• Improving public safety during severe weather, other disasters

    Our ability to observe and predict severe weather events and other disasters has improved markedly over recent decades, yet this progress does not always translate into similar advances in the systems used in such circumstances to protect lives. A more cohesive alert and warning system that integrates public and private communications mechanisms and adopts new technologies quickly is needed to deliver critical information during emergency situations. At the same time, better understanding of social and behavioral factors would improve the ways we communicate about hazards, inform response decisions such as evacuations, develop more resilient urban infrastructure, and take other steps to improve weather readiness.

  • As wildfires expand, fire science needs to keep up

    In the month of October nearly 250,000 acres, more than 8,000 homes and over 40 people fell victim to fast-moving wildfires in Northern California, the deadliest and one of the costliest outbreaks in state history. Now is the time to wrestle with hard questions. Why did communities that were deemed safe suffer major damage? Should they be rebuilt in the same way? Are there better ways to fight extreme fires and limit their impact? How can emergency planners prepare better for scenarios where full evacuation is not possible? Fire conditions are constantly evolving, and basic research coupled with engineering solutions must keep up. Designing more resilient communities and infrastructure and protecting people more effectively are not onetime goals – they are constant. Currently nations are failing to meet the challenge, and impacts on communities are increasing.

  • Global warming is here, caused by human activity: Massive federal government report

    The White House allowed the release on Friday of a report by U.S. government’s scientists – the Climate Science Special Report – which offers voluminous scientific evidence that climate change is real, it is already here, and that it has been caused – and is being exacerbated – by human activity. The report, which is mandated by Congress, is the most comprehensive report on climate change ever produced. The study, noting that the planet is now the warmest it has been in the history of modern civilization, says that “it’s extremely likely that human activities, especially emissions of greenhouse gases, are the dominant cause of the observed warming since the mid-twentieth century.”

  • Wildfire early warning system could prevent spring blazes

    Researchers have developed a new early warning system to predict when and where human-caused wildfires are most likely to occur in the spring. Using satellite images of vegetation, the researchers can forecast where wildfire risk peaks in boreal forests by tracking moisture in fuel sources like leaves.

  • Greenhouse gas concentrations in the atmosphere surge to new record

    Concentrations of carbon dioxide in the atmosphere surged at a record-breaking speed in 2016 to the highest level in 800,000 years, according to the World Meteorological Organization’s Greenhouse Gas Bulletin. The abrupt changes in the atmosphere witnessed in the past seventy years are without precedent. Globally averaged concentrations of CO2 reached 403.3 parts per million in 2016, up from 400.00 ppm in 2015 because of a combination of human activities and a strong El Niño event. Concentrations of CO2 are now 145 percent of pre-industrial (before 1750) levels.

  • With more superstorms predicted, there’s a dream project to keep New York above water

    Five years ago, on 29 October 2012, the coasts of New York and New Jersey were devastated by a rare late-October superstorm. Superstorm Sandy killed seventy-two people in the United States and caused more than $70 billion in damage. Over the next thirty years, floods of 7.4 feet or more, which used to occur in the New York area once every 500 years and are now happening every 25, could strike as frequently as every five years. Scientists say that sea-level rise caused by climate change is the biggest factor. One big idea to prevent massive destruction from the next, inevitable superstorm: A constellation of giant underwater gates which would rise in New York Harbor and beyond when disaster looms.

  • Rethinking the role of the private sector in disaster relief

    Natural disasters have filled the news in recent months, occurring so frequently that they seem to intimate apocalypse: wildfires, earthquakes, hurricanes. Global damages from disaster continue apace—currently pegged between $250-300 billion per year> But as national and international media coverage of these events recedes, the local effects persist—often for years. Small businesses, which account for the vast majority of enterprises in the U.S. and employ half of the private-sector workforce, are particularly vulnerable when disaster strikes

  • Why were California’s wine country fires so destructive?

    As of late October more than a dozen wildfires north of San Francisco had killed more than 40 people, burned approximately 160,000 acres and destroyed more than 7,000 structures. The path of the destructive 2017 Tubbs fire in Napa and Sonoma counties mirrors that of the Hanley fire of 1964. Strikingly, though, no lives were lost during the Hanley fire and only 29 structures were destroyed. Why did these two fires, 50 years apart, burn on the same general landscape, under similar extreme winds, with such different human impacts? Fire scientists will study these events intensively to parse out the relative importance of various factors. But it is clear that two factors probably were major contributors: wind and population growth. Drought and warmer climates have made wildfires a year-round hazard in California. Expanded urban development, in tandem with hot winds, seems to be the primary reason for the destruction this year.

  • Communications system that can withstand natural disasters

    In the wake of natural disasters which have brought communication to a standstill, researchers have been leading an international research team to tackle the problems of maintaining communications under hostile conditions. A researcher at Queen’s University Belfast has been shortlisted for the 2017 Newton Prize after he created a robust wireless communications system which can battle through an earthquake, tsunami or hurricane.

  • The “Really Big One”: How a 9.0 Cascadia earthquake could play out

    One of the worst nightmares for many Pacific Northwest residents is a huge earthquake along the offshore Cascadia Subduction Zone, which would unleash damaging and likely deadly shaking in coastal Washington, Oregon, British Columbia and northern California. The last time this happened was in 1700, before seismic instruments were around to record the event. So what will happen when it ruptures next is largely unknown.

  • Simulation technology to predict refugee destinations, improving aid efforts

    A computer simulation of refugees’ journeys as they flee major conflicts can correctly predict more than 75 percent of their destinations, and may become a vital tool for governments and NGOs to help better allocate humanitarian resources.

  • During crisis, exposure to social media’s conflicting information is linked to stress

    Exposure to high rates of conflicting information during an emergency is linked to increased levels of stress, and those who rely on text messages or social media reports from unofficial sources are more frequently exposed to rumors and experience greater distress, according to new research.

  • Future NYC flooding will be caused by sea-level rise, not stronger storm surge

    Rising sea levels caused by a warming climate threaten greater future storm damage to New York City, but the paths of stronger future storms may shift offshore, changing the coastal risk for the city, according to a team of climate scientists. Future changes in sea level and storms would be smaller if actions were taken to slow climate change, such as the Paris Accord’s goal of limiting warming to 3.6 degrees Fahrenheit.

  • Globe had 2nd warmest year to date, 4th warmest September on record

    The average global temperature set in September 2017 was 1.40 degrees F above the 20th-century average of 59.0 degrees. This average temperature was the fourth highest for September in the 1880-2017 record. This marked the 41st consecutive September and the 393rd consecutive month with temperatures above the 20th-century average. The year-to-date average temperature was 1.57 degrees F above the 20th-century average of 57.5 degrees. Arctic and Antarctic sea ice coverage remains small.

  • Warming seas could lead to 70 percent increase in hurricane-related financial loss

    If oceans warm at a rate predicted by the Intergovernmental Panel on Climate Change, the UN-sponsored group that assesses climate change research and issues periodic reports, expected financial losses caused by hurricanes could increase more than 70 percent by 2100, according to researchers. The finding is based on the panel’s most severe potential climate change scenario – and resulting increased sea surface temperature – and is predicted at an 80 percent confidence level. The model drew on hurricane data for the last 150 years gathered by NOAA.