WEBVTT FILE 1 00:00:00.000 --> 00:00:21.914 [music] 2 00:00:22.558 --> 00:00:29.194 Magruder: So ICESat-2 provides bathymetric measurements, and what that means is that measurements beneath the surface of the water. 3 00:00:29.194 --> 00:00:32.262 So we can map the topography underwater. 4 00:00:32.262 --> 00:00:37.848 This is interesting because you might notice the really strong returns from beneath the surface of the water. 5 00:00:37.848 --> 00:00:45.159 Although this is a pretty shallow area, about ten meters or thirty feet deep, the signal is quite strong. 6 00:00:45.159 --> 00:00:47.444 Just as strong as from the surface of the water. 7 00:00:47.444 --> 00:00:52.183 The reason that is is that there's a lot of limestone in the deposits there, and it's highly reflective. 8 00:00:52.183 --> 00:00:56.678 So ICESat-2 gets a lot of reflected photons back from those laser shots. 9 00:00:56.678 --> 00:01:00.546 [music] 10 00:01:01.125 --> 00:01:04.017 Neuenschwander: In this profile, the vegetation is dominated by 11 00:01:04.017 --> 00:01:09.356 shrub mopane, which is typically in the two to three meter range, and there's also some mopane 12 00:01:09.356 --> 00:01:14.556 and acacia trees that typically that are in the four to six meter height range. 13 00:01:14.556 --> 00:01:19.372 Something that scientists need to understand and quantify is where carbon is being taken up 14 00:01:19.372 --> 00:01:22.185 and where it is already being stored. 15 00:01:22.185 --> 00:01:25.731 Because much of the effort related to mapping global biomass has been really focused 16 00:01:25.731 --> 00:01:29.431 in the tropics where the trees are large and the biomass is high, 17 00:01:29.431 --> 00:01:35.176 many of these savanna and woodland ecosystems tend to get neglected or are poorly characterized 18 00:01:35.176 --> 00:01:37.934 in global carbon accounting efforts. 19 00:01:37.934 --> 00:01:43.007 [music] 20 00:01:43.007 --> 00:01:46.835 Gardner: Now one of the unique things about ICESat-2 is it's actually able to see down into 21 00:01:46.835 --> 00:01:50.720 the valleys of these very steep topography areas where the glaciers are. 22 00:01:50.720 --> 00:01:56.476 And so there's other instruments, like radar, that aren't able to see the glaciers all the way down in the valleys 23 00:01:56.476 --> 00:02:02.375 and so ICESat-2 is going to let us measure the changes in mountain glaciers so we can assess how they're responding to changes 24 00:02:02.375 --> 00:02:06.845 in climate and what potential they have to contribute to both sea level rise in the future 25 00:02:06.845 --> 00:02:09.521 but also changes in water resources. 26 00:02:09.521 --> 00:02:13.604 Glaciers in this region have been experiencing rapid rates of thinning 27 00:02:13.604 --> 00:02:16.392 and that thinning is in response to changes in climate. 28 00:02:16.392 --> 00:02:21.174 Not only are these glaciers thinning, but as they thin, there's less force pulling them downward. 29 00:02:21.174 --> 00:02:25.011 And that less force pulling them downward is causing them to actually slow down. 30 00:02:25.011 --> 00:02:30.717 In high mountain Asia, we actually have glaciers that are thinning and slowing down as they respond to climate. 31 00:02:30.717 --> 00:02:36.194 [music]