WEBVTT FILE 1 00:00:00.000 --> 00:00:04.050 Music 2 00:00:04.070 --> 00:00:08.090 Music 3 00:00:08.110 --> 00:00:12.140 Dalia: My name is Dalia Kirschbaum, I'm a researcher in the Hydrology Lab 4 00:00:12.160 --> 00:00:16.180 at Goddard Space Flight Center and my focus is landslide modeling. 5 00:00:16.200 --> 00:00:20.210 I'm also 6 00:00:20.230 --> 00:00:24.240 the GPM applications scientist, meaning that I help to 7 00:00:24.260 --> 00:00:28.270 communicate the science and the data that we get from the GPM mission 8 00:00:28.290 --> 00:00:32.290 to the public and end users. 9 00:00:32.310 --> 00:00:36.300 I grew up in Minnesota, we have flooding, we have drought, 10 00:00:36.320 --> 00:00:40.340 there are no landslides, except in the northern areas of Minnesota and very 11 00:00:40.360 --> 00:00:44.400 small ones at that. So looking at earthquakes 12 00:00:44.420 --> 00:00:48.450 or hurricanes was such a crazy phenomena, and I loved the idea 13 00:00:48.470 --> 00:00:52.490 that nature was just so powerful, and 14 00:00:52.510 --> 00:00:56.530 that we could actually use data from above the Earth to figure out what 15 00:00:56.550 --> 00:01:00.550 is happening on the surface and in the atmosphere. 16 00:01:00.570 --> 00:01:04.580 So I was always very 17 00:01:04.600 --> 00:01:08.590 interested in math, and so all through school I kind of thought I was going to be either a math 18 00:01:08.610 --> 00:01:12.610 major or do something with math. And then freshman year of college actually I took a very 19 00:01:12.630 --> 00:01:16.670 interesting class on different environmental issues and I found that I 20 00:01:16.690 --> 00:01:20.730 was really fascinated with natural disasters, but what I realized was that 21 00:01:20.750 --> 00:01:24.790 you can actually apply math and you can apply science to real-world topics 22 00:01:24.810 --> 00:01:28.850 and you can use the information that you get or the 23 00:01:28.870 --> 00:01:32.900 results from your models to really help people and try to mitigate 24 00:01:32.920 --> 00:01:36.930 against these hazards. So I decided to go to 25 00:01:36.950 --> 00:01:40.960 graduate school with a focus on applying remotely sensed or satellite 26 00:01:40.980 --> 00:01:44.980 data to evaluate hazards, all different types of 27 00:01:45.000 --> 00:01:49.000 natural disasters. And in my dissertation I focused in 28 00:01:49.020 --> 00:01:53.070 landslides because I felt that it was a very underrepresented hazard in the grand scheme 29 00:01:53.090 --> 00:01:57.130 of natural disaster research. I really am looking 30 00:01:57.150 --> 00:02:01.140 in quite global scales and I'm trying to figure out how landslides are occurring 31 00:02:01.160 --> 00:02:05.180 and modeling the activity, from everything from the local, 32 00:02:05.200 --> 00:02:09.230 one hillslope scale to the regional level, like Central America 33 00:02:09.250 --> 00:02:13.260 to then the global scale. Most of my studies 34 00:02:13.280 --> 00:02:17.290 were done in the computer lab or looking at different 35 00:02:17.310 --> 00:02:21.320 models, but I did take some very interesting field trips during graduate school 36 00:02:21.340 --> 00:02:25.330 and even during undergrad, to look at different rock formations 37 00:02:25.350 --> 00:02:29.350 to look at landslide scars, and what you realize 38 00:02:29.370 --> 00:02:33.400 is how important it is to really understand the total 39 00:02:33.420 --> 00:02:37.460 environment in order to really get a sense of what is causing these hazards. 40 00:02:37.480 --> 00:02:41.500 I think the most important thing is to continue 41 00:02:41.520 --> 00:02:45.530 learning and to continue pushing what you think is interesting 42 00:02:45.550 --> 00:02:49.560 and find a way to get yourself there. 43 00:02:49.580 --> 00:02:53.580 Music 44 00:02:53.600 --> 00:02:57.590 Rain drops 45 00:02:57.610 --> 00:03:01.600 Rain drops 46 00:03:01.620 --> 00:03:04.698