WEBVTT FILE 1 00:00:00.010 --> 00:00:04.030 VO: The Tropical Rainfall Measuring Mission, or TRMM, was launched in November 2 00:00:04.050 --> 00:00:08.050 of 1997 to precisely measure falling rain throughout 3 00:00:08.070 --> 00:00:12.070 the tropics. Eighteen years and thousands of storms later, TRMM has contributed 4 00:00:12.090 --> 00:00:16.090 to the advancement of scientific milestones. 5 00:00:16.110 --> 00:00:20.110 TRMM has advanced 6 00:00:20.130 --> 00:00:24.120 research in the areas of agriculture, disease tracking, 7 00:00:24.140 --> 00:00:28.160 precipitation physics, and natural hazards. Scott: We get 8 00:00:28.180 --> 00:00:32.190 roughly three hourly rainfall estimates across much of the globe 9 00:00:32.210 --> 00:00:36.220 at fairly high resolution, and these rainfall estimates are used to 10 00:00:36.240 --> 00:00:40.230 monitor major rainfall events and to look for events 11 00:00:40.250 --> 00:00:44.250 that might lead to significant flooding, even landslides, 12 00:00:44.270 --> 00:00:48.280 and there are a number of groups that have been using it as sort of an early warning 13 00:00:48.300 --> 00:00:52.290 system. 14 00:00:52.310 --> 00:00:56.310 VO: TRMM's unforeseen 15 00:00:56.330 --> 00:01:00.340 longevity has provided more robust information on weather and climate patterns 16 00:01:00.360 --> 00:01:04.380 that can only be seen after years of observations. This nearly two decades 17 00:01:04.400 --> 00:01:08.410 of data lets scientists see variations in rainfall from year to year, 18 00:01:08.430 --> 00:01:12.430 how El Nino effects rain patterns worldwide, and the anatomy 19 00:01:12.450 --> 00:01:16.460 and life cycle of major storms, like hurricanes. Scott: It's also proven to be 20 00:01:16.480 --> 00:01:20.480 an extremely useful satellite for understanding hurricanes 21 00:01:20.500 --> 00:01:24.490 partly because its orbit stays within the tropics so you get much more 22 00:01:24.510 --> 00:01:28.500 frequent observations. And it's just provided a wealth of 23 00:01:28.520 --> 00:01:32.510 rainfall information over its relatively short time period that 24 00:01:32.530 --> 00:01:36.540 in many ways surpasses all of the information that we had prior 25 00:01:36.560 --> 00:01:40.550 to that. 26 00:01:40.570 --> 00:01:44.590 VO: From giant storms 27 00:01:44.610 --> 00:01:48.590 to individual droplets, TRMM also provides scientists with data on the 28 00:01:48.610 --> 00:01:52.610 precise physics of falling raindrops. Scott: TRMM has a unique set of 29 00:01:52.630 --> 00:01:56.630 instruments, including the first and only precipitation radar in space, 30 00:01:56.650 --> 00:02:00.640 it also has a microwave imager, which is an instrument that can give you 31 00:02:00.660 --> 00:02:04.640 the equivalent of an X-ray of a storm, whereas the radar is giving you 32 00:02:04.660 --> 00:02:08.680 more of a CAT scan of the storm. It provides 33 00:02:08.700 --> 00:02:12.720 extremely valuable information on the structure, rainfall structure, 34 00:02:12.740 --> 00:02:16.750 of storms, which tells us something about how the 35 00:02:16.770 --> 00:02:20.780 storm is responding to its environment, whether or not it might intensify 36 00:02:20.800 --> 00:02:24.800 or weaken in the upcoming hours. 37 00:02:24.820 --> 00:02:28.820 VO: As TRMM's mission ends, the Global Precipitation Measurement mission builds 38 00:02:28.840 --> 00:02:32.830 on TRMM's objectives. Launched in early 2014, 39 00:02:32.850 --> 00:02:36.840 GPM's two instruments are more advanced and more sensitive versions of TRMM's microwave 40 00:02:36.860 --> 00:02:40.850 imager and precipitation radar. GPM's orbit extends 41 00:02:40.870 --> 00:02:44.880 coverage beyond the tropics and provides measurements of light to heavy rain and snow, 42 00:02:44.900 --> 00:02:48.920 expanding TRMM's legacy into the future. 43 00:02:48.940 --> 00:02:52.940 44 00:02:52.960 --> 00:02:56.960 45 00:02:56.980 --> 00:03:00.928