Hawaii's Kilauea: Volcano's dramatic images explained

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Lava erupts following eruptions at the Kilauea volcano on Hawaii's Big Island on 17 May 2018 in Kapoho, HawaiiImage source, Getty Images
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Lava burst from the ground in Kapoho on Thursday, two weeks after the first eruption

In early May, one of Hawaii's active volcanoes - which helped create the islands - erupted. Volcanic gases have been erupting from fissures ever since, producing dramatic photographs and video.

Two weeks later, it is still erupting. Here, volcanologists Tamsin Mather and David Pyle from Oxford University explain what's happening beneath the surface.

Creation and destruction

Kīlauea volcano is the most active volcano on Hawaii's Big Island.

There has been an ongoing eruption to the east of the summit in the East Rift Zone since 1983, mainly centred around the Pu'u 'Ō'ō vent.

Image source, USGS / Getty Images
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3 May: Ash spews from the Pu'u 'Ō'ō crater, as it erupts after an earthquake

Lava fountains and flows have covered more than 144 sq km and added more than 443 acres of new land to the island.

As of 2016, lava flows had already destroyed 215 structures and buried 14.3 km of roads.

The crater's lava lake

In 2008 a new gas vent opened up at Kīlauea's summit in the Halema'uma'u crater. Over the following months and years, this slowly developed into a lava lake.

Image source, USGS / Getty Images
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6 May: The summit lava lake, which had dropped in level

During March and April this year the lava level rose, and lava began to spill out across the crater floor.

Just two weeks later, the lava had dropped out of sight.

Image source, Getty Images
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9 May: A plume rises from the Halema'uma'u crater, lit by the lava lake below

A creeping lava flow

Kīlauea lavas are among the hottest on Earth. After magma spills out of the fissure, the surface quickly crusts over, forming a shell.

Inside, though, the lava is still red hot - and mobile.

Image source, Reuters
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A road in Leilani Estates blocked by what was once flowing molten lava on 13 May

As the whole mass of lava creeps forward, the blocks and plates of cooled lava are carried along, giving the whole the appearance of a jumble of loose blocks.

In places, fresh lava breaks out from inside the flow, to form a narrow stream.

Image source, Getty Images
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12 May: A local, wearing her gas mask, walks by the molten flows in Pahoa

The emerging lava is red-hot at the opening, and progressively crinkles and crusts over as it flows downhill.

Image source, Reuters
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13 May: A fissure spews lava and volcanic gas, east of Leilani Estates

Fiery curtains of lava

Geologists have been watching Kīlauea continuously since 1912, and have developed a simple understanding of how the magma flows under Kīlauea.

It rises out of the Earth's mantle under the summit, and then flows along subterranean fractures beneath the East Rift Zone.

Image source, Reuters
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17 May: A geologist inspects cracks after an explosive eruption

In this phase of the eruption, the movement of the magma is causing new fractures to open at the surface.

Some of these fractures just let hot gases escape; others turn into open fissures, erupting fiery curtains of lava.

Image source, Reuters
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15 May: Erupting ash makes for a photo opportunity - from a safe distance

The steady lowering of the lava lake within Halema'umaʻu at the summit of Kīlauea raised the potential for explosive eruptions as the lava column drops to the level of groundwater beneath the volcano.

Explosive plumes

The mixing of groundwater with the hot magma can cause steam-driven explosions.

Image source, Getty Images
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15 May: The glow from open fissures lights up the volcanic gas at night

Seventeen fissures have opened so far in the lower East Rift Zone spewing out dangerous lava and gases.

Some of these gases, such as sulphur dioxide, reduce air quality and cause breathing problems, especially among risk groups such as asthmatics.

Image source, AFP
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15 May: A thick plume rises from one of the island's craters

Activity can change rapidly and is hard to predict precisely.

Future outbreaks could occur both uprift (southwest) and downrift (northeast) of the existing fissures – or existing fissures can be reactivated.

Tamsin Mather and David Pyle are volcanologists and both professors at Oxford University's Department of Earth Sciences.