The U.S. Geological Survey Hawaiian Volcano Observatory changed the volcano alert level and aviation color code for Mauna Loa volcano from normal/green to advisory/yellow Thursday. This change reflects HVO’s determination that the volcano is showing persistent signs of low-level unrest.
The U.S. Geological Survey Hawaiian Volcano Observatory changed the volcano alert level and aviation color code for Mauna Loa volcano from normal/green to advisory/yellow Thursday. This change reflects HVO’s determination that the volcano is showing persistent signs of low-level unrest. It does not mean, however, that an eruption is imminent or certain.
This decision followed many months of a higher than normal rate of earthquakes and ground deformation as magma accumulated in shallow storage reservoirs, pressurizing and stressing its summit and upper rift zones.
What do these volcano alert levels and aviation color codes mean, and how does HVO decide to change them?
The USGS aviation color code system has roots in Alaska. During the 1989-90 eruption of Redoubt Volcano near Anchorage, the Alaska Volcano Observatory determined that airlines needed a shorthand way of understanding threats posed by a restless or erupting volcano. So, USGS developed a simple, four-color scheme similar to a traffic light to convey the message.
In this way, pilots, dispatchers and air traffic controllers would not need to sift through long text descriptions to evaluate their risk of flying near or downwind of a volcano: green meant all clear; yellow meant the volcano is restless, be aware; orange meant pay very close attention, the situation may be escalating or there may be volcanic ash up to about 25,000 feet above sea level; and red meant danger, you may need to reroute or cancel the flight.
For a number of years, this color code system only was used in Alaska, where each year one or two eruptions send potentially dangerous ash into trans-Pacific jet flight routes.
Then, in 2006, the U.S. Geological Survey’s five volcano observatories adopted a single system of communicating volcanic threats across the nation. As part of this unified approach, USGS added the terms normal, advisory, watch and warning to reflect the danger primarily to people and infrastructure on the ground. These volcano alert level terms were chosen in part to mirror those used by the National Oceanic and Atmospheric Administration’s National Weather Service for severe storms and flood.
Most often, the volcano alert level and aviation color code terms move together. Thus, the two-word USGS Volcanic Activity Alert-Notification System — for example, advisory/yellow — came to be (https://volcanoes.usgs.gov/activity/alertsystem/).
Assigning alert levels and color codes requires that we can measure the activity level of a volcano — from quiet to full-bore eruption. This, in turn, requires that the volcano be monitored around the clock with seismometers, cameras, satellites and other instruments that can detect signs of magma moving underground or lava and ash actively erupting. With such infrastructure in place, we can, over time, define a background state of typical activity (normal/green) so that sustained departures from background are caught in the act (yellow/advisory).
Knowing exactly when to change the color code and alert level is not always easy. It’s difficult to establish specific thresholds for changing color codes or alert levels. Decisions are made by looking at all monitoring data, patterns of previous unrest and eruption, and considering what is known about the processes occurring at each volcano. Typically, there is extended discussion among observatory scientists before a change is made.
Alert level changes are announced in a USGS volcanic activity notice which explains the reasoning and what to expect next with as much precision as possible. As has been the case for Kilauea, sometimes the alert level designation stays the same for many years. For other volcanoes with different styles of eruption, changes may occur quite often.
While the decisions to change volcano alert levels and aviation color codes may seem a bit mysterious, any ambiguity or inconsistency reflects the fact that we still have much to learn about how volcanoes work. Not every eruption, even at our well-studied Hawaiian volcanoes, follows exactly the same pattern. Each episode of unrest and eruption — or unrest without eruption — adds to a growing body of knowledge that helps scientists to issue more accurate warnings.
In summary, the USGS Volcanic Activity Alert-Notification System communicates the degree and, in some cases, the time frame of a particular volcanic threat. With this information, public safety and emergency managers, individuals and families, and businesses can take appropriate and timely steps to keep our communities safe.
Kilauea activity update
Kilauea’s summit lava lake level, which fluctuates in response to summit inflation and deflation, varied this past week between about 55 and 72 meters (180-236 feet) below the vent rim within Halema‘uma‘u Crater.
Kilauea’s east rift zone lava continues to feed scattered breakouts northeast and east of Puʻu ʻOʻo. All active lava remains within about 8 kilometers (5 miles) of Puʻu ʻOʻo. Some breakouts are evident by smoke plumes from burning vegetation where lava creeps into the forest.
One earthquake was reported felt on Hawaii Island during the past week. At 12:32 p.m. Thursday, a magnitude-3.7 earthquake occurred 6.2 kilometers (3.8 miles) southeast of Pu‘u ‘O‘o Crater at a depth of 8.1 kilometers (5 miles).
Visit the HVO website (http://hvo.wr.usgs.gov) for past Volcano Watch articles, Kīlauea daily eruption updates and other volcano status reports, current volcano photos, recent earthquakes, and more; call (808) 967-8862 for a Kīlauea summary update; email questions to askHVO@usgs.gov.
Volcano Watch (http://hvo.wr.usgs.gov/volcanowatch/) is a weekly article and activity update written by scientists at the U.S. Geological Survey`s Hawaiian Volcano Observatory.
