WEBVTT FILE 1 00:00:01.633 --> 00:00:04.233 From 438 miles above Earth’s surface, 2 00:00:04.233 --> 00:00:08.200 the newest Landsat satellite will collect data so detailed, 3 00:00:08.200 --> 00:00:09.666 it can detect both natural and 4 00:00:09.666 --> 00:00:11.900 human-caused changes to the landscape. 5 00:00:14.033 --> 00:00:15.766 But what really makes Landsat unique 6 00:00:15.766 --> 00:00:17.833 is the half-century of data, 7 00:00:17.833 --> 00:00:21.366 an unbroken chain of observations over five decades. 8 00:00:21.366 --> 00:00:23.700 Let’s take a look at how we got here. 9 00:00:23.900 --> 00:00:27.133 1966 – The US Geological Survey proposes a satellite 10 00:00:27.133 --> 00:00:29.266 to study Earth’s land masses. 11 00:00:29.266 --> 00:00:31.100 But what would that look like? 12 00:00:31.100 --> 00:00:32.400 Over the next few years, 13 00:00:32.400 --> 00:00:35.933 USGS and NASA research their options. 14 00:00:37.266 --> 00:00:40.733 1970 – NASA gets the green light to build 15 00:00:40.733 --> 00:00:43.133 an Earth Resources Technology Satellite, 16 00:00:43.133 --> 00:00:45.066 an experiment to study and monitor 17 00:00:45.066 --> 00:00:47.666 our planet’s land surface from space. 18 00:00:47.666 --> 00:00:49.166 Launched in ’72, 19 00:00:49.166 --> 00:00:51.833 this was the first digital data of Earth, 20 00:00:51.833 --> 00:00:54.800 repeated at regular intervals, with geometric fidelity 21 00:00:54.800 --> 00:00:58.300 to allow comparison between observations. 22 00:00:59.100 --> 00:01:00.900 This changed how we drew maps, 23 00:01:00.900 --> 00:01:02.966 tabulated agricultural production, 24 00:01:02.966 --> 00:01:05.600 and assessed damage after disasters. 25 00:01:06.033 --> 00:01:09.000 In 1975, NASA launched a second satellite, 26 00:01:09.000 --> 00:01:10.766 similar to the first. 27 00:01:10.766 --> 00:01:13.766 Now they were collecting twice as much data. 28 00:01:13.766 --> 00:01:17.200 With Landsat 3 replacing the aging original in ’78, 29 00:01:17.200 --> 00:01:21.000 focus shifted to the advanced technology planned for the 80s. 30 00:01:21.700 --> 00:01:23.500 The Thematic Mapper instrument, 31 00:01:23.500 --> 00:01:25.666 launched on Landsat 4 in 1982 32 00:01:25.666 --> 00:01:28.066 and on its twin Landsat 5 in ‘84, 33 00:01:28.066 --> 00:01:30.033 was a major step forward. 34 00:01:30.033 --> 00:01:32.000 Collecting seven different wavelengths, 35 00:01:32.000 --> 00:01:35.200 at better ground resolution, and with higher precision, 36 00:01:35.200 --> 00:01:37.366 this was the beating heart of the satellite 37 00:01:37.366 --> 00:01:41.400 and became the work horse for a generation of scientists. 38 00:01:41.400 --> 00:01:44.833 For the first time, Landsat data had three visible bands 39 00:01:44.833 --> 00:01:46.366 – red, green, and blue – 40 00:01:46.366 --> 00:01:49.833 allowing natural-color composite images. 41 00:01:52.166 --> 00:01:54.966 And with the addition of short-wave infrared wavelengths, 42 00:01:54.966 --> 00:01:57.533 the data could better highlight flooded areas, 43 00:01:57.533 --> 00:02:01.966 mineral deposits, and burn scars from wildfires. 44 00:02:03.800 --> 00:02:05.566 The thermal bands were also upgraded 45 00:02:05.566 --> 00:02:08.666 allowing individual farm fields to be tracked. 46 00:02:11.166 --> 00:02:12.533 The sixth Landsat was intended 47 00:02:12.533 --> 00:02:14.566 to be another big step forward, 48 00:02:14.566 --> 00:02:18.000 but it never reached orbit after launch in 1993. 49 00:02:18.000 --> 00:02:20.266 Plans immediately began for Landsat 7, 50 00:02:20.266 --> 00:02:23.300 which would carry an even more improved sensor. 51 00:02:23.300 --> 00:02:25.733 At the time, the Enhanced Thematic Mapper Plus 52 00:02:25.733 --> 00:02:28.233 was the most stable Earth observation instrument 53 00:02:28.233 --> 00:02:30.666 ever sent into orbit, and the calibration 54 00:02:30.666 --> 00:02:33.300 could be updated while in space. 55 00:02:33.300 --> 00:02:34.300 For the first time, 56 00:02:34.300 --> 00:02:35.933 we had an instrument robust enough 57 00:02:35.933 --> 00:02:37.566 to collect lots of data, 58 00:02:37.566 --> 00:02:41.000 and we had a plan to thoroughly record the entire globe. 59 00:02:41.333 --> 00:02:44.600 Landsat 7 was put to work mapping coral reefs, 60 00:02:44.600 --> 00:02:45.866 and even produced the first 61 00:02:45.866 --> 00:02:47.700 high-resolution natural-color map 62 00:02:47.700 --> 00:02:49.800 of remote Antarctica. 63 00:02:52.666 --> 00:02:55.233 Improvements to the thermal bands on Landsat 7 64 00:02:55.233 --> 00:02:56.500 allowed states and counties 65 00:02:56.500 --> 00:02:59.300 to gauge how much water was used by crops. 66 00:02:59.300 --> 00:03:02.833 This helps manage water resources efficiently. 67 00:03:03.233 --> 00:03:05.933 An important milestone occurred in 2008, 68 00:03:05.933 --> 00:03:09.466 when the USGS made the data available to download for free. 69 00:03:10.366 --> 00:03:12.866 Users were able to get the data they needed, 70 00:03:12.866 --> 00:03:14.833 and not just what they could afford. 71 00:03:14.833 --> 00:03:16.933 It really unlocked a ton of innovation 72 00:03:16.933 --> 00:03:19.066 and created about 2 billion dollars a year 73 00:03:19.066 --> 00:03:21.833 in economic benefits. 74 00:03:23.900 --> 00:03:25.966 The modern era of Landsat observations 75 00:03:25.966 --> 00:03:28.933 began with the launch of Landsat 8 in 2013. 76 00:03:29.833 --> 00:03:32.233 Having a push-broom style sensor on Landsat 8 77 00:03:32.233 --> 00:03:35.800 was a big improvement over the older scanning sensor. 78 00:03:36.700 --> 00:03:39.000 The Landsat 8 ground system that USGS runs 79 00:03:39.166 --> 00:03:42.300 is capable of receiving a lot more data than before. 80 00:03:42.300 --> 00:03:45.700 We’re downloading over 725 scenes each day. 81 00:03:45.700 --> 00:03:49.100 That just wasn’t remotely possible until Landsat 8. 82 00:03:49.533 --> 00:03:51.766 The two European Sentinel-2 satellites 83 00:03:51.766 --> 00:03:53.700 were designed to mesh with Landsat 84 00:03:53.700 --> 00:03:56.200 so that users can treat data from all the satellites 85 00:03:56.200 --> 00:03:58.466 as if it came from one single source. 86 00:03:58.600 --> 00:04:01.233 Now we get observations every 2 or 3 days, 87 00:04:01.233 --> 00:04:02.900 instead of every 2 weeks. 88 00:04:04.933 --> 00:04:09.533 2021 is the launch of Landsat 9. the next step forward. 89 00:04:09.933 --> 00:04:13.733 It will collect the best data ever recorded by a Landsat satellite, 90 00:04:13.733 --> 00:04:18.133 while still integrating seamlessly with the extensive archive. 91 00:04:18.766 --> 00:04:20.600 Since the early 1970s, 92 00:04:20.600 --> 00:04:24.800 Landsat satellites have allowed us to better manage our resources. 93 00:04:25.133 --> 00:04:27.733 Landsat data has enabled countless innovations 94 00:04:27.733 --> 00:04:32.166 and will let us track the effects of climate change into the future.