WEBVTT FILE 1 00:00:00.020 --> 00:00:04.070 Like the Antarctic ice sheet, the Greenland ice sheet is a dynamic polar 2 00:00:04.090 --> 00:00:08.090 region where the atmosphere, temperature and ocean currents force changes 3 00:00:08.110 --> 00:00:12.120 to the balance of the ice sheet. Andrews: In the Arctic we have a 4 00:00:12.140 --> 00:00:16.150 wide variety of glaciers and ice caps, but the largest 5 00:00:16.170 --> 00:00:20.200 glacier is the Greenland ice sheet. And it's composed of a number of different 6 00:00:20.220 --> 00:00:24.230 outlet glaciers and land-terminating glaciers. 7 00:00:24.250 --> 00:00:28.270 When an ice sheet is in balance, the amount of snow coming in 8 00:00:28.290 --> 00:00:32.340 is equal to the amount of melt and calving 9 00:00:32.360 --> 00:00:36.550 that is going out. In Greenland, unlike Antarctica, 10 00:00:36.570 --> 00:00:44.630 we have a situation where we have large amounts of melt and large amount of calving. 11 00:00:44.650 --> 00:00:48.650 So that Greenland is losing mass regularly every melt season. And 12 00:00:48.670 --> 00:00:52.690 the accumulation during the winter does not balance that 13 00:00:52.710 --> 00:00:56.730 mass loss that occurs during the summer. Atmospheric currents 14 00:00:56.750 --> 00:01:00.760 play a really important role in directing warm 15 00:01:00.780 --> 00:01:04.950 bodies of air onto the ice sheet. And as the 16 00:01:04.970 --> 00:01:08.990 jet stream moves from the west across the Greenland ice sheet, 17 00:01:09.010 --> 00:01:13.000 it can add a substantial amount of moisture and warmth 18 00:01:13.020 --> 00:01:17.040 to the surface of the ice sheet and cause 19 00:01:17.060 --> 00:01:21.050 increased or elevated surface melting. Surface water 20 00:01:21.070 --> 00:01:25.100 on the Greenland ice sheet only flows a small distance on the surface. 21 00:01:25.120 --> 00:01:29.140 It eventually will reach a crevasse or a moulin, 22 00:01:29.160 --> 00:01:33.170 which is this large vertical conduit that is named after 23 00:01:33.190 --> 00:01:37.200 the windmill in French, and that is because it makes this 24 00:01:37.220 --> 00:01:41.230 large whooshing sound whenever water goes in. They act 25 00:01:41.250 --> 00:01:45.270 to drain large volumes of water. Almost all of the surface melt that occurs 26 00:01:45.290 --> 00:01:49.340 on the ice sheet to the bed of the ice sheet. VO: The ocean 27 00:01:49.360 --> 00:01:53.400 surrounding Greenland also impacts the changes to the ice sheet. 28 00:01:53.420 --> 00:01:57.430 Andrews: Warm ocean currents from the south travel along the edges of the Greenland 29 00:01:57.450 --> 00:02:01.450 ice sheet. And as it travels along the edge of the ice sheet, this water 30 00:02:01.470 --> 00:02:05.620 can intrude into these fjords along 31 00:02:05.640 --> 00:02:09.660 the periphery. And this intrusion of warm water 32 00:02:09.680 --> 00:02:13.710 can then interact with the front of the outlet glaciers, which can 33 00:02:13.730 --> 00:02:17.810 increase the amount of melting, it can speed the rate of calving, 34 00:02:17.830 --> 00:02:21.850 and can substantially influence the dynamics of outlet 35 00:02:21.870 --> 00:02:25.890 glaciers. This imbalance in the ice sheet is 36 00:02:25.910 --> 00:02:29.990 continuing to grow. This increase in melt intensity and 37 00:02:30.010 --> 00:02:34.000 extent alters the surface reflectance of the ice sheet, 38 00:02:34.020 --> 00:02:38.030 which we call surface albedo. VO: The ice sheet's albedo helps cool the planet 39 00:02:38.050 --> 00:02:42.070 by reflecting solar energy back into space. The ICESat-2 satellite 40 00:02:42.090 --> 00:02:46.090 will measure the changes in thickness of the ice sheets, which will help us understand how 41 00:02:46.110 --> 00:02:50.130 changes in the reflective nature of the polar regions could affect climate. 42 00:02:50.150 --> 00:02:54.170 [music] 43 00:02:54.190 --> 00:02:55.255 [music]