Maui News

Kīlauea’s Kamokuna Ocean Entry Reaches One-Year Anniversary

July 26, 2017, 10:00 AM HST
* Updated July 26, 4:44 PM
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Today, July 26, marks the one-year anniversary of Kīlauea Volcano’s episode 61g lava flow reaching the sea. And at this time, there’s no indication that the Kamokuna ocean entry will soon end.

Kīlauea Volcano’s Kamokuna ocean entry photographed on May 23, 2017 (left) and July 13, 2017 (right) show how lava flowing from the tube has both widened and thickened the delta. Near the sea cliff, the delta appears to have doubled in thickness over the past seven weeks, creating a distinctly sloped surface from the base of the cliff to the sea. As of mid-July, the Kamokuna lava delta was estimated to be about 1150 feet (350 m) wide and about 6 acres in area. Large cracks on the delta indicate its instability and potential for collapse. USGS photos by L. DeSmither.

The story began in late May 2016, when a new vent opened on the flank of the Pu‘u ‘Ō‘ō cone on Kīlauea Volcano’s East Rift Zone. This new phase was called “episode 61g,” as it was the seventh subevent of the 61st episode of the Pu‘u ‘Ō‘ō eruption, which began in 1983.

The episode 61g flow gradually advanced down the south flank of Kīlauea, and, within two months, reached the coast. Just after 1 a.m. on July 26, 2016, lava entered the ocean in an area historically called Kamokuna.

When the 61g flow first spilled over the sea cliff, it had been almost three years since lava entered the ocean. Just two weeks later, another branch of the 61g flow entered the ocean west of the main Kamokuna entry. But this second entry was short-lived, lasting only a few months.

The initial Kamokuna ocean entry then became the focus of activity, and the lava wasted no time in building a delta at the base of the sea cliff. By the end of 2016, the lava delta was approximately 24 acres in size.


Lava deltas are inherently unstable features, and the instability of the large Kamokuna delta soon became apparent. Large cracks formed parallel to the coast and the front of the delta slumped seaward.


On New Year’s Eve (Dec. 31, 2016), around 21 acres of the delta and 4 acres of the adjacent older sea cliff collapsed into the ocean. This collapse occurred in piecemeal fashion over the course of several hours. Afterward, only a small remnant of the delta, a ledge of about 2.5 acres, remained along the base of the sea cliff.

Following the delta collapse, tube-fed lava jetted from the cliff face and plunged into the seawater below. Due to its appearance, the gushing lava stream was referred to as a “firehose” flow. This firehose lasted for nearly three months, but surprisingly, a delta did not begin to build right away.

As the flow entered the ocean, spectacular explosions—caused by the interaction of hot lava and cool seawater— hurled fragments of molten and solid rock and volcanic glass both landward and seaward. These ballistic fragments, which can be larger than a basketball and reach several hundred yards (meters), are one of the many hazards at an ocean entry.


After the 2016 delta collapse, the sea cliff near the ocean entry became unstable. The exact cause of this is instability is unknown, but it’s possible that the collapse oversteepened the cliff below sea level, weakening its foundation.

In early February 2017, a large slice of the sea cliff, separated from the coastal plain by a deep crack, could be seen vibrating. As it did, the adjacent ground shook. This slice, along with other portions of the sea cliff, eventually collapsed into the sea. These cliff failures can generate large ocean waves and swells, airborne rocky debris, and other dangers for people too close to the ocean entry—on land and at sea.

Near the end of March, the firehose flow was no longer visible, and lava finally began building a small delta. This delta grew to roughly 3 acres (estimated from time-lapse images) before collapsing on May 3. After this collapse, another delta quickly began to form, growing to approximately 6 acres as of mid-July.

A steep ramp of crusted-over lava currently extends from the lava tube exit point (near the top of the cliff) to the delta surface. This ramp formed as the firehose surface cooled and hardened.

Cracks and failures of the ramp have resulted in lava spilling onto the delta surface repeatedly during the past month. These flows have thickened the delta significantly, creating a distinctly sloped surface from the base of the cliff to the sea.

Currently, large, arcuate cracks span nearly the entire length of the lava delta—a reminder that it is unstable and could collapse without warning. Like other ocean entries during the Pu‘u ‘Ō‘ō eruption, the Kamokuna entry is a highly dynamic, and potentially dangerous, part of the lava flow field.

Volcano Activity Updates
This past week, Kīlauea Volcano’s summit lava lake fluctuated in concert with summit inflation and deflation, with levels ranging 82–148 feet below the vent rim.

On the East Rift Zone, the 61g flow remained active, with lava entering the ocean near Kamokuna and surface breakouts downslope of Pu‘u ‘Ō‘ō. The 61g flows do not pose an immediate threat to nearby communities.

Mauna Loa is not erupting. During the past week, small-magnitude earthquakes occurred beneath the volcano, primarily in the south caldera and upper Southwest Rift Zone, at depths less than 3 miles. GPS measurements continue to show deformation related to inflation of a magma reservoir beneath the summit and upper Southwest Rift Zone. No significant changes in volcanic gas emissions were measured.

No earthquakes were reported felt on the Island of Hawaiʻi during the past week.

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