This is the story of how a new concept — slowly pulsing magma supply to Kilauea — emerged from observations of the Overlook lava lake in Halemaumau. ADVERTISING This is the story of how a new concept — slowly pulsing
This is the story of how a new concept — slowly pulsing magma supply to Kilauea — emerged from observations of the Overlook lava lake in Halemaumau.
Every weekday, volcanic ash is collected from 10 buckets near the lava lake. Gas bubbles in the lake pop, and pieces of the skin, such as Pele’s hair and tears, fly into the air and the buckets catch them. The ash is weighed, and an ash accumulation rate is calculated.
Bubbles are almost always breaking — a process called spattering — but the rate at which ash accumulates in the buckets varies. There are several reasons for this: Wind direction, locations of spattering, depth to the lava lake and more. But, when averaged over a month, such short-term effects tend to cancel, and we see month-to-month variation, with peaks and troughs in ash accumulation lasting several months each. Does this relate to anything else that we can measure?
Yes. Almost daily, we measure the depth to the lake surface with a laser rangefinder. The lake level rises during summit inflation and drops during deflation. Such changes typically last a day or two, sometimes longer, but not for a month.
It turns out the average monthly lake level and the monthly accumulation of ash track each other. Over a several-month period, lake level and ash accumulation may rise, peak, and fall off. More ash falls in the buckets when the lava level is high than when it is low. The closer bubbles are to the buckets, the more ash. Simple.
But why does the monthly average lake level change over periods of several months? We think we’ve found an answer: A pulsing rate of magma supply to the shallow storage reservoir under the caldera.
Generally, magma supply to Kilauea is considered to be pretty steady. About a decade ago, there were three or four yeasts when the magma supply rate was higher than it is today. This was a long-term change and stood out by its magnitude and duration.
But now, the rising and falling lava lake over periods lasting only several months suggests a shorter-term variation in the supply rate. How can we check this idea?
GPS instruments at Kilauea’s summit measure elevation change. Close examination of the GPS data, again averaged over month-long periods to minimize short-term effects, shows good correspondence with lake level. Rising lake level indicates faster summit uplift, and dropping lake level slower uplift.
The simplest explanation for all of this is that the rate of magma supply is slowly pulsing over periods of several months. It isn’t simply a question of transferring magma from one place in the summit to another, like robbing Peter to pay Paul. The entire summit goes up or down, seemingly reflecting waxing and waning of the magma supply rate to the entire summit reservoir. Only once, in 2012, did the southern part of the reservoir go down when the northern went up — the Peter-Paul effect.
We’ve identified about a dozen pulses since the Halemaumau eruption began in 2008. The pulses may be driven by changes in the rate of melting in the mantle or be induced during transport upward from the mantle to the shallow storage reservoir, a 50-60 mile distance.
Without the lava lake and its precisely measured level, we probably wouldn’t have detected a pulsing supply rate. And, the only reason we looked at lake level at this scale was to explain the monthly changes in ash accumulation. Research is full of surprises, and seemingly minor observations can have major ramifications!
Volcano Watch is a weekly article and activity update written by U.S. Geological Survey Hawaiian Volcano Observatory scientists and colleagues.
Volcano Activity Updates
Kilauea continues to erupt at its summit and East Rift Zone. This past week, the summit lava lake level varied between about 66-98 feet below the vent rim. The 61g flow was still active, with lava entering the ocean near Kamokuna and surface breakouts downslope of Puu Oo on the pali and the coastal plain. The 61g flows do not pose an immediate threat to nearby communities.
Mauna Loa is not erupting. During the past week, small-magnitude earthquakes continued to occur beneath the volcano, primarily beneath the east flank and upper Southwest Rift Zone. GPS measurements continue to show deformation related to inflation of a magma reservoir beneath the summit and upper Southwest Rift Zone. No significant change in the summit fumarole temperature was noted this past week.
One earthquake was reported felt on Hawaii Island. At 4:34 p.m. on Monday, a magnitude-2.8 earthquake occurred 4.9 miles west-northwest of the Mauna Kea summit at a depth of 14 miles.
Visit https://hvo.wr.usgs.gov for past Volcano Watch articles, Kilauea daily eruption updates, Mauna Loa weekly updates, volcano photos, recent earthquakes info, and more; call for summary updates at 808-967-8862 (Kilauea) or 808-967-8866 (Mauna Loa); email questions to askHVO@usgs.gov.
