Iceland Erupts

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The waiting is over. After weeks of ominous earthquake swarms and warnings from geologists about the possibility of an eruption, lava began to pour from a new fissure on the Reykjanes Peninsula in southwestern Iceland late on December 18, 2023. 

The waiting is over. After weeks of ominous earthquake swarms and warnings from geologists about the possibility of an eruption, lava began to pour from a new fissure on the Reykjanes Peninsula in southwestern Iceland late on December 18, 2023. The eruption is located about 4 kilometers (2 miles) northeast of the town of Grindavík and about 50 kilometers (30 miles) southwest of Iceland’s capital, Reykjavík.

The eruption began with fountains of lava shooting dozens of meters into the air along a 4-kilometer fissure and flowing laterally from five vents. The brightness temperature image above (right) was acquired by the VIIRS (Visible Infrared Imaging Radiometer Suite) on the NOAA-20 satellite at 4:00 a.m. local time on December 19, after the eruption had begun. The other image (left) shows the same area early on December 18, before the eruption. Brightness temperature measurements are useful for distinguishing the relative warmth or coolness of features on the land surface and in the atmosphere.

“What you’re seeing in these images is the very high temperatures of the active lava flows compared to the surrounding land and clouds,” said Simon Carn, a volcanologist at Michigan Technological University. “The darker lower-temperature areas appear to be some topography that the lava is flowing around, but these could also be areas where the eruption fissure is not active and has cooler lava, or where gas plumes or clouds are obscuring the surface.” Topographic maps of the area show three hills to the west of the eruption fissure that reach heights of roughly 200 meters.

Read more at NASA Earth Observatory

Image: After weeks of warnings, a new fissure has opened on the Reykjanes peninsula in southwestern Iceland. (Credit: NASA Earth Observatory image by Michala Garrison, using VIIRS data from NASA EOSDIS LANCE, GIBS/Worldview, and the Joint Polar Satellite System (JPSS))