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Greenland Study Documents Ice Loss

By MarEx 2015-08-26 22:20:09

This summer, a refitted fishing boat is mapping the seafloor around Greenland as the first step in a six-year research program to document the loss of ice from the world’s largest island. NASA’s Oceans Melting Greenland (OMG) field campaign is gathering data that will help scientists both to understand how the oceans are joining with the atmosphere in melting the vast ice sheet and to predict the extent and timing of the resulting sea level rise.

“A lot of the major uncertainty in future sea level rise is in the Greenland Ice Sheet,” said OMG principal investigator Josh Willis, a scientist at NASA’s Jet Propulsion Laboratory, Pasadena, California. At about 660,000 square miles (1.7 million square kilometers), the ice sheet is three times the size of Texas. It’s about a mile deep on average and contains enough water to raise global sea levels about 20 feet (six meters), if it were all to melt.

“The question is how fast it’s melting,” Willis said.

If the ice sheet were simply melting from the top down, researchers could track its disappearance more easily. However, ocean water melts ice too. The northwest Atlantic Ocean has been warming at an unprecedented rate for the last 10 to 15 years. Where that warm, salty water can reach Greenland’s glaciers, it accelerates their melting.

Finding out where that is happening is no easy task. Greenland’s coastline is more than 27,000 miles (44,000 kilometers) long,- longer than the distance around Earth at the equator, because of the island’s hundreds of long, narrow fjords, many containing glaciers. Just as the coast is scored by fjords, Greenland’s shallow continental shelf is gouged by underwater canyons cut by the glaciers of the last ice age.

In this part of the world, the warmest water is down deep in the ocean, but that water may be able to get into the underwater canyons and reach the glaciers.

Seafloor depths on Greenland’s west coast, measured by sonar aboard a research ship as part of the OMG project. Red and yellow are shallower areas, greens and blues deeper. The thin green line is the ship’s path. The data give a better idea of where warm ocean water can reach glaciers. Credits: NASA/JPL-Caltech

“We don’t know how deep almost all of the glaciers and the fjords are, nor where the deep canyons cut through the continental shelf,” said OMG co-investigator Ian Fenty of JPL. OMG is making the first high-resolution maps of the complete Greenland coast and continental shelf.

Aerial Analysis

The maps are just the opening act of the OMG campaign, however. From next year to 2020, NASA’s G-III research aircraft will take up the job of collecting data. The advantage of aircraft, Willis said, is that “we can encircle the island with observations of both the ocean and the ice. There’s really no other way to do that.” The G-III is based at Armstrong Flight Research Center, Palmdale, California.

Starting next spring, the plane will fly NASA’s Glacier and Ice Surface Topography Interferometer (GLISTIN) instrument over the periphery of the island each year. GLISTIN will make very precise measurements of the heights and extents of more than 90 percent of Greenland’s coastal glaciers that reach the ocean, enabling researchers to quantify how much each glacier melted and retreated during the preceding melt season.

In the early fall when sea ice is at its minimum, the G-III will circumnavigate Greenland’s continental shelf, releasing about 250 expendable sensors that measure the temperature and salinity of the water up to a depth of about 3,000 feet (1,000 meters) from the cold, fresh meltwater at the surface down to the warmer, heavier saltwater below.

According to Fenty, these comprehensive measurements will give scientists a real chance to answer questions they can only guess at with the limited observations they have now. “People have been going to Greenland, studying a few glaciers at a time, trying to make sense of the complex melting and glacier-retreat pattern observed by satellites,” he said. “But we really can’t, unless we take a far-reaching approach.”

Accelerated Rising

For thousands of years, sea level has remained relatively stable and human communities have settled along the planet’s coastlines. But now Earth’s seas are rising. Globally, sea level has risen about eight inches since the beginning of the 20th century and more than two inches in the last 20 years alone.

All signs suggest that this rise is accelerating.

While NASA and other agencies continue to monitor the warming of the ocean and changes to the planet’s land masses, the biggest concern is what will happen to the ancient ice sheets covering Greenland and Antarctica, which continue to send out alerts that a warming planet is affecting their stability.

“We’ve seen from the paleoclimate record that sea level rise of as much as 10 feet in a century or two is possible, if the ice sheets fall apart rapidly,” said Tom Wagner, the cryosphere program scientist at NASA Headquarters in Washington. “We’re seeing evidence that the ice sheets are waking up, but we need to understand them better before we can say we’re in a new era of rapid ice loss.”

Finding the Level

NASA has been recording the height of the ocean surface from space since 1992. That year, NASA and the French space agency, CNES, launched the first of a series of spaceborne altimeters that have been making continuous measurements ever since. The first instrument, Topex/Poseidon, and its successors, Jason-1 and -2, have recorded about 2.9 inches (7.4 centimeters) of rise in sea level averaged over the globe.

In the 21st century, two new sensing systems have proven to be invaluable complements to the satellite altimetry record. In 2002, NASA and the German space agency launched the Gravity Recovery and Climate Experiment (GRACE) twin satellites. These measure the movement of mass, and hence gravity, around Earth every 30 days. Earth’s land masses move very little in a month, but its water masses move through melting, evaporation, precipitation and other processes. GRACE records these movements of water around the globe. The other new system is the multinational Argo array, a network of more than 3,000 floating ocean sensors spread across the entire open ocean.

The M/V Cape Race (inset) measured seafloor depths around Greenland this summer. Its complex path followed deep trenches dug by ancient glaciers. The track starts light and becomes darker throughout the survey. Sea ice at the cruise outset, July 24, is shown at left. Credits: NASA/JPL-Caltech