1 00:00:00,010 --> 00:00:04,200 [music] 2 00:00:04,220 --> 00:00:08,220 For decades, scientists have been probing the Greenland Ice Sheet from the ground, air 3 00:00:08,240 --> 00:00:12,230 and space. Now a new study uses those observations 4 00:00:12,250 --> 00:00:16,420 to see within the ice sheet…laying bare a tale more than 5 00:00:16,440 --> 00:00:20,620 one hundred thousand years in the making. 6 00:00:20,640 --> 00:00:24,630 When we look inside an ice sheet, we can see distinct layers formed by thousands of years of snowfall. 7 00:00:24,650 --> 00:00:28,650 As snow accumulates, these layers get 8 00:00:28,670 --> 00:00:32,660 progressively compacted into ice, which then flows under its own weight. 9 00:00:32,680 --> 00:00:36,680 To get a precise history of a particular spot on 10 00:00:36,700 --> 00:00:40,690 an ice sheet, scientists drill into it and recover ice cores, 11 00:00:40,710 --> 00:00:44,710 which provide a record of the ice’s age and what the past 12 00:00:44,730 --> 00:00:48,740 climate was like. Seasonal variations, along with ash 13 00:00:48,760 --> 00:00:52,750 from volcanic eruptions show up in the cores allowing us 14 00:00:52,770 --> 00:00:56,770 to date the ice and correlate samples from different sites. 15 00:00:56,790 --> 00:01:00,800 To extend this age information across the ice sheet, 16 00:01:00,820 --> 00:01:04,820 the best tool that we have is ice-penetrating radar, mounted on aircraft 17 00:01:04,840 --> 00:01:08,840 flying low over the surface. Radar transmits 18 00:01:08,860 --> 00:01:12,870 electromagnetic pulses into the ice and records the reflected signals, 19 00:01:12,890 --> 00:01:17,050 allowing us to track the depth of the layers detected in the ice. 20 00:01:17,070 --> 00:01:21,070 Since 2009, NASA’s Operation IceBridge has 21 00:01:21,090 --> 00:01:25,080 flown over Greenland more than one hundred times with a wide variety of instruments, 22 00:01:25,100 --> 00:01:29,090 including radar, and generated vast quantities of data, 23 00:01:29,110 --> 00:01:33,110 adding to the work from many other missions. This has allowed researchers 24 00:01:33,130 --> 00:01:37,140 to generate a three dimensional map depicting the age of the ice throughout 25 00:01:37,160 --> 00:01:41,150 the Greenland Ice sheet. This 3D age map 26 00:01:41,170 --> 00:01:45,340 shows that three distinct periods of climate are evident within the ice sheet: 27 00:01:45,360 --> 00:01:49,430 The Holocene, shown here in green. The last ice age, 28 00:01:49,450 --> 00:01:53,540 shown in blue. And the Eemian, shown here in red. 29 00:01:53,560 --> 00:01:57,560 The top layers from the Holocene Period, formed during the last 30 00:01:57,580 --> 00:02:01,570 11.7 thousand years and are fairly flat and uniform, 31 00:02:01,590 --> 00:02:05,590 though the thickness varies depending on how much snowfall occurred. 32 00:02:05,610 --> 00:02:09,600 Below this, deeper within the ice sheet, we see layers that formed 33 00:02:09,620 --> 00:02:13,620 during the last ice age. Layers from this period are darker 34 00:02:13,640 --> 00:02:17,640 and more complex, having been further squeezed and sometimes folded 35 00:02:17,660 --> 00:02:21,660 as they flowed over the rugged bedrock below. 36 00:02:21,680 --> 00:02:25,690 Deeper still are layers of ice leftover from the warm period before the last ice age, 37 00:02:25,710 --> 00:02:29,710 more than one hundred fifteen thousand years ago. 38 00:02:29,730 --> 00:02:33,730 Eemian ice can reveal how the ice sheet responded to a period of warmth 39 00:02:33,750 --> 00:02:37,750 similar to the one we are experiencing today. 40 00:02:37,770 --> 00:02:41,810 Several ice cores have recovered Eemian ice, but it is difficult to interpret. 41 00:02:41,830 --> 00:02:45,820 This new map of the age of the ice sheet shows that there 42 00:02:45,840 --> 00:02:50,000 is more Eemian ice than expected in northern Greenland, where it may be easier 43 00:02:50,020 --> 00:02:54,010 for scientists to collect and analyze. 44 00:02:54,030 --> 00:02:58,030 This new analysis reveals a 3D map of the age 45 00:02:58,050 --> 00:03:02,050 of the Greenland ice sheet , from the oldest Eemian ice, 46 00:03:02,070 --> 00:03:06,250 to the layers deposited during the last ice age, to the ice that formed during the Holocene. 47 00:03:06,270 --> 00:03:10,260 The response of the ice sheet to past climate change 48 00:03:10,280 --> 00:03:14,270 led to its current age structure. Further study will help us 49 00:03:14,290 --> 00:03:18,290 to better understand how the Greenland Ice Sheet will respond to today’s changing climate. 50 00:03:18,310 --> 00:03:22,470 [music] 51 00:03:22,490 --> 00:03:26,490 [music] 52 00:03:26,510 --> 00:03:36,713 [music]