decades of the mounting climate crisis. Calder Walton, the research director at Harvard’s Belfer Center, says: “Let’s start with the basics: that climate change does pose a threat to U.S. national security. The National Intelligence Estimate is a joint assessment produced by the entire U.S. intelligence community, 18 agencies. That’s significant. There are no naysayers; there’s no doubt. So that’s a breakthrough. In this extraordinarily polarized and politicized environment, that is a big milestone itself.”