PAHOA, Hawaii — The eruption of Kilauea volcano in Hawaii sparked new safety warnings about toxic gas on the Big Island’s southern coastline after lava began flowing into the ocean and setting off a chemical reaction.
The molten rock started pouring into the sea over the weekend. It’s been generating plumes of lava haze or “laze” as it interacts with seawater.
It’s just the latest hazard from a weeks-old eruption that has so far generated earthquakes and featured gushing molten rock, giant ash plumes and sulfur dioxide. The eruption has destroyed more than 40 buildings forced more than 2,000 people to evacuate.
There has been continuous low-level ash emission from Kilauea’s summit with larger explosions every few hours, said U.S. Geological Survey geophysicist Mike Poland. Two small eruptions happened late Monday afternoon and early Tuesday morning, producing ash clouds that did not reach the 10,000-foot (3,048-meter) level.
On Monday, lava entered and then stalled on the property of a geothermal plant near one of Kilauea’s new volcanic vents. Officials earlier this month removed 50,000 gallons (190,000 liters) of stored flammable gas from the plant to reduce the chance of explosions.
Here are key things to know about the latest volcanic threat:
WHAT IS LAVA HAZE?
It is made of dense white clouds of steam, toxic gas and tiny shards of volcanic glass. Janet Babb, a geologist with the Hawaiian Volcano Observatory, says the plume “looks innocuous, but it’s not.”
HOW IS IT CREATED?
Laze is formed when lava enters the ocean and triggers a series of chemical reactions.
The seawater cools the lava, which forms a glass that shatters. Tiny pieces are picked up by the steam cloud, which contains hydrochloric acid that also is created by the interaction of lava and the ocean.
“Just like if you drop a glass on your kitchen floor, there’s some large pieces and there are some very, very tiny pieces,” Babb said. “These little tiny pieces are the ones that can get wafted up in that steam plume.”
Scientists call the glass Limu O Pele, or Pele’s seaweed, named after the Hawaiian goddess of volcano and fire.
WHY IS IT DANGEROUS?
The clouds contain hydrochloric acid, which is about as corrosive as diluted battery acid. It can irritate the skin and eyes and cause breathing problems.
Babb says protective masks that officials have been distributing to protect people from volcanic ash will filter particles from lava haze but not the hydrochloric acid.
Laze itself is not enough to cause serious burns, Babb said, unless someone is right on top of where lava enters the ocean. Waves also can wash over molten lava and send scalding water onshore, so people should maintain a safe distance.
No major injuries have been reported from lava haze. The U.S. Geological Survey says laze contributed to two deaths in 2000, when seawater washed across recent and active lava flows.
WHO NEEDS TO BE CONCERNED ABOUT IT?
Mostly people who are near the lava entry on the southern coast, either on land or in boats just offshore. Where the plume wafts depends heavily on wind direction and speed.
The gas clouds initially appear on the shoreline, but trade winds on Sunday carried plumes about 15 miles (24 kilometers) to the southwest. The cloud was offshore, running parallel to the coast.
When the winds die down, the plume can flatten out. Its size, meanwhile, depends on the volume of lava falling into the sea.
The hazards minimize once the shards fall to the ground because the glass would mix with the earth.
WHAT OTHER THREATS DO PEOPLE NEED TO BE WORRIED ABOUT?
Methane explosions could be a problem as lava flows into areas with a lot of vegetation. Babb said that is because decaying vegetation creates pockets of methane, which the lava’s heat can ignite.
Late Sunday or early Monday, lava entered and then stalled on the property of a geothermal plant. Officials earlier this month removed 50,000 gallons (190,000 liters) of stored flammable gas from the site to reduce the chance of explosions.
Hawaii County spokeswoman Janet Snyder said the lava stalled behind a berm on the property boundary.
The plant harnesses energy from the volcano for electricity. Underground wells bring up steam and hot liquid, and the steam feeds a turbine generator.