Focusing on our Mauna Loa; a stirring giant?

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After a 30-year repose, Mauna Loa might be slowly stirring to life.

After a 30-year repose, Mauna Loa might be slowly stirring to life.

While there are no signs of impending eruption, the Hawaiian Volcano Observatory (HVO) has recorded an increased level of seismic activity on the flanks and summit of Mauna Loa during the past 13 months.

Four distinct earthquake swarms — clusters of earthquakes occurring closely in time and location — have occurred since March 2013. Each swarm began with earthquakes northwest of the summit (Moku‘aweoweo Crater) at 4 to 15 kilometers (2.5-9 miles) deep, followed by shallow earthquakes at the summit from several days to one month later.

These earthquakes all have been less than magnitude 2.2, except for a magnitude 3.5 earthquake May 9, 2014.

The recent swarms have not been associated with the deformation of the ground surface we would expect from intrusion of significant amounts of magma into shallow levels beneath Mauna Loa. However, ground deformation indicating shallow magma accumulation has been measured during many of the past 30 years, including two episodes of very rapid inflation immediately following the most recent eruption in 1984, and again from 2004-06.

The latter inflation started with a swarm of deep, long-period earthquakes at 45 kilometers (28 miles) under the volcano. Prior to the 1984 eruption, seismicity was elevated for at least three years, with 28 earthquakes greater than magnitude 3, and two earthquakes greater than magnitude 4. The magnitude 6.7 earthquake Nov. 16, 1983, might also have been triggered by the pressurizing magma system of Mauna Loa.

Earthquakes prior to the 1984 eruption were typically located northwest of the summit at depths greater than 5 kilometers (3 miles) and on the upper Southwest Rift Zone at depths less than 5 kilometers (3 miles).

The seismic network that monitors Mauna Loa has been significantly improved since 1984. As part of the American Recovery and Reinvestment Act in 2011, all of the seismic stations in the HVO seismic network were upgraded to use technology that results in less noise and better recordings.

The current seismic network is better able to detect and locate smaller earthquakes than the network prior to these upgrades. It is likely many of the small earthquakes we currently observe would not have been detected by HVO’s seismic monitoring prior to the 1984 eruption.

Though the size and number of earthquakes observed during the past 13 months has been significantly smaller than those observed in the three years prior to the 1984 eruption, they have been occurring in the same general areas of the volcano.

The swarm in September through October 2013 occurred on the northwest flank, the same location as one of the swarms that occurred prior to the 1984 eruption.

The May 9, 2014, magnitude 3.5 earthquake occurred in the same area of the upper Southwest Rift Zone as many magnitude 3 or greater earthquakes prior to the 1984 eruption.

Interestingly, the March 2013 and April 2014 swarms occurred on the northwest flank in areas not active prior to the 1975 or 1984 eruptions.

So, why are earthquakes happening in these different areas?

Mauna Loa consists of a hot and plastic core that is composed of overlapping dikes intruded during the construction of the volcano’s edifice. Stresses arising from an intrusion of magma or gases under the volcano might be transmitted through the mushy core to the cooler and more brittle crust outside the core of the volcano.

The earthquake activity present during the past 13 months has consisted entirely of earthquakes arising from brittle failure of the crust. The swarms below 4 kilometers (2.5 miles) deep have occurred outside the core of the volcano and, thus, are consistent with a model requiring rocks around the core to adjust to stress changes within the core.

The Hawaiian Volcano Observatory continues to monitor Mauna Loa for signs of an impending eruption.

The likelihood of detecting a short-term change in activity that would lead to a successful eruption forecast is enhanced with a quality geophysical network that can monitor changes in earthquake occurrence, ground deformation and gas chemistry in the summit and rift zones of Mauna Loa.

For more information about the activity at Mauna Loa or any other Hawaiian volcano, see http://hvo.wr.usgs.gov.

Kilauea activity update

A lava lake within Halema‘uma‘u produced nighttime glow visible via HVO’s webcam during the past week.

The lava lake level rose during the week, reaching about 40 meters (130 feet) below the rim of the Overlook crater by June 12.

On Kilauea’s East Rift Zone, the Kahauale‘a 2 flow remains active. The flow front stalled at 8.8 kilometers (5.5 miles) northeast of its vent on Pu‘u ‘O‘o in mid-May. On June 6, the most distant active flows were 6.5 kilometers (4.0 miles) northeast of Pu‘u ‘O‘o. Several small spatter cones within the Pu‘u ‘O‘o crater also continued to produce glow.

There was one earthquake in the past week with more than three felt reports.

At 4:42 p.m. June 6, a magnitude 4.1 earthquake occurred 5 kilometers (3 miles) southeast of the town of Maunaloa, Molokai, at shallow depth.

Visit the HVO website (http://hvo.wr.usgs.gov) for past Volcano Awareness Month articles and current Kilauea, Mauna Loa, and Hualalai activity updates, recent volcano photos, recent earthquakes, and more; call 967-8862 for a Kilauea summary; 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.