WEBVTT FILE 1 00:00:01.066 --> 00:00:05.300 The 2020 Western U.S. wildfire season was historic. 2 00:00:05.300 --> 00:00:08.933 Both for the record 59 thousand wildfires that formed, 3 00:00:08.933 --> 00:00:12.233 and the 10.1 million acres they scorched. 4 00:00:12.300 --> 00:00:14.766 But, right on its heels was 2021 5 00:00:14.766 --> 00:00:18.566 in which nearly 52,300 fires were recorded 6 00:00:18.566 --> 00:00:23.033 with more than 7.8 million acres burned through December 24th 7 00:00:23.033 --> 00:00:24.333 of that year. 8 00:00:24.333 --> 00:00:29.766 Since launching in 2016, NOAA's most advanced geostationary satellites 9 00:00:29.766 --> 00:00:32.066 are improving fire weather forecasts, 10 00:00:32.066 --> 00:00:36.033 wildfire detection, and fire hazards tracking in near real-time. 11 00:00:36.500 --> 00:00:41.833 With lives and property at stake, timely, high-quality data is critical 12 00:00:41.833 --> 00:00:44.466 for firefighting efforts on the ground. 13 00:00:45.033 --> 00:00:48.933 NOAA's GOES-17, operating in the GOES West orbit, 14 00:00:48.966 --> 00:00:52.300 has shown its mettle, detecting and monitoring wildfires 15 00:00:52.300 --> 00:00:54.066 and the hazardous smoke they emit. 16 00:00:54.066 --> 00:00:56.566 Dan Lindsay: There's two instruments on the GOES series of satellites 17 00:00:56.566 --> 00:00:59.566 which are helpful for wildfire detection and monitoring. 18 00:00:59.700 --> 00:01:02.600 The first is the Advanced Baseline Imager, or the ABI. 19 00:01:02.833 --> 00:01:05.833 Where we're able to detect hotspots from the thermal signatures 20 00:01:05.833 --> 00:01:08.633 from the fires. And we're also able to detect the smoke. 21 00:01:08.633 --> 00:01:12.200 And track the smoke with time in order to issue notifications 22 00:01:12.200 --> 00:01:13.300 and warnings to the public. 23 00:01:13.300 --> 00:01:17.233 The second instrument is called the Geostationary Lightning Mapper, or the GLM. 24 00:01:17.366 --> 00:01:20.366 The GLM is important because oftentimes lightning 25 00:01:20.366 --> 00:01:22.866 is the cause of the start of wildfires. 26 00:01:22.866 --> 00:01:26.766 And so, forecasters can monitor the GLM to see where lightning has occurred. 27 00:01:26.766 --> 00:01:30.133 To decide whether or not they think some lightning may have started a fire. 28 00:01:30.466 --> 00:01:36.533 Narrator: But a new satellite called GOES-T is poised to replace GOES-17 in the GOES West position. 29 00:01:36.533 --> 00:01:40.900 Once is it reaches orbit, GOES-T will be renamed GOES-18 30 00:01:40.900 --> 00:01:44.233 and it will provide the same sophisticated technology 31 00:01:44.233 --> 00:01:48.066 to track wildfires in the Western U.S., as well as detect lightning 32 00:01:48.066 --> 00:01:50.866 that can ignite a wildfire in parched vegetation. 33 00:01:51.333 --> 00:01:54.333 Heath Hockenberry: This current capability of GOES 34 00:01:54.333 --> 00:01:56.833 is the fact that we can do rapid scans, 35 00:01:56.833 --> 00:01:59.533 higher resolution with higher sensitivity. 36 00:01:59.533 --> 00:02:02.700 And include things for the first time like lightning mapper, 37 00:02:02.733 --> 00:02:04.933 and the ABI instruments. 38 00:02:05.266 --> 00:02:10.566 I don't think we could imagine not having GOES capability. We absolutely need it. 39 00:02:12.100 --> 00:02:19.033 Narrator: The National Interagency Fire Center is the nation's support center for wildland firefighting. 40 00:02:19.100 --> 00:02:21.166 Sean Triplett: GOES in an eye in the sky. 41 00:02:21.233 --> 00:02:25.300 It's giving us a hemispheric perspective with GOES-16 and 17. 42 00:02:25.300 --> 00:02:27.633 Without having those two satellites up there, 43 00:02:27.633 --> 00:02:31.733 constantly staring, constantly monitoring, constantly providing us with information 44 00:02:31.733 --> 00:02:33.600 we really have a - just a big gap. 45 00:02:33.600 --> 00:02:36.733 We would lose a lot of our capabilities to understand the environment. 46 00:02:36.733 --> 00:02:39.566 To see the interaction of the fires with the atmosphere. 47 00:02:39.566 --> 00:02:42.566 And see how the atmosphere is impacting the behaviour of the fires. 48 00:02:42.666 --> 00:02:46.200 With GOES being able to look at the United States every five to ten minutes, 49 00:02:46.233 --> 00:02:47.700 We're getting a much more 50 00:02:47.700 --> 00:02:50.700 real-time appreciation for how fires are behaving. 51 00:02:51.266 --> 00:02:55.100 Because of the ability of the GOES satellites to detect the heat from the fires. 52 00:02:56.933 --> 00:03:02.166 Narrator: For more information about the launch of NOAA's GOES-T satellite, please visit the link (www.nesdis.noaa.gov). 53 00:03:02.766 --> 00:03:04.966 NOAA Satellite and Information Service Logo 54 00:03:05.033 --> 00:03:07.800 NASA Meatball 55 00:03:07.800 --> 00:03:10.800 GOES-T Logo Geostationary Operational Environmental Satellite-R Series