WEBVTT FILE 1 00:00:00.000 --> 00:00:01.040 2 00:00:01.060 --> 00:00:03.250 Ralph Dubayah: So we often talk about the biomass of the forest. 3 00:00:03.270 --> 00:00:06.670 All that is how much do the trees weigh. 4 00:00:06.690 --> 00:00:08.770 If you know their biomass, how much they weigh, 5 00:00:08.790 --> 00:00:14.180 half of the biomass of the tree is carbon 6 00:00:14.200 --> 00:00:15.430 Well, my name is Ralph Dubayah. 7 00:00:15.450 --> 00:00:18.730 I'm the principal investigator of the GEDI mission 8 00:00:18.750 --> 00:00:23.830 and I'm a professor of geographical sciences at the University of Maryland. 9 00:00:23.850 --> 00:00:26.000 It's really critical that we understand 10 00:00:26.020 --> 00:00:29.400 what the current carbon content of forests is today. 11 00:00:29.420 --> 00:00:32.790 We need a good global map of where the carbon is. 12 00:00:32.810 --> 00:00:35.980 The reason we need that is because whenever we cut down trees, 13 00:00:36.000 --> 00:00:38.110 we're going to release carbon into the atmosphere 14 00:00:38.130 --> 00:00:41.610 and we don't know how much carbon we are releasing. 15 00:00:41.630 --> 00:00:43.780 GEDI will tell us how tall the trees are 16 00:00:43.800 --> 00:00:46.520 and by knowing how tall they are we will know how much they weigh; 17 00:00:46.540 --> 00:00:49.780 by knowing how much they weigh, we will know how much carbon 18 00:00:49.800 --> 00:00:53.590 is being lost into the atmosphere. 19 00:00:53.610 --> 00:00:55.120 Bryan Blair: So GEDI weighs about a thousand pounds 20 00:00:55.140 --> 00:00:58.020 and looks about like a refrigerator. 21 00:00:58.040 --> 00:01:01.740 So it has a telescope about 80 centimeters in diameter. 22 00:01:01.760 --> 00:01:06.560 It has three laser ports, and shoots out four laser beams 23 00:01:06.580 --> 00:01:10.410 that are then dithered, really quickly, in between shots. 24 00:01:10.430 --> 00:01:13.250 So it makes one laser look like two. 25 00:01:13.270 --> 00:01:14.780 So I'm the instrument scientist for GEDI, 26 00:01:14.800 --> 00:01:19.990 and that's sort of the translator between engineering and science. 27 00:01:20.010 --> 00:01:23.730 So Ralph and I, we've been working on GEDI for over 20 years, 28 00:01:23.750 --> 00:01:27.460 and trying to get the technology ready and the science ready, 29 00:01:27.480 --> 00:01:30.100 so we can fly a mission like this. 30 00:01:30.120 --> 00:01:33.130 It's been great to get to this point. 31 00:01:33.150 --> 00:01:35.200 OK, so GEDI is a laser altimeter, 32 00:01:35.220 --> 00:01:37.230 so it's an active optical instrument. 33 00:01:37.250 --> 00:01:40.940 We have lasers that emit pulses of light. 34 00:01:40.960 --> 00:01:43.940 They travel down to the Earth, they get reflected from the Earth, 35 00:01:43.960 --> 00:01:46.470 and then we receive the reflection. 36 00:01:46.490 --> 00:01:48.210 So we time how long it takes to get there, 37 00:01:48.230 --> 00:01:51.140 which allows us to measure the range to the surface. 38 00:01:51.160 --> 00:01:53.250 When the pulse of light hits the surface 39 00:01:53.270 --> 00:01:57.330 it gets distorted and stretched out by any structure that is there. 40 00:01:57.350 --> 00:01:59.980 Ralph: It looks almost like an echocardiogram. 41 00:02:00.000 --> 00:02:04.150 It's a distorted Gaussian waveform, technically speaking. 42 00:02:04.170 --> 00:02:06.360 And where the amplitude of that waveform is bigger 43 00:02:06.380 --> 00:02:08.140 is where there's more canopy stuff. 44 00:02:08.160 --> 00:02:10.210 There's more leaves and branches at a particular height. 45 00:02:10.230 --> 00:02:15.140 And where the amplitude is smaller, there's less canopy material. 46 00:02:15.160 --> 00:02:20.150 Bryan: The overall goal of GEDI is to systematically and consistently 47 00:02:20.170 --> 00:02:23.550 sample the vertical structure of the world's forests, 48 00:02:23.570 --> 00:02:29.180 so we can estimate from that structure, the carbon content of the forest. 49 00:02:29.200 --> 00:02:31.230 Ralph: Really, one of the coolest things about GEDI 50 00:02:31.250 --> 00:02:34.530 is that we're going to get upwards of 10 billion 51 00:02:34.550 --> 00:02:38.400 -- ten billion -- estimates of how tall trees are. 52 00:02:38.420 --> 00:02:40.630 It's highly likely that trees on your block 53 00:02:40.650 --> 00:02:43.700 are going to be measured by GEDI and you'll be able to see how tall they are. 54 00:02:43.720 --> 00:02:46.430 We simply do not know how tall trees are globally. 55 00:02:46.450 --> 00:02:48.500 So this is really, really exciting and really cool. 56 00:02:48.520 --> 00:02:54.000 You can take your kids down your block and say, hey, GEDI measured that tree. 57 00:02:54.020 --> 00:02:54.950 58 00:02:54.970 --> 00:03:04.965 [ beeping ]