WEBVTT FILE 1 00:00:00.120 --> 00:00:04.180 [Aircraft noise, music] 2 00:00:04.180 --> 00:00:08.330 Alex Gardner: My interest in glaciers 3 00:00:08.330 --> 00:00:12.500 comes from the sheer size of these things and 4 00:00:12.500 --> 00:00:16.590 how much they’re able to change on human timescales. 5 00:00:16.590 --> 00:00:20.710 [waterfall noise] And so the amount of mass and energy being transferred 6 00:00:20.710 --> 00:00:24.840 by glaciers around the globe is tremendous, 7 00:00:24.840 --> 00:00:29.060 and it’s an absolutely fascinating thing to study from space. 8 00:00:29.060 --> 00:00:33.110 [waterfall noise builds, intro music kicks in] 9 00:00:33.110 --> 00:00:37.310 10 00:00:37.310 --> 00:00:41.340 11 00:00:41.340 --> 00:00:45.450 12 00:00:45.450 --> 00:00:49.580 13 00:00:49.580 --> 00:00:53.760 14 00:00:53.760 --> 00:00:57.950 Narrator: Mountain glaciers are some of the most charismatic parts 15 00:00:57.950 --> 00:01:02.120 cryosphere. Some might cling to the edges of cliffs 16 00:01:02.120 --> 00:01:06.240 [music rises] at higher elevations, then lay bare and flat in a broad plain, 17 00:01:06.240 --> 00:01:10.450 looking cracked and weathered like elephant skin, before tumbling 18 00:01:10.450 --> 00:01:14.650 thousands of feet toward the sea, and terminating in a dramatic 19 00:01:14.650 --> 00:01:18.780 calving front. They’re like motion frozen in time - [iceberg calves] 20 00:01:18.780 --> 00:01:22.970 until they aren't. They tell a story about 21 00:01:22.970 --> 00:01:27.050 the distant past, and yet are incredibly responsive to the present. 22 00:01:27.050 --> 00:01:31.130 You can understand why they’d be captivating to all of us, 23 00:01:31.130 --> 00:01:35.230 and especially cryospheric scientists. 24 00:01:35.230 --> 00:01:39.370 Meet Alex Gardner, a cryospheric scientist at NASA’s 25 00:01:39.370 --> 00:01:43.470 Jet Propulsion Laboratory, who is going to help break down what a classic 26 00:01:43.470 --> 00:01:47.550 west coast North American glacier might look like, where high amounts of snow 27 00:01:47.550 --> 00:01:51.670 dump on to the mountains. Gardner: And at higher elevations, 28 00:01:51.670 --> 00:01:55.800 there’s melt in summer, but not enough melt to get rid of all that snow. So that snow 29 00:01:55.800 --> 00:01:59.940 it compacts, it turns into ice, and it starts to flow under its own weight. 30 00:01:59.940 --> 00:02:04.030 And it flows down the valleys. As it flows down the valleys, it actually 31 00:02:04.030 --> 00:02:08.150 it actually carves those valleys out and it makes them deeper. And so it creates these beautiful fjords 32 00:02:08.150 --> 00:02:12.320 where the ice flows down, it snakes out to the ocean 33 00:02:12.320 --> 00:02:16.510 or to the lakes or further inland. And so that ice is flowing. It’s moving. 34 00:02:16.510 --> 00:02:20.630 [music builds] Narrator: Alex uses satellite data to study large-scale changes 35 00:02:20.630 --> 00:02:24.660 . But two thousand miles to the north, Chris Larsen 36 00:02:24.660 --> 00:02:28.730 from the University of Alaska Fairbanks spends a lot of time studying 37 00:02:28.730 --> 00:02:32.860 glaciers from the air. He’s been flying over Alaskan 38 00:02:32.860 --> 00:02:36.950 mountain glaciers for many years, most recently on a NASA-funded mission 39 00:02:36.950 --> 00:02:41.090 [water fall noise] called Operation IceBridge Alaska. He’s absolutely 40 00:02:41.090 --> 00:02:45.280 enamored with his local rivers of ice. 41 00:02:45.280 --> 00:02:49.430 Interviewer: And what do you love about mountain glaciers? Chris Larsen: Well, they're in mountains 42 00:02:49.430 --> 00:02:53.490 so they're really pretty! You couldn't ask for a better way to experience 43 00:02:53.490 --> 00:02:57.580 Alaska on a large scale than to go flying around for campaign after campaign 44 00:02:57.580 --> 00:03:01.800 and to look at all the mountains in Alaska -- truly infinite. 45 00:03:01.800 --> 00:03:05.970 You just feel like you'll never see the end of them, and you don't want to. 46 00:03:05.970 --> 00:03:10.070 Narrator: But Chris doesn’t spend weeks away from home 47 00:03:10.070 --> 00:03:14.180 and family for the views. Chris and his colleagues at NASA want to answer 48 00:03:14.180 --> 00:03:18.330 some pretty big questions by learning more about Alaskan glaciers 49 00:03:18.330 --> 00:03:22.470 and how they tick. Larsen: You know, why does NASA care about these? 50 00:03:22.470 --> 00:03:26.530 Well, they actually disproportionately contribute a large amount to sea level rise. 51 00:03:26.530 --> 00:03:30.600 Narrator: In the long run as the Earth warms due to climate change, 52 00:03:30.600 --> 00:03:34.720 the big ice sheets and mighty outlet glaciers of Greenland and Antarctica 53 00:03:34.720 --> 00:03:38.850 stand to contribute the most to sea level rise, simply because 54 00:03:38.850 --> 00:03:43.040 the vast majority of the planet’s ice is stored there. But currently, 55 00:03:43.040 --> 00:03:47.180 it’s the world’s smaller mountain glaciers in comparatively warmer places, 56 00:03:47.180 --> 00:03:51.270 places like Alaska and Patagonia that are contributing about a third of all 57 00:03:51.270 --> 00:03:55.370 inputs to sea level rise, even though they account for only 58 00:03:55.370 --> 00:03:59.470 1% of the world’s ice. Larsen: It’s mostly due to them 59 00:03:59.470 --> 00:04:03.540 them being dynamic. They have water at the bed, which allows them to slide 60 00:04:03.540 --> 00:04:07.730 fast, and they react quickly to climate change 61 00:04:07.730 --> 00:04:11.850 and have higher velocities than their polar counterparts. 62 00:04:11.850 --> 00:04:15.990 Narrator: Back at JPL, Alex uses satellite measurements 63 00:04:15.990 --> 00:04:20.130 of global ice and computer models to predict ultimately, 64 00:04:20.130 --> 00:04:24.340 how much sea level rise we might see due to climate change. 65 00:04:24.340 --> 00:04:28.450 But in the case of mountain glaciers, we also care about the local impacts 66 00:04:28.450 --> 00:04:32.500 of disappearing ice.Alex:When we think of changes in ice sheets, 67 00:04:32.500 --> 00:04:36.580 we typically think of just what is the consequence for sea level rise 68 00:04:36.580 --> 00:04:40.680 and the future evolution of the ice sheets. But glaciers in other regions, like high mountain Asia, 69 00:04:40.680 --> 00:04:44.870 Alaska, the European Alps, these are places where 70 00:04:44.870 --> 00:04:49.060 these are places where changes in runoff matters to stream flows. 71 00:04:49.060 --> 00:04:53.140 In places like high mountain Asia, you have a lot of glaciers that feed the streams 72 00:04:53.140 --> 00:04:57.230 that flow down to populated regions. And that runoff 73 00:04:57.230 --> 00:05:01.340 becomes significant for water resources, irrigation, and agriculture. 74 00:05:01.340 --> 00:05:05.410 Narrator: Both Alex and Chris are passionate about 75 00:05:05.410 --> 00:05:09.570 understanding how glaciers are changing and what it means for our planet’s future. 76 00:05:09.570 --> 00:05:13.750 They’ll continue to use tools like elevation maps from the 77 00:05:13.750 --> 00:05:18.020 ICESat-2 satellite and detailed airborne measurements to monitor changing ice. 78 00:05:18.020 --> 00:05:22.090 [music fades, teaser music builds] 79 00:05:22.090 --> 00:05:26.180 Peter Griffith: by the end of the tunnel you're about 100 feet under ground, and you're surrounded by 80 00:05:26.180 --> 00:05:30.370 bones sticking out of the wall from the steppe bison and the 81 00:05:30.370 --> 00:05:34.480 mastodons, there's sticks that are 40,000 years old 82 00:05:34.480 --> 00:05:38.660 there's grass that's still green, that's tens of thousands of years old. 83 00:05:38.660 --> 00:05:45.512 [music ends]