Volcano Watch: How long will Kīlauea Volcano’s lower East Rift Zone eruption continue?

The fissure 8 vent (far distance, upper right) continues to feed an active lava channel on Kīlauea Volcano’s lower East Rift Zone, shown here on July 26, 2018. Based on several monitoring techniques, the USGS recently estimated that lava is erupting from fissure 8 at a rate of 50 to 150 cubic meters per second (65–196 cubic yards per second), or roughly, 1.1 to 3.4 billion gallons per day. USGS photo by L. DeSmither.

The fissure 8 vent (far distance, upper right) continues to feed an active lava channel on Kīlauea Volcano’s lower East Rift Zone, shown here on July 26, 2018. Based on several monitoring techniques, the USGS recently estimated that lava is erupting from fissure 8 at a rate of 50 to 150 cubic meters per second (65–196 cubic yards per second), or roughly, 1.1 to 3.4 billion gallons per day. USGS photo by L. DeSmither.

(Volcano Watch is a weekly article written by scientists at the U.S. Geological Survey’s Hawaiian Volcano Observatory.)

“How long will it last?” is one of the most challenging questions asked about a volcanic eruption, including Kīlauea Volcano’s current lower East Rift Zone (LERZ) eruption.

The short answer is that no one knows for sure. We can, however, offer the most likely possibilities based on characteristics of the current eruption and comparisons with past eruptions.

The LERZ eruption started on May 3, 2018. Over the next few weeks, a total of 24 vents briefly erupted, but only the 8th fissure, which initially opened on May 5 and reactivated on May 27, is still erupting today. On June 4, the fissure 8 lava flow reached Kapoho Bay, where a lava delta continues to grow as lava enters the ocean.

Knowing how much lava is erupting could help answer the duration question, but it’s been difficult to measure the fissure 8 eruption rate. U.S. Geological Survey (USGS) scientists have used several techniques in recent weeks to obtain a rough estimate of 50 to 150 cubic meters per second (65–196 cubic yards per second), for a total erupted volume to date of 0.5 cubic kilometers (0.12 cubic miles).

A decreasing trend in this rate would suggest that the eruption might be ending—or be over when the eruption rate gets too low to sustain ongoing activity. Unfortunately, we’ve not detected any trends. The eruption rate seems more or less constant with some short-term variations.

Preceding the LERZ eruption, geophysical monitoring of earthquakes and ground deformation tracked the subsurface intrusion of magma under Leilani Estates. If we could detect decreases in the volume of that intrusion as fissure 8 lava continues to erupt from it, we could estimate the length of time after which the intrusion would be depleted.

But monitoring has detected no changes in the intrusion since its emplacement. This suggests that magma withdrawn by the fissure 8 eruption is being quickly replaced.

We also turn to past eruptions for clues to possible duration. In the recent USGS hazard assessment of fissure 8 (https://volcanoes.usgs.gov/vsc/file_mngr/file-185/USGS%20Preliminary%20Analysis_LERZ_7-15-18_v1.1.pdf), Kīlauea’s 2018 eruption was compared to four past LERZ events.

The 1840 eruption, which lasted 26 days, had an average eruption rate similar to today’s rate. In 1924, earthquakes and major subsidence in the Kapoho area suggested that magma had intruded the LERZ, but no eruption occurred.

A LERZ eruption in 1955 shared some similarities with the first three weeks of the current eruption. During the 88-day-long 1955 event, more than 20 fissures erupted in no clear order; in May 2018, 24 fissures erupted, also in no clear order. However, the average 1955 eruption rate was significantly lower than the present rate.

The most recent LERZ eruption occurred in Kapoho in 1960. It lasted about 5 weeks, and its eruption rate was less than half that of today’s eruption.

As of July 31, the 2018 eruption has surpassed the 1955 eruption in duration and exceeded all but the 1840 event in eruption rate. So, we look to other KÄ«lauea eruptions for clues to how long the 2018 eruption could last.

Kīlauea’s lower East Rift Zone has erupted more than 100 times in the past 2,500 years. We cannot determine the durations or eruption rates for those past events. Thus, we must use a proxy for those quantities, such as area covered by lava and total volume erupted—if we can get good estimates.

Heiheiahulu, a shield-shaped vent similar to Kupaianaha (active 1986–1992), may have erupted in the early 18th century. It is located about 10 km (6 miles) uprift of fissure 8, and its lavas cover about 45 square kilometers (17 square miles). The similarity of its structure to that of Kupaianaha and Mauna Ulu suggest that Heiheiahulu erupted for several years.

Lava from Puʻu Kaliu, located 1.6 km (1 mile) uprift of fissure 8, covered about 12 square kilometers (4.6 square miles) with an estimated volume of 0.2 cubic kilometers (0.05 cubic miles). Puʻu Kaliu lava flows, thought to have erupted in 1790 from fissures on either edge of the LERZ, are similar to the 1840 flow.

Finally, we must consider Puʻu ʻŌʻō, which lasted 35 years (1983–2018), erupting a volume of 3.3 cubic kilometers (0.79 cubic miles), and Mauna Ulu, which erupted 0.2 cubic kilometers (0.05 cubic miles) of lava over 5 years (1969–1974).

So, how long will the 2018 LERZ last? Based on past eruptions and current geophysical monitoring, it could continue for many months to a few years. Time will tell.

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