(Click on image for larger view.)
WorldView-2, a commercial satellite run by DigitalGlobe, acquired this image on July 16, 2011. Shown in black and white, the Jakobshavn Glacier is the darker gray surface on the right side of the image. The glacier has two tributaries, the primary southern branch and a secondary northern branch. As early as a decade ago, the two branches joined into a single stream, but the glacier has retreated beyond their point of intersection.
That intersection is now a jumble of icebergs and bits of ice broken from the glacier. This flowing mélange is brighter than the glacier, and its uneven surface resembles a sponge. Flanking the mélange is exposed rock dotted with black pools of water—the last remnant of glacial ice that once blanketed the area.
Jakobshavn is the fastest-flowing glacier in the world. In 2010, the glacier moved at 15 kilometers per year, shedding ice into the Arctic Ocean as it surged from land to sea. It drains more than six percent of the Greenland ice cap and contributes more to global sea level rise than any other feature in the Northern Hemisphere. The glacier has both retreated and thinned in recent years. In 2010, Jakobshavn retreated 1.5 kilometers.
While evidence of retreat is apparent in this image, thinning is not. To understand how much ice Jakobshavn is losing in three dimensions, scientists measure the thickness of the ice using radar and lidar instruments. The IceBridge campaign, a NASA mission airplane flights over the Arctic and Antarctica, carries instruments that measure both the ice thickness and the shape of the ground beneath the ice. The 2009 and 2010 flights over Greenland revealed that Jakobshavn is thinning.
Read more at IceBridge: Building a record of Earth’s changing ice, one flight at a time.
- Cochran, J. (2011, April 7). Jakobshavn Glacier continues to provide surprises! State of the Planet, The Earth Institute Columbia University. Accessed December 2, 2011.
- Scott, M. and Scambos, T. (2010, July 15). Jakobshavn Glacier Retreat. NASA Earth Observatory. Accessed December 2, 2011.
- DigitalGlobe - WorldView-2 - NASA