Friday, February 15, 2019

Discovery of recent Antarctic ice sheet collapse raises fears of a new global flood

Discovery of recent Antarctic ice sheet 

Collapse raises fears of a new global flood


Discovery of recent Antarctic ice sheet collapse raises fears of a new global flood













Some 125,000 years ago, during the last brief warm period between ice ages, Earth was a wash. Temperatures during this time, called the Eemain were barely higher than in today's greenhouse-warmed world. Yet proxy records show sea levels were 6 to 9 meters higher than they are today, drowning huge swaths of what is now dry land.

Scientists have now identified the source of all that water a collapse of the West Antarctic Ice Sheet.  Glaciologist worry about the present-day stability of this formidable ice mass. Its base lies below sea level, at risk of being undermined by warming ocean waters and glaciers fringing it are retreating fast. The discovery, teased out of a sediment core and reported last week at a meeting of the American Geophysical Union in Washington, D.C., validates those concerns,  providing evidence that the ice sheet disappeared in the recent geological past under climate conditions similar to today's. "We had an absence of evidence," says Andres Carlson, a glacial geologist at Oregon State University in Corvallis, who led the work. I think we have evidence of absence now.


If it holds up, the finding would confirm that "the West Antarctic Ice Sheet might not need a huge nudge to budge," says Jeremy Shakun, a paleontologist at Boston College. That, in turn suggests "the big uptick in mass loss observed there in the past decade or two is perhaps the start of that process rather than a short-term blip." If so, the world may need to prepare for sea level to rise farther and faster than expected: Once the ancient ice sheet collapse got going, some records suggest, ocean waters rose as fast as some 2.5 meters per century.

As an analogy for the present, the  Eemain, from 129,000 to 116,000 years ago, is "probably the best there is, but it's not great," says Jacqueline Austermann, a geophysicist at Columbia University's Lamont-Doherty Earth observatory. Global temperatures were some two degree Celsius above
preindustrial levels. But the cause of the warning was  not greenhouse gases, but slight changes in Earth's orbit and spin axis and Antarctica was probably cooler than today. What drove the sea level rise, recorded by fossil corals now marooned well above high tide, has been a mystery.

Scientists once blamed the melting of Greenland's ice sheet. But in 2011, Carlson and colleagues exonerated Greenland after identifying isotopic fingerprints of its bedrock in sediment from an ocean core drilled off its southern tip. The isotopes showed ice continued to grind away at the bedrock through the Eemain. If the Greenland Ice Sheet didn't vanish and push up sea level, the vulnerable West Antarctic Ice Sheet was the obvious suspect. But the suspicion rested on little more than simple subtraction, Shakun says. "It's not exactly the most compelling or satisfying argument."

Carlson and his team set out to apply their isotope technique to Antarctica. First, they drew on archived marine sediment cores drilled from along the edge of the western ice sheet. Studying 29 cores, they identified geochemical signatures for three different bedrock source regions: the mountainous Antarctic Peninsula; the Amundsen province, close to the Ross Sea; and the area in between, around the particularly vulnerable Pine Island Glacier.

Armed with these fingerprints, Carlson's team then analyzed marine sediments from a single archived core, drilled farther offshore in the Bellingshausen Sea, west of the Antarctic Peninsula. A stable current runs along the West Antarctic continental shelf, picking up ice-eroded silt along the way. The current dumps much of this silt near the core's site, where it builds up fast and traps shelled microorganisms which can be dated by comparing their  oxygen isotope ratios to those in cores with known dates. Over a stretch of 10 meters, the cor contained 140,000 years of built-up silt.

He concedes that the dating of the core is not precise, which means the pause in erosion may not have taken place during the Eemain. It is also possible that the pause itself is illusory-that ocean currents temporarily shifted, sweeping silt to another site.

More certainty is on the way. Next month, the International Ocean Discovery Program's JOIDES Resolution research ship will begin a 3 month voyage to drill at least five marine cores off West Antarctica. "That's going to be a great test," Carlson says. Mean while, he hopes to get his own study published in time to be included in the next United Nations climate report. In the 2001 and 2007 reports, West Antarctic collapse was not even considered in estimates of future sea level; only in 2013 did authors start to talk about an Antarctic surprise, he says. Research is due by December 2019. "We gotta beat that deadline." 

   


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