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What do we call new land at Kilauea Volcano’s ocean entries?

November 24, 2017 - 12:05am

If you follow Kilauea Volcano’s ongoing East Rift Zone eruption, you are likely aware that when lava enters the ocean, it often forms new land. But what is this new land called?

A few years ago, “bench” was the term commonly used for the accumulation of lava at an ocean entry. But geologists have moved away from that word, because the geologic definition of a bench does not agree with the process by which new land forms when lava enters the sea.

“Lava delta” is now the accepted geologic characterization. But, because the word “bench” was used for so long, it can be hard to transition to a different name for the new land formed at an ocean entry. As we all know, bad habits are hard to break.

The purpose of this Volcano Watch is to help resolve any confusion about what new land at an active ocean entry should be called, and to describe the processes by which lava deltas form and evolve.

So, why is bench the wrong word? First and foremost, to geologists, benches are erosional features, whereas deltas are depositional features, formed by the accumulation of new material.

Coastal benches are nearly horizontal terrains commonly formed by wave erosion over long periods of time. These flat and narrow features form at the base of sea cliffs near the high tide mark. In Hawaii, Hanauma Bay is an example of a bench that cut into the southeast wall of a tuff ring (low relief volcanic crater) next to Koko Head on the Island of Oahu.

Referring to a lava delta as a shelf is another common, but misguided, term that’s used to describe the ocean entry feature. A shelf is a nearly horizontal, shallow ledge of continental crust that extends below sea level off the coast of a land mass. Island shelves can be found off the coast of the Hawaiian Islands as well, but they are generally much larger than lava deltas.

In contrast to the erosional origin of a bench, a lava delta is a depositional feature built by the accumulation of lava near the base of the sea cliff at an ocean entry. To understand this process, picture a river delta, like that of the Mississippi.

River deltas are land areas that protrude from the surrounding coastline near the mouth of a river. They form when alluvium, such as silt and sand, is transported down the river and then deposited where the river enters a larger body of standing or slower-moving water, such as an ocean.

Molten lava insulated in a tube is like a river. It is transported to the coast, where it enters the ocean.

As the approximately 1,140-degree Celsius (2,080-degree Fahrenheit) lava flows into the ocean, it quickly cools, creating a potentially explosive interaction. Small explosions and surf action break the lava into smaller pieces of rubbly rock and sand, which are then deposited onto the sea floor beneath the ocean entry. The accumulation of this unconsolidated material produces the unstable foundation on which lava deltas are built.

As a lava delta continues to grow, its front can begin to subside, because the increasing weight of the delta causes its rubbly foundation to shift. When a lava delta becomes too heavy, or is undercut downslope, it collapses, either partially or completely.

When a lava delta collapses, it can trigger explosions that throw blocks of solid rock and fragments of molten lava both inland and seaward. Lava delta collapses can further undercut the older sea cliff, causing it to collapse as well. So, a seemingly stable sea cliff in the vicinity of an ocean entry is a hazardous area. Other hazards that accompany lava delta collapses include localized tsunami and large waves that can carry scalding seawater inland.

Names say a lot, and in this case the name describes the process by which a lava delta forms. Calling the feature by other names can be misleading. As you enjoy the excitement of lava entering the ocean, we hope you remember to call the new land a lava delta.

Volcano Activity Updates

This past week, Kilauea Volcano’s summit lava lake level fluctuated with summit inflation and deflation, ranging about 102–135 feet below the vent rim. On the East Rift Zone, the 61g lava flow remained active downslope of Puu Oo, with scattered breakouts on the coastal plain. The 61g flows do not pose an immediate threat to nearby communities.

Mauna Loa is not erupting. A few small-magnitude earthquakes occurred beneath the summit caldera and upper Southwest Rift Zone at depths less than 3 miles, with a few deeper earthquakes scattered beneath the volcano’s southeast and west flanks at depths of 3-8 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.

One earthquake was reported felt on the Island of Hawaii this past week. On Nov. 22, at 3:33 a.m. HST, a magnitude-3.4 earthquake occurred at 3.7 miles depth, 3.9 miles west of Kilauea’s summit.

Please visit the HVO website ( for past Volcano Watch articles, volcano updates and photos, recent earthquake info, and more. Call for summary updates at 808-967-8862 (Kilauea) or 808-967-8866 (Mauna Loa). Email questions to

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