1 00:00:00,700 --> 00:00:01,710 2 00:00:01,730 --> 00:00:04,910 NASA scientists have performed the first multi-year study 3 00:00:04,930 --> 00:00:08,450 using satellite data to measure the 3-D distribution of dust 4 00:00:08,470 --> 00:00:11,810 that travels from the Sahara Desert to the Amazon rainforest. 5 00:00:11,830 --> 00:00:12,380 6 00:00:12,400 --> 00:00:14,810 The Sahara is the world’s largest desert. 7 00:00:14,830 --> 00:00:17,480 At more than 3 million square miles, 8 00:00:17,500 --> 00:00:20,510 it’s almost the size of the continental United States. 9 00:00:20,530 --> 00:00:21,110 10 00:00:21,130 --> 00:00:23,950 Each year, Saharan dust is lifted from the ground, 11 00:00:23,970 --> 00:00:27,780 and transported by winds on a 3000-mile journey 12 00:00:27,800 --> 00:00:29,510 across the Atlantic Ocean. 13 00:00:29,530 --> 00:00:29,980 14 00:00:30,000 --> 00:00:32,350 A portion of the dust collects in the Amazon basin 15 00:00:32,370 --> 00:00:35,180 —the largest rainforest on the planet. 16 00:00:35,200 --> 00:00:35,710 17 00:00:35,730 --> 00:00:37,680 Although dust particles are small, 18 00:00:37,700 --> 00:00:41,010 no larger than around a tenth of the width of a human hair, 19 00:00:41,030 --> 00:00:44,310 they form massive plumes that can be seen from space. 20 00:00:44,330 --> 00:00:45,110 21 00:00:45,130 --> 00:00:48,150 NASA’s CALIPSO satellite was launched in 2006 22 00:00:48,170 --> 00:00:50,750 to study the vertical structure of clouds and particles 23 00:00:50,770 --> 00:00:52,410 in Earth’s atmosphere. 24 00:00:52,430 --> 00:00:56,780 CALIPSO observations from 2007 through 2013 25 00:00:56,800 --> 00:00:58,410 show that on average, 26 00:00:58,430 --> 00:01:03,410 182 million tons of dust leaves Africa each year. 27 00:01:03,430 --> 00:01:06,110 Of this amount, about 27 million tons 28 00:01:06,130 --> 00:01:08,310 is deposited in the Amazon basin. 29 00:01:08,330 --> 00:01:11,480 Sahara dust contains phosphorus, 30 00:01:11,500 --> 00:01:14,380 which is an important nutrient for plants. 31 00:01:14,400 --> 00:01:19,280 In the tropic region, the phosphorus is quite limited. 32 00:01:19,300 --> 00:01:22,350 So it’s important to estimate how much dust 33 00:01:22,370 --> 00:01:25,650 from the desert is transported to the Amazon. 34 00:01:25,670 --> 00:01:29,110 The study shows Saharan dust adds phosphorous to the soils 35 00:01:29,130 --> 00:01:30,810 that help compensate for losses 36 00:01:30,830 --> 00:01:33,310 due to surface runoff and floods. 37 00:01:33,330 --> 00:01:36,350 However, the amount of dust transported to the Amazon 38 00:01:36,370 --> 00:01:38,610 changes from year to year. 39 00:01:38,630 --> 00:01:42,350 According to the study, this variation is closely associated 40 00:01:42,370 --> 00:01:44,550 with changes in rainfall in the Sahel, 41 00:01:44,570 --> 00:01:47,980 a belt of semi-arid land just south of the Sahara. 42 00:01:48,000 --> 00:01:51,450 When the Sahel was dry, the dust transport to the Amazon 43 00:01:51,470 --> 00:01:53,510 in the next year would increase. 44 00:01:53,530 --> 00:01:54,980 When it was wet, 45 00:01:55,000 --> 00:01:57,950 dust transport would decrease. 46 00:01:57,970 --> 00:02:02,550 Using satellites to get a clear picture of dust is important 47 00:02:02,570 --> 00:02:06,750 for understanding, and eventually using computers to model 48 00:02:06,770 --> 00:02:08,350 where that dust will go, 49 00:02:08,370 --> 00:02:11,110 now and in future climate scenarios. 50 00:02:11,130 --> 00:02:13,747