1 00:00:01,167 --> 00:00:02,869 When you think of wildfires, 2 00:00:02,869 --> 00:00:04,838 you may think of destruction. 3 00:00:04,838 --> 00:00:08,908 Skeletal forests, property lost and lives forever changed. 4 00:00:09,676 --> 00:00:12,312 But fires can also bring rejuvenation. 5 00:00:13,246 --> 00:00:17,484 They can renew ecosystems, nourish the soil, and foster new growth. 6 00:00:18,084 --> 00:00:22,956 But climate change is causing these fires to burn larger, longer, and more often. 7 00:00:23,490 --> 00:00:26,059 These larger and more frequent fires damage ecosystems, 8 00:00:26,059 --> 00:00:29,829 disrupt communities, and can even influence the climate. 9 00:00:30,563 --> 00:00:33,333 So, understanding the basics of wildfires 10 00:00:33,333 --> 00:00:36,136 and how they're impacted by climate change, 11 00:00:36,136 --> 00:00:40,440 is key to our ability to predict where and when fires are likely to occur. 12 00:00:40,640 --> 00:00:44,210 As well as remotely detect and track wildfires once they ignite, 13 00:00:44,744 --> 00:00:48,148 and ultimately mitigate their impacts on human health 14 00:00:48,148 --> 00:00:49,582 and the environment. 15 00:00:51,217 --> 00:00:53,686 This is Wildfires 101. 16 00:00:57,357 --> 00:00:59,292 The first thing you should know, 17 00:00:59,292 --> 00:01:02,395 is that wildfires require three key ingredients: 18 00:01:02,395 --> 00:01:06,366 fuel to burn, the right conditions, and a source of ignition. 19 00:01:06,966 --> 00:01:08,668 But what does that actually mean? 20 00:01:10,070 --> 00:01:13,773 So fuel - like needles, leaves, or wood on the forest floor, 21 00:01:13,940 --> 00:01:16,176 is rarely a fire's limiting factor. 22 00:01:16,409 --> 00:01:20,480 And the conditions that are favorable for fire like hot, dry, and windy days, 23 00:01:20,847 --> 00:01:23,983 are becoming more and more common as our climate changes. 24 00:01:24,584 --> 00:01:26,653 Under these “fire weather” conditions, 25 00:01:26,653 --> 00:01:29,189 fuels dry out and become more susceptible to burn. 26 00:01:29,756 --> 00:01:31,357 As for source of ignition? 27 00:01:31,357 --> 00:01:32,959 Well, most of the wildfires 28 00:01:32,959 --> 00:01:36,096 that NASA detects from space are started by people. 29 00:01:36,262 --> 00:01:40,266 Others, usually in the Arctic and boreal regions, are ignited by lightning strikes. 30 00:01:41,201 --> 00:01:44,237 NASA can track these conditions and inform land managers 31 00:01:44,237 --> 00:01:46,272 when an area appears prone to wildfire. 32 00:01:48,308 --> 00:01:51,511 Every day, NASA is able to detect thousands 33 00:01:51,511 --> 00:01:52,912 of new fires from space. 34 00:01:53,413 --> 00:01:55,348 Along with our partners at NOAA, 35 00:01:55,348 --> 00:01:58,418 we use both polar orbiting and geostationary satellites 36 00:01:58,418 --> 00:02:01,821 to get insight as to the structure and evolution of a fire. 37 00:02:02,188 --> 00:02:06,059 Geostationary satellites remain fixed in relationship to the globe, 38 00:02:06,059 --> 00:02:10,163 giving us new images of one hemisphere every 5 to 15 minutes. 39 00:02:10,630 --> 00:02:12,866 However, the resolution is usually coarser 40 00:02:12,866 --> 00:02:14,734 than that of polar orbiting satellites, 41 00:02:14,734 --> 00:02:17,570 which will pass over a fire twice per day. 42 00:02:18,238 --> 00:02:20,373 From over 500 miles above Earth, 43 00:02:20,373 --> 00:02:24,277 these orbiting satellites will detect and characterize thermal anomalies: 44 00:02:24,277 --> 00:02:28,181 locations on the Earth's surface that are hotter than their neighbors, 45 00:02:28,181 --> 00:02:30,817 that can indicate burning associated with new 46 00:02:30,817 --> 00:02:32,652 or existing fire events. 47 00:02:33,653 --> 00:02:36,923 Importantly, these instruments can detect fires at night - 48 00:02:36,923 --> 00:02:39,959 a time when wildfires typically lay down and smolder. 49 00:02:41,561 --> 00:02:45,231 Since the majority of large wildfires lasts for multiple days, 50 00:02:45,231 --> 00:02:48,434 the ability to track them both day and night is instrumental 51 00:02:48,434 --> 00:02:50,803 to helping land managers combat the blazes. 52 00:02:53,806 --> 00:02:56,910 But it's not just the fire itself that's dangerous. 53 00:02:57,644 --> 00:03:00,647 Wildfire smoke can travel for thousands of miles, 54 00:03:00,647 --> 00:03:02,348 having the ability to blanket 55 00:03:02,348 --> 00:03:05,318 large swaths of a continent from a single wildfire. 56 00:03:05,785 --> 00:03:08,188 Smoke from wildfires can reach high altitudes - 57 00:03:08,188 --> 00:03:11,925 between 3 to 6 miles - and travel with the prevailing winds. 58 00:03:12,592 --> 00:03:15,361 This smoke can linger in the air for several weeks, 59 00:03:15,361 --> 00:03:16,396 changing the chemistry 60 00:03:16,396 --> 00:03:17,830 of the atmosphere and reducing 61 00:03:17,830 --> 00:03:19,999 the amount of sunlight reaching the surface. 62 00:03:20,900 --> 00:03:22,202 Smoke that gets trapped near 63 00:03:22,202 --> 00:03:25,638 the ground severely impacts air quality in surrounding communities, 64 00:03:25,638 --> 00:03:28,041 and poor air quality can last for months 65 00:03:28,041 --> 00:03:30,443 as large fires continue to smolder 66 00:03:30,443 --> 00:03:34,047 even after the fire itself has been contained. 67 00:03:35,615 --> 00:03:38,184 Climate change is not only impacting 68 00:03:38,184 --> 00:03:40,486 the size and intensity of wildfires, 69 00:03:40,486 --> 00:03:43,089 but also their frequency in some regions. 70 00:03:43,356 --> 00:03:48,027 NASA has over 22 years of daily fire data to track wildfire trends. 71 00:03:48,027 --> 00:03:51,931 This is important to get a sense of how fire regimes - the historical 72 00:03:51,931 --> 00:03:55,668 frequency of wildfires in a region - are changing over time. 73 00:03:55,802 --> 00:03:58,805 Understanding an ecosystem’s fire regime is important 74 00:03:58,805 --> 00:04:01,941 because in many instances, wildfire is essential 75 00:04:01,941 --> 00:04:04,944 to maintain a mixture of younger and older vegetation. 76 00:04:05,612 --> 00:04:09,549 However, when fires occur too frequently or with increased severity 77 00:04:09,549 --> 00:04:11,451 it can have devastating effects 78 00:04:11,451 --> 00:04:15,989 like destroying habitat, changing soil chemistry and clogging waterways. 79 00:04:16,623 --> 00:04:17,824 Not to mention releasing 80 00:04:17,824 --> 00:04:21,427 greenhouse gases like CO2 and aerosols into the atmosphere. 81 00:04:22,528 --> 00:04:25,598 NASA can study wildfire’s impact on the landscape 82 00:04:25,598 --> 00:04:27,233 by measuring burn scars, 83 00:04:27,233 --> 00:04:30,303 as well as tracking vegetation loss and rate of regrowth. 84 00:04:30,803 --> 00:04:33,640 Having an accurate assessment of a landscape post-fire 85 00:04:33,640 --> 00:04:37,343 is a key part of understanding how ecosystems recover over time. 86 00:04:37,710 --> 00:04:40,313 NASA’s ability to not only track wildfires, 87 00:04:40,313 --> 00:04:42,815 but also the conditions that lead to them, 88 00:04:42,815 --> 00:04:46,152 is essential to our ability to mitigate their impacts. 89 00:04:46,419 --> 00:04:47,920 We're working with land managers 90 00:04:47,920 --> 00:04:50,556 and those on the front lines to give them the tools, 91 00:04:50,556 --> 00:04:52,625 including near real-time data, 92 00:04:52,625 --> 00:04:55,528 to help them make decisions to minimize the risks 93 00:04:55,528 --> 00:04:57,697 and plan for the future.