A look at the Mt. St. Helens eruption 35 years later
Most people who saw Mount St. Helens explode back on May 18, 1980 probably ran in the other direction or stood in silence watching. But when members of the Washington National Guard were training in Yakima back on that very day, they saw the massive explosion and the giant plume of ash rapidly approaching, got in their helicopters and headed into the disaster.
"The ash plume was getting up there to 60,000 to 80,000 feet," said Hal Kolb, who piloted a helicopter, in a video for the Washington National Guard detailing his experiences along with other pilots. "I had never seen anything like this before. The plume was just rising. It was like a big black avalanche with lightning. ... I was the last helicopter to get out of Yakima."
"The power of that thing was unbelievable," added Jess Hagerman, a pilot who was on the other side of the mountain at Fort Lewis, but would soon be called to respond to the incident on several missions. "It was boiling and black and doing all sorts of things."
The helicopter crews helped save many lives despite the poor flying conditions. The pilots -- as well as the many others who contributed and helped during what was one of the finest moments for the Washington National Guard are remembered on this, the 35th anniversary of the catastrophic eruption of Mount St. Helens.
The Guard will be posting pictures leading up to the anniversary on May 18 on its Facebook Page.
May is Volcano Preparedness Month in Washington state, providing residents an opportunity to become more familiar with volcanic risk in their communities and learn about steps they can take to reduce potential impacts. This year, Volcano Preparedness Month also coincides with the 35th anniversary of the May 18, 1980 eruption. The eruption of Mount St. Helens caused massive destruction and loss of life. It also, however, was a catalyst for a new era of unprecedented scientific discovery, technology development and community awareness.
The Washington Military Department’s Emergency Management Division, Washington Department of Natural Resources, the Pacific Northwest Seismic Network and the U.S. Geological Survey Cascades Volcano Observatory are working together to provide timely warnings and reduce the negative impacts of future eruptions. Together, the agencies develop and exercise emergency plans with communities, coordinate communications, conduct public education programs, and plan for short- and long-term recovery in the event an eruption or lahar should occur.
In October of last year, the Washington Emergency Management Division worked with its partners to complete the Mount St. Helens / Mount Adams Volcanic Region Coordination Plan, put in place in case another diaster were to happen. The plan details the roles and responsibilities of the various partners in the face of the an eruption again.
A National Guard helicopter over Mt. St. Helens in 1980.
Mount St. Helens Anniversary
On Sunday, May 18, 1980 at 8:32 a.m., the bulging north flank of Mount St. Helens slid away in a massive landslide. Seconds later, the uncorked volcano exploded and blasted rocks laterally, destroying centuries of forest growth in a span of several minutes. Nine hours of explosive volcanic activity ensued, altering the landscape, and what we know about volcanoes, forever.
The opening minutes of the eruption claimed the lives of 57 people. Winds transported 520 million tons of ash across the United States, producing darkness in Spokane, more than 250 miles away. Water from melting snow and ice mixed with loose rock debris to form lahars – volcanic mudflows – that poured down river valleys ripping trees from their roots and engulfing roads, bridges and houses.
Thirty-five years later, excess sediment still moves down those river drainages most affected by erupted debris on May 18, creating flooding issues and impressing upon all that hazards can persist long after an eruption is over. The eruption left an indelible effect on the regional economy and lives of citizens in the Pacific Northwest and beyond.
Mount St. Helens is a volcanologist’s ideal laboratory. The landslide exposed the interior of the mountain. This affords scientists with unprecedented access for examining deposits, installing monitoring gear and conducting tests that provide new insights about volcano dynamics. Eruptive activity helps scientists to draw correlations between monitoring signals and impending eruptions.
“The true legacy of the Mount St. Helens eruption has been the long-term opportunities it that it has given scientists to understand explosive-style volcanoes, and for raising public awareness about hazards in the Cascades,” said Carolyn Driedger, hydrologist and outreach coordinator at the USGS CVO.
Mount St. Helens demonstrates the importance of scientists working in close partnership with emergency and land management agencies to prepare for future eruptions, which includes installation of comprehensive monitoring networks, developing and practicing emergency plans, and supporting community education. John Ewert, scientist-in-charge at the USGS CVO, added, “We cannot wait for indications of volcanic reawakening to begin these preparations. The work needs to be done now.”
Preparing for future eruptions
Recent eruptive events at volcanoes in Chile and Japan are reminders that volcanoes can reawaken very quickly and that preparations must be accomplished in times when the volcano is quiet. During September 2014, Ontake Volcano in Japan erupted with only a few hours of precursory earthquakes, and claimed the lives of 63 people. In April 2015, Calbuco volcano in Chile provided similar short notice and displaced more than 6,500 people.
This year, various agencies are involved in mitigation measures, including updating emergency coordination plans, making public education presentations and posting signs in communities. A schedule of events is available online. A diary of daily happenings during 1980 has been posted on the USGS Volcanoes Facebook site.
Washington state’s Emergency Management Division website has a section about the state’s volcanoes as well as volcano preparedness measures. There’s also educational material for kids on its publication section. Follow the agency’s Twitter feed for breaking news and information.
The USGS CVO and PNSN work to improve eruption forecasting and warning capabilities for Cascade volcanoes as part of the National Volcanic Early Warning System. They continue to monitor Mount St. Helens and other volcanoes in the Cascade Range for signs of unrest. The monitoring network operated by USGS and PNSN enhances the likelihood of detecting preliminary signs of an impending eruption at Mount St. Helens at its earliest stages.
The USGS CVO website has information about Volcano Preparedness Month events, as well as the USGS volcano-monitoring program, and the hazards in the Washington and Oregon. Register for weekly updates and occasional Information Statements from the USGS Volcano Notification Service.
The University of Washington’s PNSN tracks earthquake activity in the Cascadia region including those under the Cascade Volcanoes on their Volcano Seismicity web pages.
The Washington state DNR’s Division of Geology and Earth Resources produces maps, assessments and other information to inform landowners, residents, community leaders and emergency personnel about the risks related to volcanoes, lahars and other natural hazards in Washington state.