VOLCANO WATCH: Kilauea’s Restless Nature
Recent activity highlights Kilauea Volcano’s restless nature
Kilauea made the news this past month with many changes, including an elevated lava lake level at the volcano’s summit, which provided spectacular views from the Jaggar Museum overlook in Hawai’i Volcanoes National Park, and increased earthquake activity. As of this writing, the lava lake level has dropped and is no longer visible from Jaggar Museum, and the earthquake frequency has decreased to background levels.
So, what exactly happened over the past month, and what does it mean?
First, let’s review what happened. Unusual activity began on April 21, 2015 with an abrupt onset of rapid summit inflation and a rise of Kilauea’s summit lava lake. By April 24, the rising lava lake, which normally is too deep within its crater to be seen by Park visitors, came into view from the Jaggar Museum vantage point. Inflation continued and the lake kept rising, eventually spilling lava onto the floor of Halema`uma`u Crater for the first time on April 28. Along with the inflation and high lava lake levels, earthquakes in Kilauea’s upper East Rift Zone were also increasing in rate and size.
The inflation, rising lava lake level, and increased earthquake activity all pointed to increasing pressure in Kilauea’s summit magma reservoir and upper East Rift Zone. Increased pressure in a magma storage system can be explained by either more magma coming into it (due to an increase in magma supply) or less going out of it (for instance, due to a blockage of magma flowing out to the Pu’u ‘Ō’ō vent on the East Rift Zone). Preliminary interpretations suggest that the recent increased pressure was driven by a brief increase in magma supply.
Regardless of the cause, increased pressure at the summit means a higher likelihood of new activity on Kilauea, such as an intrusion (injection) of magma into the rock that makes up the volcano—an intrusion that might, or might not, make its way to the surface and form a new eruptive vent. The most recent example of this occurred in March 2011, when building summit pressure produced an East Rift Zone intrusion that resulted in new vents opening west of Pu’u ‘Ō’ō and erupting fountains of lava for about five days. Intrusions (and associated eruptions) act as a pressure release “valve” for the summit, and are generally accompanied by deflation of Kilauea’s summit as magma leaves the reservoir.
High lava lake levels and inflation were sustained through the first week of May, but around May 10, the summit began to deflate and the lava lake level began to drop. On May 14, HVO recorded the onset of a sharp increase in small earthquakes in the southern part of Kilauea’s summit caldera. Around the same time, a nearby electronic tiltmeter (an instrument that measures tiny changes in the slope of the ground) began to tilt rapidly away from the south caldera.
Earthquake activity in Kilauea’s south caldera peaked on May 15 with more than one earthquake occurring each minute. Rapid ground tilting also continued, but diminished to low levels by May 17.
Now, let’s address what all this means. Our preliminary interpretation is that, beginning in late April, an increase in magma supply to the shallow magma storage system beneath Kilauea’s summit resulted in inflation and a rising lava lake level. By mid-May, the summit reservoir could no longer accommodate the influx of magma. This triggered an intrusion of magma from the reservoir into the southern part of Kilauea’s caldera, and, as the intrusion reduced pressure in the summit, the lava lake level dropped.
This pattern of inflation, seismicity, and subsequent intrusion in response to excess magma pressure is a common phenomenon at Kilauea. Although the heightened activity diminished to background levels earlier this week, more changes could still occur at Kilauea in the coming days to weeks. Because of this, HVO scientists continue to keep a close eye on Kilauea.
Kilauea Activity Update
Kilauea’s summit lava lake level dropped rapidly beginning on May 11 in response to summit deflation and then the intrusion of magma beneath the southern caldera region. By May 15, the lake level had dropped 62 m (203 ft) below the highest point reached on May 8. As of this writing (May 21), the lake level was about 51 m (167 ft) below the high point (the top of the new vent rim formed by lava overflowing the Overlook crater). By May 17, seismicity and deformation in the summit and southern caldera returned to normal, background levels, where they remained as of May 21.
Kilauea’s East Rift Zone lava flow continues to feed widespread breakouts northeast of Puʻu ʻŌʻō. The most distant active lava was about 8.5 km (5.3 mi) from Puʻu ʻŌʻō when mapped on May 21.
Four earthquakes were reported felt on the Island of Hawai’i in the past week. On Friday, May 15 at 8:37 a.m., a magnitude-3.2 earthquake occurred 2.6 km (1.6 mi) southwest of Kilauea Summit at a depth of 2.9 km (1.8 mi). On Saturday, May 16 at 9:14 a.m., a magnitude-3.3 earthquake occurred 4.7 km (2.9 mi) southeast of Kilauea Summit at a depth of 1.5 km (1.0 mi). On Sunday, May 17 at 8:42 a.m., a magnitude-3.3 earthquake occurred 5.2 km (3.2 mi) southeast of Kilauea Summit at a depth of 0.4 km (0.3 mi). On Sunday, May 17 at 10:17 a.m., a magnitude-3.4 earthquake occurred 8.2 km (5.1 mi) south of Hawi at a depth of 25.6 km (15.9 mi).
Volcano Watch is a weekly article and activity update written by scientists at the U.S. Geological Survey`s Hawaiian Volcano Observatory.