NASA Sees High Temperatures, Wildfires, and Annual Sea Ice Minimum Extent in Warming Arctic

NASA Sees High Temperatures, Wildfires, and Annual Sea Ice Minimum Extent in Warming Arctic

Narration: Rachel Tilling and Liz Hoy

Transcript:

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

On Sept. 15, 2019, Arctic sea ice reached its second-lowest minimum extent on record.

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

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

The Arctic is one of the most rapidly changing regions on the planet,

00:00:12,000 --> 00:00:16,000

and it's warming about two to three times faster

00:00:16,000 --> 00:00:20,000

than the rest of the globe.

There is a lot going on in the Arctic.

00:00:20,000 --> 00:00:24,000

There are some really significant wildfires happening right now -- many of them

00:00:24,000 --> 00:00:28,000

in Siberia -- and we're seeing tremendous amount of carbon emissions in the region.

00:00:28,000 --> 00:00:32,000

Each year, essentially, we keep seeing new record high temperatures being set

00:00:32,000 --> 00:00:36,000

and new record low sea ice extents. There's been this kind of long-term

00:00:36,000 --> 00:00:40,000

decline in the sea ice extent over the last four decades. Sea ice is

00:00:40,000 --> 00:00:44,000

this really dynamic type of ice, it's the ice that forms and

00:00:44,000 --> 00:00:48,000

melts in the Arctic Ocean, so you get new ice forming and melting

00:00:48,000 --> 00:00:52,000

each year.

00:00:52,000 --> 00:00:56,000

we've been able to actually use satellites to look at the area of

00:00:56,000 --> 00:01:00,000

the ice on the Arctic Ocean, and one of the things we're noticing from that is

00:01:00,000 --> 00:01:04,000

when we get to the summer each year, you get this minimum

00:01:04,000 --> 00:01:08,000

of sea ice. So it covers the least area of the Arctic Ocean.

00:01:08,000 --> 00:01:12,000

What we're seeing is that that minimum is getting increasingly

00:01:12,000 --> 00:01:16,000

less over the last four decades, and we are losing a large amount

00:01:16,000 --> 00:01:20,000

of sea ice every year, if you look at the trends.

00:01:20,000 --> 00:01:24,000

00:01:24,000 --> 00:01:28,000

00:01:28,000 --> 00:01:32,000

And what we saw this year, there's kind of been a

00:01:32,000 --> 00:01:36,000

heatwave essentially in the Arctic. So

00:01:36,000 --> 00:01:40,000

temperatures at the North Pole were about 10 to 15 degrees Fahrenheit

00:01:40,000 --> 00:01:44,000

higher than

00:01:44,000 --> 00:01:48,000

for that time of year.

00:01:48,000 --> 00:01:52,000

Something that I kind of think about every year now whenever the sea ice minimum happens is that the 13 lowest

00:01:52,000 --> 00:01:56,000

sea ice extents on record have occurred in the past 13 years since 2007.

00:01:56,000 --> 00:02:00,000

00:02:00,000 --> 00:02:04,000

Sea ice is kind of this big protective blanket of bright ice that sits on the

00:02:04,000 --> 00:02:08,000

Arctic Ocean, and it reflects the Sun's heat. It insulates the

00:02:08,000 --> 00:02:12,000

cool atmosphere from the warmer ocean, and if you

00:02:12,000 --> 00:02:16,000

start melting away that sea ice, you're going to warm the atmosphere more, and it's

00:02:16,000 --> 00:02:20,000

going to affect temperature, winds, and weather, not just in the Arctic, but globally as well.

00:02:20,000 --> 00:02:24,000

The way I kind of think about it is if you're taking

00:02:24,000 --> 00:02:28,000

away this big protective blanket from the Arctic, you're essentially doing

00:02:28,000 --> 00:02:32,000

a massive science experiment almost on the planet,

00:02:32,000 --> 00:02:36,000

and it's not necessarily an experiment that I would want to

00:02:36,000 --> 00:02:40,000

see the results of.

00:02:40,000 --> 00:02:44,000

We are seeing more melt in the Arctic, we

00:02:44,000 --> 00:02:48,000

are seeing earlier melt and later freeze up,

00:02:48,000 --> 00:02:52,000

we're combining those with the models that can predict what's going to happen in the future,

00:02:52,000 --> 00:02:56,000

and seeing that perhaps the Arctic is going to become sea ice-free sooner than we

00:02:56,000 --> 00:03:00,000

initially thought.

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

There's a lot of talk for example about the kind of the temperatures in

00:03:04,000 --> 00:03:08,000

Siberia around permafrost melting and fires in Siberia,

00:03:08,000 --> 00:03:12,000

and that's really unusual and that's because it was so much warmer

00:03:12,000 --> 00:03:16,000

this year than it has been in on average the last 40 years.

00:03:16,000 --> 00:03:20,000

00:03:20,000 --> 00:03:24,000

Temperatures in the Arctic are increasing three times as much as elsewhere in the world,

00:03:24,000 --> 00:03:28,000

so temperature definitely can play a role in the

00:03:28,000 --> 00:03:32,000

wildfires that we're seeing there. This year especially has been significant

00:03:32,000 --> 00:03:36,000

for Siberia in the Russian Arctic, where

00:03:36,000 --> 00:03:40,000

there's a town up there that's gone over 100 degrees Fahrenheit,

00:03:40,000 --> 00:03:44,000

and which they never see happen, and also that's the same region where

00:03:44,000 --> 00:03:48,000

there's there have been some really significant wildfires. And the smoke from

00:03:48,000 --> 00:03:52,000

those wildfires can be seen for many miles. But the problem that we're

00:03:52,000 --> 00:03:56,000

starting to see is that these fires are happening more frequently, and

00:03:56,000 --> 00:04:00,000

they're more severe than they have been in past decades. We're getting

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

warmer temperatures, drier fuels, and more lightning, which is causing more

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

fires generally in the Arctic, year-by-year.

00:04:08,000 --> 00:04:12,000

Arctic wildfires happen in these regions that have

00:04:12,000 --> 00:04:16,000

really thick organic soils, and you say 'Wait soil burns? What?'

00:04:16,000 --> 00:04:20,000

Well, it's it's soil, but it's organic material, too. It's like old leaves and

00:04:20,000 --> 00:04:24,000

old moss, and it kind of gets compacted, and it can really burn.

00:04:24,000 --> 00:04:28,000

But it's taken tens of thousands years to develop that

00:04:28,000 --> 00:04:32,000

soil, and so when it burns, you're releasing a huge amount of carbon

00:04:32,000 --> 00:04:36,000

into the atmosphere all at once. As a scientist, when I look at these trends,

00:04:36,000 --> 00:04:40,000

I am concerned. Where are we gonna go from here?

00:04:40,000 --> 00:04:44,000

That is why we keep studying this. So NASA has a number of field campaigns

00:04:44,000 --> 00:04:48,000

that are trying to understand Arctic processes, and I think

00:04:48,000 --> 00:04:52,000

that it's really important that we keep up the study and try to better

00:04:52,000 --> 00:04:56,000

understand what is happening and what does that mean for people

00:04:56,000 --> 00:05:00,000

50-100 years down the road.

00:05:00,000 --> 00:05:04,000

00:05:04,000 --> 00:05:08,000

EXPLORE EARTH

00:05:08,000 --> 00:05:12,597

NASA