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The Antarctic Circumpolar Current is the planet's most powerful and arguably most important. It is the only one to flow clear around the globe without getting diverted by any landmass, sending up to 150 times the flow of all the world's rivers clockwise around the frozen continent. It connects all the other oceans, and is thought to play a key role in regulating natural climate swings that have repeatedly swept the earth for millions of years. But much is still not known about how it works, including how it might now respond to human-induced climate change.
Starting this month, some 30 scientists from 13 countries aim to study the current's past dynamics by drilling into the seabed in some of the planet's remotest marine regions. They will sail May 20 from Puntas Arenas, Chile on the ship JOIDES Resolution, to begin Expedition 383 of the International Ocean Discovery Program. The IODP is a collaboration of scientists from around the world that studies the history of the earth as recorded in sediments and rocks beneath the ocean floor.
Piece - World - Climate - System - Heat
"This is really a key piece of the world climate system, because this is where so much heat and carbon are exchanged between the ocean and the atmosphere," said the cruise's co-chief scientist Gisela Winckler, a geochemist and paleoclimatologist at Columbia University's Lamont-Doherty Earth Observatory. "We should learn about how the winds, the ocean and the Antarctic ice sheet have responded to warming in the past. That will help us know what they might do in the future."
The Antarctic Circumpolar Current, or ACC, as scientists call it, is actually a complex set of currents. Spinoffs from it balloon huge amounts of long-stored carbon dioxide, nutrients and heat up from the deep ocean. Interactions with the air and sunlight may result in big blooms of phytoplankton,...
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