1 00:00:00,650 --> 00:00:07,650 I'm Gail Skofronick-Jackson, the Global Precipitation Measurement Project Scientist. This is a great 2 00:00:08,420 --> 00:00:13,889 dataset that has recently been delivered by the Global Precipitation Measurement team. 3 00:00:13,889 --> 00:00:19,369 It shows that we are able to measure both the regional scale and the global scales of 4 00:00:19,369 --> 00:00:27,839 precipitation at a very fine temporal resolution every 30 minutes. IMERG provides high resolution 5 00:00:27,839 --> 00:00:34,410 data, 10 kilometers by 10 kilometers, about the size of a suburb of a city. I'm George 6 00:00:34,410 --> 00:00:40,520 Huffman, I'm the Deputy Project Scientist for the GPM mission. What this new dataset 7 00:00:40,520 --> 00:00:45,170 does is to look under the clouds and see what the precipitation is doing. This is a new 8 00:00:45,170 --> 00:00:50,800 effort and considerably more difficult than the cloud maps. In the Northern Hemisphere 9 00:00:50,800 --> 00:00:55,740 we have a summer season, but in the Southern Hemisphere, you see a winter season. And during 10 00:00:55,740 --> 00:01:00,070 the winter season we all expect to see snow, and as you can see in the blue-colored part, 11 00:01:00,070 --> 00:01:06,040 we are actually getting snow from these algorithms that are estimating falling snow from space. 12 00:01:06,040 --> 00:01:11,040 In particular I've really appreciated looking at the Southern Ocean, that is the band of 13 00:01:11,040 --> 00:01:15,850 ocean that runs south of South America, Africa, and Australia. When you look at the Southern 14 00:01:15,850 --> 00:01:20,500 Ocean, you see these numerous swirls. There's very little land to get in the way and as 15 00:01:20,500 --> 00:01:25,909 a result, these storms just swirl around Antarctica continually. In the tropics near the Equator, 16 00:01:25,909 --> 00:01:30,510 the precipitation tends to run from East to West, and it's very, what we call, convective. 17 00:01:30,510 --> 00:01:36,060 A lot of splotchy stuff that comes and goes quickly. The rain that falls over your backyard 18 00:01:36,060 --> 00:01:41,659 might actually affect the people in Europe as the storms go across the Atlantic Ocean. 19 00:01:41,659 --> 00:01:47,030 They might affect the tropical rains. And all the precipitation is interrelated all 20 00:01:47,030 --> 00:01:47,780 around the globe.