NASA completes radar study of Icelandic glacier winter movement

February 11th, 2014 in Earth / Earth Sciences
This view of the Langjökull Ice Cap was captured from the cockpit of NASA's C-20A research aircraft on Feb. 4, 2013 during a synthetic aperture radar imaging mission over Iceland. Credit: NASA photo


This view of the Langjökull Ice Cap was captured from the cockpit of NASA's C-20A research aircraft on Feb. 4, 2013 during a synthetic aperture radar imaging mission over Iceland. Credit: NASA photo

The cold of an Icelandic winter did not stop one NASA science aircraft from completing a mission to map glaciers on the island during the past week.

NASA's C-20A, based at the Dryden Aircraft Operations Facility in Palmdale, Calif., flew four radar missions from Keflavik International Airport near Reykjavik, Iceland.

The carries a precision NASA synthetic aperture radar, developed by the Jet Propulsion Laboratory in Pasadena, Calif., that uses a technique called interferometric (InSAR) to detect and measure very subtle deformations in Earth's surface.

A ground crewman at Keflavik International Airport sprays de-icing fluid on NASA's C-20A research aircraft prior to takeoff on a radar imaging mission over Iceland's glaciers. The aircraft was parked outside overnight in sub-freezing temperatures, requiring de-icing each morning.

The Icelandic mission is designed to study how movement of the glaciers in winter differs from their movement in summer when there is considerable meltwater that reaches the bed of the glacier, according to principal investigator Mark Simons, a professor of geophysics at the California Institute of Technology in Pasadena.

"This study will help scientists better understand the basic processes that control the fate of glaciers as climate changes. In so doing, this study contributes to our understanding of glacier behavior world wide and will aid in improving our estimates of rising sea levels," said Simons.

"We all recognize that the techniques being developed in this project both observationally and in terms of modeling should have significant impact on studies of the cryosphere around the globe, as well as on our planning for a future U.S. L-band radar satellite," he added.

Brent Minchew, a Caltech graduate student, is assisting Simons in the Icelandic glacier research.

The flight crew prepares to board NASA's C-20A carrying the UAVSAR radar pod on a snowy ramp at Buffalo Niagara International Airport in Buffalo, N.Y. during a stopover returning from Iceland following the winter 2014 Icelandic glacier radar imaging mission. Credit: NASA / John McGrath

The Uninhabited Aerial Vehicle Synthetic Aperture Radar (UAVSAR) is installed in a specialized pod mounted on the belly of NASA's aircraft. Each of the four flights, totaling more than 26 hours, was flown over the same path as a summer 2012 study of surface ice on glaciers.

Prior to the first science mission being flown Jan. 31, the C-20A had to be de-iced after being parked outside overnight due to lack of hangar space. When the crew arrived to prepare for flight, the "aircraft looked remarkably like a glazed donut," quipped NASA C-20A project manager John McGrath.

The C-20A, which is a military version of the civilian Gulfstream III business aircraft, and its specialized equipment arrived back in the U.S. Feb. 6.

Provided by NASA

"NASA completes radar study of Icelandic glacier winter movement." February 11th, 2014. http://phys.org/news/2014-02-nasa-radar-icelandic-glacier-winter.html