As the Arctic warms, Greenland’s fringe of glaciers is thinning and melting—but the future of the Greenland ice sheet remains a giant question mark. Until recently, that was also true of the ice sheet’s past: Scientists have long debated whether it might have shrunk away to nothing during Earth’s warmest periods. Now, a new study suggests that Greenland was entirely ice free at some point in the last 1.25 million years.
Scientists have been keeping a wary eye on Greenland’s ice sheet, which holds in its frozen waters the equivalent of 7.4 meters of sea level rise. Many of the glaciers that jut out into the ocean are thinning, but whether the ice sheet itself has remained stable and intact, even during warm interglacial periods, is a matter of considerable debate. So scientists are keen to learn more about the icy island’s past. One period of particular interest is a warm, wet interglacial stage known as the Eemian that occurred from 124,000 to 119,000 years ago, featuring average global temperatures about 2°C warmer than today.
Using data from a 3053-meter-long core of ice and bedrock collected from the center of the island in 1993, Schaefer’s team has found valuable clues to what the period held. In particular, the 1.55 meters of bedrock at the core’s base revealed much about the island’s history of glaciation, Schaefer says, in atoms that chronicle exposure to the elements. Earth’s surface is constantly bombarded by cosmic rays, high energy particles streaming into Earth from space. They collide with atoms in Earth’s atmosphere as well as in the uppermost centimeters of its rocks, producing new particles. Some of those particles have a particularly useful set of properties: They don’t naturally occur in the rocks, and they are radioactive. Thus, they can act as a sort of clock, marking time since the rocks were last ice free and exposed to the atmosphere.
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