Admire the rare phenomenon of 'ice tentacles' in Antarctica

Strong winds and irregular ocean currents have created beautiful ice tentacles on the surface of the water in the middle of the Ronne Ice Shelf.

Strong winds and erratic ocean currents have created a spectacular view of the water in the middle of the Ronne Ice Shelf.

Picture 1 of Admire the rare phenomenon of 'ice tentacles' in Antarctica

Beautiful ice tentacles form on a water channel on the Ronne Ice Shelf.

This incredible image was taken by the Landsat 8 satellite on November 20, but was recently released by NASA's Earth Observatory. It shows elongated ice tendrils that look like ropes connecting the two sides of the water channel between the Ronne Ice Shelf - an extension of the Main Antarctic Ice Sheet, which spawned the world's largest iceberg A-76 in May.

Sea ice is made up of both perennial (white) and first-year, or juvenile (gray) ice. The latter is usually located much closer to the Ronne Ice Shelf, but in the image the wind has pushed it away. The wider distance allows for soft ice tendrils to form on the water channel.

Ice tentacles are basically clumps of sea ice less than 10cm thin. It is made of tiny needle-like ice crystals, also known as frazil. Normally, frazils would join together to form complete ice sheets that cover the ocean's surface, but in this case, strong winds and strange ocean currents prevented plate formation and pushed them across the ocean. the other side of the water channel, NASA explained.

However, researchers still don't fully understand why the ice tentacles in Ronne appear bluish-white when viewed from a satellite. Normally, glaciers and sea ice only show this color when they have become so dense that they absorb long wavelengths of light and reflect only blue.

"I'm not sure how the thin ice patches here get the blue color, but it's possible they've been compressed long enough to have that effect," said Walt Meier, an expert at the National Snow and Ice Data Center. US conjecture.

This stunning phenomenon could become more common in the future due to climate change, Meier added, as sea ice becomes more and more fragile and fragile.

Update 28 December 2021
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