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Hawaii Volcano Erupts

Hundreds are evacuated as Kilauea volcano erupts

May 2018
By Jennifer Hackett
U.S. Geological Survey

A reddish ash plume shoots out of Kilauea volcano after a magnitude 6.9 earthquake shook the Big Island of Hawaii on May 4, 2018.

JIM MCMAHON/MAPMAN®

On Thursday May 3, a magnitude 5.0 earthquake shook the island of Hawaii. Shortly after, a plume of cotton-candy-pink ash shot into the sky. Kilauea—one of the most active volcanoes in the world—was erupting.

Then a new fissure, or long crack, appeared on the side of Kilauea. Red-hot lava burst out of the fissure and began flowing. The eruption also spewed toxic sulfur dioxide gas into the air. By Monday morning, 10 new fissures had opened. As of press time, 26 homes in the Leilani Estates neighborhood had been destroyed by lava. Hawaii Volcanoes National Park, where Kilauea is located, closed to keep visitors out of harm’s way.

BRUCE OMORI/PARADISE HELICOPTERS/EPA-EFE/REX/Shutterstock

Lava erupts from a fissure in the neighborhood of Leilani Estates and threatens homes on May 6, 2018.

Out of the Danger Zone

The governor of Hawaii declared a state of emergency on Thursday afternoon. Since then, more than 1,800 people have evacuated Leilani Estates and the surrounding area. On Friday May 4, the eruption sent lava 70 meters (230 feet) into the air. It also triggered a 6.9 magnitude earthquake—the strongest Hawaii has experienced in four decades.

Luckily, residents were prepared. “Eruptions happen all the time in Hawaii, and a lot of people are monitoring them,” says Mika McKinnon, a field geophysicist and disaster researcher. “In the last week, we’ve seen a whole swarm of little earthquakes, so we knew something was happening.” Earthquakes are usually signs that the molten magma deep inside the volcano is rising toward the surface.

U.S. Geological Survey

Geologists from the Hawaii Volcano Observatory collect samples of fresh lava. Analyzing the samples should tell them what is happening inside the volcano.

Lessons from Lava

Kilauea is a shield volcano. These volcanoes are often very large with a shallow, gradual slope instead of steep sides. Most volcanoes have a crater, called a caldera, at the top where lava pools and escapes during an eruption. Kilauea has a caldera, but this eruption didn’t come from it. It came from the newly formed fissures in the volcano’s side.

How lava moves mainly depends on its silica content. Silica is a compound commonly found in quartz and sand. The higher the lava’s silica content, the more violent the eruption and the faster the lava flows. Kilauea’s lava has low amounts of silica, so the eruption has been slow and steady. It is very “well-behaved” says McKinnon.

A wide area is being evacuated, however, because it is very difficult to predict where the lava might flow. “You can’t prevent the lava from flowing where it wants to go,” says McKinnon. “You can just get out of the way.”

According to McKinnon, the main risk at this point is loss of property, not loss of life. Scientists caught the eruption as it was brewing, and Hawaii has an emergency alert system. The system gave residents plenty of time to evacuate. The fact that the eruption began during the day was also helpful. That’s because residents were awake and scientists could clearly observe the volcano.

McKinnon says, “this was a best case scenario. It’s going as smoothly as can be, considering it’s a volcano erupting.”

Earth Science
Landforms, Earth's Structure
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