• NASA, UCI Reveal New Details of Greenland Ice Loss

    From baalke@1:2320/100 to sci.space.news on Thu Feb 16 22:04:57 2017
    From Newsgroup: sci.space.news


    http://www.jpl.nasa.gov/news/news.php?feature=6740

    NASA, UCI Reveal New Details of Greenland Ice Loss
    Jet Propulsion Laboratory
    February 9, 2017

    Fast Facts:

    * NASA's OMG is the first campaign ever to map all of the glaciers
    and ocean around Greenland's coastline.

    * NASA researchers have learned from OMG's first year that cold water
    from the melting glaciers is cooling warmer subsurface ocean water, with possible implications for how much ocean heat reaches Greenland's glaciers.

    * A UC Irvine-led research team has applied the data to improve coastline
    maps used to predict future rates of sea level rise.

    Less than a year after the first research flight kicked off NASA's Oceans Melting Greenland campaign last March, data from the new program are providing a dramatic increase in knowledge of how Greenland's ice sheet is melting
    from below. Two new research papers in the journal Oceanography use OMG observations to document how meltwater and ocean currents are interacting along Greenland's west coast and to improve seafloor maps used to predict future melting and subsequent sea level rise.

    The five-year OMG campaign studies the glaciers and ocean along Greenland's 27,000-mile coastline. Its goal is to find out where and how fast seawater
    is melting the glacial ice. Most of the coastline and seafloor around
    the ice sheet had never been surveyed, so the 2016 flights alone expanded scientists' knowledge of Greenland significantly. Future years of data collection will reveal the rate of change around the island.

    The water circulating close around the Greenland Ice Sheet is like a cold river floating atop a warm, salty ocean. The top 600 feet (200 meters)
    of colder water is relatively fresh and comes from the Arctic. Below that
    is saltwater from the south, 6 to 8 degrees Fahrenheit (3 to 4 degrees Celsius) warmer than the fresher water above. The layers don't mix much because freshwater weighs less than saltwater, so it stays afloat.

    If a glacier reaches the ocean where the seafloor is shallow, the ice interacts with frigid freshwater and melts slowly. Conversely, if the
    seafloor in front of a glacier is deep, the ice spills into the warm subsurface

    layer of saltwater and may melt relatively rapidly. Satellite remote sensing can't see below the surface to discern the depth of the seafloor or study
    the layers of water. OMG makes these measurements with shipboard and airborne instruments.

    Tracking meltwater far into the North

    In one of the two new papers, Ian Fenty of NASA's Jet Propulsion Laboratory, Pasadena, California, and coauthors tracked water up the west coast to
    see how how it changed as it interacted with hundreds of melting coastal glaciers. They found that in northwest Greenland, cold and fresh water
    flowing into glacial fjords from the melting surface of the ice sheet
    is cooling the warmer subsurface water, which circulates clockwise around
    the island. In one instance, evidence for meltwater-cooled waters was
    found in fjords 100 miles (160 kilometers) downstream from its source.
    Fenty noted, "This is the first time we've documented glacier meltwater significantly impacting ocean temperatures so far downstream. That shows meltwater can play an important role in determining how much ocean heat ultimately reaches Greenland's glaciers."

    The OMG data have enough detail that researchers are beginning to pinpoint
    the ice-loss risk for individual glaciers along the coast, according to
    OMG Principal Investigator Josh Willis of JPL. "Without OMG, we wouldn't
    be able to conclude that Upernavik Glacier is vulnerable to ocean warming, whereas Cornell Glacier is less vulnerable," he said.

    Improving maps used to project sea level rise

    In the second paper, lead author Mathieu Morlighem of the University of California, Irvine, used the OMG surveys to refine and improve maps of
    the bedrock under some of the west coast glaciers. Glaciologists worldwide
    use these and other maps in modeling the rate of ice loss in Greenland
    and projecting future losses.

    A coastal glacier's response to a warming climate depends heavily not
    only on the depth of the seafloor in front of it, as explained above,
    but on the shape of the bedrock below it. Before OMG, virtually the only measurements Morlighem had of these critical landscapes were long, narrow strips of data collected along flight lines of research aircraft, sometimes tens of miles inland (upstream) from a glacier's ocean front. He has been estimating the shape of the bedrock outside of the flight lines with the
    help of other data such as ice flow speeds, but has had no good way to
    check how accurate his estimates are at the coastline.

    Morlighem noted, "OMG [data are] not only improving our knowledge of the
    ocean floor, they're improving our knowledge of the topography of the
    land, too." This is because the campaign's seafloor survey revealed features under the ocean, such as troughs cut by glaciers during the last ice age,
    that must continue upstream under the glacial ice. Therefore, Morlighem
    said, "By having OMG's measurements close to the ice front, I can tell
    whether what I thought about the bed topography is correct or not." Morlighem was pleasantly surprised to discover that 90 percent of the glacier depths
    he had estimated were within 160 feet (50 meters) of the actual depths recorded by the OMG survey.

    The two papers are available online:

    Oceans Melting Greenland: Early Results from NASA's Ocean-Ice Mission
    in Greenland:

    https://doi.org/10.5670/oceanog.2016.100

    Improving bed topography mapping of Greenland glaciers using NASA's Oceans Melting Greenland (OMG) data...

    https://doi.org/10.5670/oceanog.2016.99

    News Media Contact
    Alan Buis
    Jet Propulsion Laboratory, Pasadena, California
    818-354-0474
    Alan.Buis@jpl.nasa.gov

    Janet Wilson
    University of California, Irvine
    949-824-3969
    janethw@uci.edu

    Written by Carol Rasmussen
    NASA Earth Science News Team

    2017-030

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