• Our mostly dry planetary neighbors once had lots of water -- what does that imply for us?

    Our two closest solar system neighbors, Venus and Mars, once had oceans — planet-encircling, globe-girdling, Earth-like oceans, but neither Venus nor Mars could hold onto their water for long enough to nurture advanced life forms until they could flourish. The lessons from Venus and Mars are clear and simple: water worlds are delicate and fragile. Water worlds that can survive the ravages of aging, whether natural or inflicted by their inhabitants — and can nurture and sustain life over the long term — are rare and precious. If we allow the temperature of our planet to rise a degree or two, we may survive it as a minor environmental catastrophe. But beyond a few degrees, if we allow a runaway greenhouse effect to kick up the temperature a few more notches, do we know the point at which global warming sends our atmosphere into a runaway death spiral, turning Earth into Venus? We know what the endgame looks like.

  • Sea-level rise threatens $40 billion of national park assets, historical and cultural infrastructure

    U.S. Secretary of the Interior Sally Jewell last week released a report revealing that national park infrastructure and historic and cultural resources totaling more than $40 billion are at high risk of damage from sea-level rise caused by climate change. The report was conducted by scientists from the National Park Service and Western Carolina University and is based on an examination of forty parks — about one-third of those considered threatened by sea-level rise — and the survey is on-going.

  • Ten universities join natural disaster preparedness initiative

    In March, Texas A&M urban planning researchers formed a new initiative with scientists from ten other universities to help communities prepare for and recover from natural disasters. The headquarters of the coalition, the Community Resilience Center of Excellence, is based at Colorado State University. Colorado is centrally located in the United States, but the universities involved are spread across the country to maximize the reach of the research. Other universities — such as Rice University, the University of Oklahoma, and Texas A&M University-Kingsville — are contributing to the research to help create resilient communities through their own models of information.

  • UNC-Chapel Hill launches Coastal Resilience Center of Excellence

    The University of North Carolina at Chapel Hill officially launched its new Coastal Resilience Center of Excellence (CRC), made possible through a Department of Homeland Security (DHS) Science and Technology Directorate, Office of University Programs five-year, $20 million grant. The CRC initiative led by UNC-Chapel Hill will include collaboration with more than a dozen partner universities to address the challenges facing communities across the United States which are vulnerable to coastal hazards.

  • Protecting coastal communities, critical infrastructure

    University of South Alabama (USA) researchers are joining a nationwide effort to help communities recover from disasters. The effort is the centerpiece of the Community Resilience Center of Excellence, which will be based at Colorado State University, and USA is one of ten universities offering their expertise. USA’s department of civil engineering will provide their unique coastal engineering knowledge related to hurricane storm surge and waves. “With well over 50 percent of the U.S. population living within fifty miles of a coastline, much of our nation’s critical infrastructure is vulnerable to coastal hazards and the expected impacts of long-term sea level rise,” said Prof. Bret Webb, an associate professor of civil engineering at USA.

  • Disaster resilience competition generates innovative ideas

    The National Disaster Resilience Competition (NDRC), an innovative partnership between the U.S. Department of Housing and Urban Development (HUD) and the Rockefeller Foundation, is already bearing fruit — even before the selection of any finalists or winners. The Foundation offers six examples of innovative, substantial steps that communities around the country are taking to create, and maintain, a culture of resilience.

  • Improving flood risk management in Europe

    From 2000 to 2013, floods resulted in 5.5 billion euros in annual losses in Europe, and this figure is set to increase fivefold by 2050, according to a study published last year in Nature. European governments have been hard at work trying to ensure sustained protection from floods by developing dykes, dams, or floodgates, but are such defense strategies alone sufficient?

  • Earthquakes in Oklahoma linked to oil, gas drilling

    A new study finds that the recent spike in triggered earthquakes in Oklahoma is primarily due to the injection of wastewater produced during oil production. Geophysicists have identified the triggering mechanism responsible for the recent spike of earthquakes in parts of Oklahoma — a crucial first step in eventually stopping them. The study shows that the state’s rising number of earthquakes coincided with dramatic increases in the disposal of salty wastewater into the Arbuckle formation, a 7,000-foot-deep, sedimentary formation under Oklahoma.

  • We need to change how and where we build to be ready for a future of more extreme weather

    The human and economic losses resulting from extreme weather events during the last several years vividly demonstrate the U.S. historically shortsighted approach to development. The ill-advised, fast-paced construction of human settlements in low-lying, coastal and riverine environments prone to flooding has long been the American way. From Galveston to Hoboken, we have laid out our grids and thrown up our houses with little regard for the consequences. Storms like Sandy are a harbinger of extreme weather events to come as a result of climate change. Without concerted action, the costs, in lives and property, of future weather events will only multiply. Rather than spending $25 million on PR campaigns to convince ourselves we’re “stronger than the storm,” we should start making choices that prove we’re smarter. For while we can’t say when the next hurricane with the force of Sandy (or even greater force) will batter the Atlantic Coast or when extreme flooding will hit Texas, we do know that there will be a next time. And we’re still fundamentally unprepared for it. We can’t continue to bet against climate change; we’ll lose in the end.

  • Tying insurance rates to flood risk for low-lying structures

    Current methods used by the National Flood Insurance Program for setting risk-based insurance rates do not fully capture the flood risk for low-lying structures, which are more likely to incur losses because they are subject to longer duration and greater depth of flooding and are flooded more frequently and by smaller flood events, says a new report from the National Research Council. The report offers alternative approaches for calculating risk-based premiums for these structures, ranging from incremental changes to current methods to a complete overhaul of the system, although it does not recommend which approach the NFIP should adopt or what the new rates should be.

  • Interconnected technologies to make firefighters safer

    When responding to the more than 1.2 million blazes reported annually, the nation’s firefighters usually start with a dangerous disadvantage: They often lack critical information — even something as basic as a floor plan — that could be vitally important in mounting the most effective and safest attack. That information gap could be erased with today’s communication, computing, sensor and networking technologies.

  • Underwriters of cyberinsurance policies need better understanding of cyber risks

    Demand for insurance that covers an ever-increasing range of cyberattacks is growing and evolving rapidly, and a number of insurance companies are seeking advice through sponsored events that can gradually educate their work forces. At Standard & Poor’s Rating Services 2015 Insurance Conference last week, a panel of insurance experts stressed the importance of insurance underwriters gaining a better understanding of cyber risks in order to make better property and risk assessments.

  • Rebuilding a safer and stronger Vanuatu after Cyclone Pam

    Three months ago Cyclone Pam swept across Vanuatu, leaving 75,000 people in need of emergency shelter and damaging or destroying about 15,000 buildings, including homes, schools, and medical facilities. Since then, one of the most hotly debated questions within communities and on social media has been about how Vanuatu can rebuild so that it’s safer, stronger, and more resilient to future cyclones. Achieving this is not as simple as you might think. The strength and safety of buildings is critical — especially when you are rebuilding in a cyclone-prone region. But housing in particular is about more than walls and roofs; it’s also about community, traditions, culture, and supporting the way people want to live. While the strength of buildings and their ability to withstand cyclones are very important, so too are the strength and resilience of the people of Vanuatu, who have been living with the annual cyclone season for generations. The reconstruction of Vanuatu needs a diverse approach that is not solely reliant on quickly prefabricated or engineered solutions, and which keeps people at the heart of the rebuilding process.

  • U.S. mid-continent seismic activity linked to high-rate injection wells

    A dramatic increase in the rate of earthquakes in the central and eastern U.S. since 2009 is associated with fluid injection wells used in oil and gas development, says a new study. The number of earthquakes associated with injection wells has skyrocketed from a handful per year in the 1970s to more than 650 in 2014. The increase included several damaging quakes in 2011 and 2012 ranging between magnitudes 4.7 and 5.6 in Prague, Oklahoma; Trinidad, Colorado; Timpson, Texas; and Guy, Arkansas. “We saw an enormous increase in earthquakes associated with these high-rate injection wells, especially since 2009, and we think the evidence is convincing that the earthquakes we are seeing near injection sites are induced by oil and gas activity,” says one of the study’s authors.

  • Risk of major sea level rise in Northern Europe

    Global warming leads to the ice sheets on land melting and flowing into the sea, which consequently rises. Sea level rise is a significant threat to the world’s coastal areas, but the threat is not the same everywhere on Earth — it depends on many regional factors. New calculations by researchers from the Niels Bohr Institute show that the sea level in Northern Europe may rise more than previously thought. There is a significant risk that the seas around Scandinavia, England, the Netherlands, and northern Germany will rise by up to about 1.5 meters in this century.