“Operation IceBridge is particularly well suited to measure changes in polar ice: it carries probably the most innovative and precise package of instruments ever flown over Antarctica,” Newman said.
“This campaign was possibly the best Antarctic campaign IceBridge has ever had,” said John Sonntag, IceBridge mission scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “We flew as many flights as we did in our best prior campaigns down here, and we certainly got more science return out of each flight than we have before, due to steadily improving instrumentation and also to some exceptionally good weather in the Weddell Sea that favored our sea ice flights.”
Antarctica is heading into austral summer, a period of rapid sea ice melt in the Southern Ocean. But this year the sea ice loss has been particularly swift and the Antarctic sea ice extent is currently at the lowest level for this time of year ever recorded in the satellite record, which began in 1979.
“We flew over the Bellingshausen Sea many times during this campaign and saw that areas that are typically covered by sea ice were just open water this year,” said Nathan Kurtz, IceBridge’s project scientist and a sea ice researcher at NASA Goddard. “It is a reminder that it is important that we continue the time series of IceBridge measurements in the area so that we can measure both changes in sea ice extent and in sea ice thickness to assess the future trajectory of the ice pack and its impact on the climate.”
IceBridge expanded its reach this year, covering a vast swath of Antarctica – from the Ruppert Coast in West Antarctica to Recovery Glacier in the eastern half of the continent, plus the Weddell and Bellingshausen seas. Additionally, IceBridge flew twice over the South Pole, an area rarely measured since satellites don’t overfly it.
During its six weeks of operations from its base in Punta Arenas, in the southernmost tip of Chile, IceBridge carried out 24 flights over Antarctica. In total, IceBridge’s airborne laboratory and team flew 308 hours.
“We are very satisfied that we flew all of our baseline flights and most of our high-priority ones,” said Joe MacGregor, IceBridge deputy project scientist and glaciologist at Goddard. “We flew to places we had never surveyed comprehensively before or had only flown once, like the Abbott Ice Shelf, and revisited some of our classic targets, like the ever-changing Pine Island and Thwaites glaciers.”
One of this year’s missions flew over a massive rift in the Antarctic Peninsula’s Larsen C Ice Shelf. Ice shelves are the floating parts of ice streams and glaciers, and they buttress the grounded ice behind them; when ice shelves collapse, the ice behind accelerates toward the ocean, where it then adds to sea level rise. Larsen C neighbors a smaller ice shelf that disintegrated in 2002 after developing a rift similar to the one now growing in Larsen C.
The IceBridge scientists measured the Larsen C fracture to be about 70 miles long, more than 300 feet wide and about a third of a mile deep. The crack completely cuts through the ice shelf but it does not go all the way across it – once it does, it will produce an iceberg roughly the size of the state of Delaware.
“It’s a large rift on an ice shelf whose future we are curious about. Inevitably, when you see it in satellite imagery or from a plane, you wonder what is going to happen when it breaks off,” MacGregor said. “However, large icebergs calve from ice shelves regularly and they normally do not lead to ice-shelf collapse. The growth of this rift likely indicates that the portion of the ice shelf downstream of the rift is no longer holding back any grounded ice.”
As with every field season, IceBridge collaborated with other science teams: this year, IceBridge flew under one of ESA’s (the European Space Agency) CryoSat-2 satellite’s tracks and coordinated with a team from the British Antarctic Survey that was also conducting aerial surveys of the frozen continent.
“The British group began their campaign after we did, but targeted some of the areas we flew with a similar instrument suite. Once we process our data and they process theirs, we’ll be able to compare our measurements and combine them to form a better picture of Antarctica,” MacGregor said. “We also flew over their on-continent bases, providing them with images of nearby areas as they prepare their operations for this field season.”
During her stay in Punta Arenas, Newman met with Chilean researchers and students to discuss future opportunities with Chile.
“We love working with our Chilean colleagues: from the northern Atacama desert for astrobiology research to its southernmost city, Punta Arenas, to study Antarctic land and sea ice,” Newman said. “Given this strong partnership, we’re looking forward to exciting future collaborations.”
In addition to the NASA deputy administrator, IceBridge also welcomed U.S. Ambassador to Chile Carol Perez. Other guest participation included visitors from the State Department and U.S. Embassy in Chile; six U.S. teachers currently living and teaching in Chile; a Facebook representative; a visual artist; two photographers; and several journalists from various media outlets.
IceBridge researchers and Maggie Kane, a high school science teacher from Colorado who was embedded in the Antarctic campaign through the Arctic Research Consortium of the United States’ PolarTREC program, participated in 70 chats directly from the plane with classrooms in the U.S., Canada, Mexico and Chile, reaching over 1,800 students. Kane also gave several talks on IceBridge’s research to Chilean students in Punta Arenas and Santiago.