NASA's Operation IceBridge Completes Eleven Years of Polar Surveys

NASA's Operation IceBridge Completes Eleven Years of Polar Surveys

Narration: Katie Jepson

Transcript:

00:00:00,000 --> 00:00:04,000

Narrator: Operation IceBridge, you may know it from the

00:00:04,000 --> 00:00:08,000

the beautiful photos that pop up in your feed.

00:00:08,000 --> 00:00:12,000

But did you know that IceBridge is the largest polar airborne survey of its kind?

00:00:12,000 --> 00:00:19,000

IceBridge was designed to study annual changes in thickness of sea ice, glaciers, and ice sheets. As well as bridge the

00:00:19,000 --> 00:00:23,000

gap between the ICESat and ICESat-2 polar observing satellites.

00:00:23,000 --> 00:00:27,000

Between 2009 and 2019, IceBridge flew over a thousand

00:00:27,000 --> 00:00:31,000

missions, gathering data that has redefined

00:00:31,000 --> 00:00:35,000

our understanding of the cryosphere.

00:00:35,000 --> 00:00:39,000

So, let’s take a look back at some of the mission milestones from over the years.

00:00:39,000 --> 00:00:43,000

One of the first steps to measure sea ice thickness is to get a handle on the amount of

00:00:43,000 --> 00:00:47,000

snow that accumulates on top of it.

00:00:47,000 --> 00:00:51,000

The IceBridge team pioneered the use of a snow radar instrument to gather the first

00:00:51,000 --> 00:00:55,000

widespread dataset of snow thickness on top of both Arctic and Antarctic sea ice.

00:00:55,000 --> 00:00:59,000

Closer to land,

00:00:59,000 --> 00:01:03,000

the point at which a glacier begins to float is called a grounding line,

00:01:03,000 --> 00:01:07,000

and it’s a very challenging place to measure ice thickness.

00:01:07,000 --> 00:01:11,000

Using two instruments, a radar sounder and a gravimeter,

00:01:11,000 --> 00:01:15,000

the IceBridge team was able to survey hundreds of these complex transition zones,

00:01:15,000 --> 00:01:19,000

enhancing scientists’ understanding of the rapid changes in glacier behavior.

00:01:19,000 --> 00:01:23,400

In 2011, NASA scientists discovered

00:01:23,400 --> 00:01:27,000

a 19-mile long crack across the Pine Island Glacier,

00:01:27,000 --> 00:01:31,000

one of the fastest retreating glaciers in Antarctica.

00:01:31,000 --> 00:01:35,000

The crack measured 260 feet wide and 195 feet deep

00:01:35,000 --> 00:01:39,000

when it was observed.

00:01:39,000 --> 00:01:43,000

Throughout the mission, IceBridge was able to map rifts in ice shelves prior to major

00:01:43,000 --> 00:01:47,000

calving events. And while these events are part of a natural cycle,

00:01:47,000 --> 00:01:51,000

IceBridge’s observations helped scientists better record the changes in calving

00:01:51,000 --> 00:01:55,000

frequency and model how they may be related to a thinning ice shelf.

00:01:55,000 --> 00:01:59,000

The motion of the Antarctic Ice Sheet,

00:01:59,000 --> 00:02:03,000

the largest ice sheet in the world, is heavily influenced by

00:02:03,000 --> 00:02:07,000

the topography of the bedrock underneath.

00:02:07,000 --> 00:02:11,000

In 2013, the British Antarctic Survey used over 25 million measurements

00:02:11,000 --> 00:02:15,000

collected by IceBridge and other projects

00:02:15,000 --> 00:02:19,000

to develop a 3D map of Antarctica’s bedrock topography.

00:02:19,000 --> 00:02:23,000

Called Bedmap-2, it provided unprecedented

00:02:23,000 --> 00:02:27,400

detail of how the continents bedrock shaped the flow of the ice sheet.

00:02:27,400 --> 00:02:31,000

Data collected by IceBridge enabled

00:02:31,000 --> 00:02:35,000

many discoveries in the Arctic as well.

00:02:35,000 --> 00:02:39,000

A team from the University of Bristol used IceBridge’s radar data,

00:02:39,000 --> 00:02:43,000

along with other datasets, to uncover a 400-mile long canyon buried

00:02:43,000 --> 00:02:47,000

under nearly two miles of ice.

00:02:47,000 --> 00:02:51,000

This hidden canyon is longer than any other known on earth, provides a critical clue to modeling how melting ice

00:02:51,000 --> 00:02:55,000

is funneled into the Arctic Ocean.

00:02:55,000 --> 00:02:59,000

Using ice-penetrating radar data collected by IceBridge,

00:02:59,000 --> 00:03:03,000

scientists were able to build the first-ever age map of the layers

00:03:03,000 --> 00:03:07,000

deep inside the Greenland Ice Sheet.

00:03:07,000 --> 00:03:11,000

For the first time, scientists could navigate the history of Greenland’s ice layers,

00:03:11,000 --> 00:03:15,000

extending previously collected ice cores to better understand

00:03:15,000 --> 00:03:19,000

the ice sheet’s history and help build models of its future.

00:03:19,000 --> 00:03:23,000

An international team of scientists

00:03:23,000 --> 00:03:27,000

used decades of NASA data to uncover a massive impact crater

00:03:27,000 --> 00:03:31,000

hiding beneath the Hiawatha Glacier in northwest Greenland.

00:03:31,000 --> 00:03:35,000

At roughly a thousand feet deep and more than 19 miles wide,

00:03:35,000 --> 00:03:39,400

it is potentially one of the youngest large impact craters on Earth.

00:03:39,400 --> 00:03:43,000

00:03:43,000 --> 00:03:47,000

Cockpit: "It’s going to happen..5..4..3

00:03:47,000 --> 00:03:47,400

..2..Mark on the overpass 043435 Zulu"

00:03:47,400 --> 00:03:51,400

Narrator: Ice was bridged on April 8, 2019,

00:03:51,400 --> 00:03:55,000

00:03:55,000 --> 00:03:59,000

with the direct underflight of the ICESat-2

00:03:59,000 --> 00:04:03,000

satellite over Arctic sea ice.

00:04:03,000 --> 00:04:07,000

For the first time, both ICESat-2 and IceBridge would be taking the same

00:04:07,000 --> 00:04:11,000

elevation measurements of the same ice.

00:04:11,000 --> 00:04:15,000

These mirrored measurements were critical in validating the satellites instruments

00:04:15,000 --> 00:04:19,400

and continue the legacy of IceBridge after the mission was completed.

00:04:19,400 --> 00:04:23,000

00:04:23,000 --> 00:04:27,000

Over the course of its 11-year mission, IceBridge

00:04:27,000 --> 00:04:31,000

completed 1056 scientific flights and provided a wellspring of data

00:04:31,000 --> 00:04:35,000

that fueled the publication of more than 660 papers

00:04:35,000 --> 00:04:39,000

and counting.

00:04:39,000 --> 00:04:43,400

The mission provided new insight into the processes driving the changes in the cryosphere,

00:04:43,400 --> 00:04:57,707

helping scientists better understand what we can expect in the future.

Collapse

Message Katie Jepson