WEBVTT FILE 1 00:00:00.010 --> 00:00:03.230 [ music ] 2 00:00:03.250 --> 00:00:10.070 Beneath the thin atmosphere of Mars lies an enigma: a desert landscape shaped by flowing water. 3 00:00:10.090 --> 00:00:13.930 In the distant past, Mars must have had a warmer, wetter climate, 4 00:00:13.950 --> 00:00:18.120 but scientists wonder: just how wet was ancient Mars? 5 00:00:18.140 --> 00:00:24.680 [ Villanueva ] So in the ancient past, we have some indications that water was flowing on the surface, but how much water was there? 6 00:00:24.700 --> 00:00:28.420 Are we talking about oceans, are we talking about small rivers, a little rain? 7 00:00:28.440 --> 00:00:32.830 So these definitions of how much water was on the planet was very undefined. 8 00:00:32.850 --> 00:00:40.230 [ Mumma ] A major question has been: how much water did Mars actually have when it was young, and how did it lose that water? 9 00:00:40.250 --> 00:00:44.900 To answer this question, a team of researchers at NASA's Goddard Space Flight Center 10 00:00:44.920 --> 00:00:50.000 used infrared telescopes on Earth to study water molecules in the Martian atmosphere. 11 00:00:50.020 --> 00:00:55.010 [ Mumma ] We used the world's three major telescopes for infrared astronomy. 12 00:00:55.030 --> 00:00:59.910 From the ground we could actually take a snapshot of the whole hemisphere of the planet on a single night. 13 00:00:59.930 --> 00:01:07.830 The new infrared maps reveal the atmospheric ratio of normal to heavy water molecules at different locations and seasons on Mars. 14 00:01:07.850 --> 00:01:12.110 Heavy water molecules contain a heavy isotope of hydrogen called deuterium, 15 00:01:12.130 --> 00:01:17.160 which remains trapped in the Martian water cycle while normal hydrogen is lost to space. 16 00:01:17.180 --> 00:01:21.630 The researchers found that water from the polar ice caps is highly enriched in deuterium, 17 00:01:21.650 --> 00:01:25.330 indicating that Mars has lost a tremendous quantity of water. 18 00:01:25.350 --> 00:01:33.330 Now we know that Mars water is much more enriched than terrestrial ocean water in the heavy form of water, the deuterated form. 19 00:01:33.350 --> 00:01:38.910 Immediately that permits us to estimate the amount of water Mars has lost since it was young. 20 00:01:38.930 --> 00:01:46.250 The findings indicate that only 13% of an ancient ocean remains on the planet today, now stored in the polar ice caps. 21 00:01:46.270 --> 00:01:53.380 87% of this ocean has been lost to space. This means that early Mars would have looked much different than it does today. 22 00:01:53.400 --> 00:01:56.880 with a significant portion of its surface covered by water. 23 00:01:56.900 --> 00:02:02.980 [ Mumma ] So the really interesting question is, could it form a sea or an ocean? And indeed, it would. 24 00:02:03.000 --> 00:02:07.420 In the northern plains, which is a relatively flat region but depressed from the rest of the planet, 25 00:02:07.440 --> 00:02:14.330 it would form an ocean that was approximately 20% of the planet's surface area. 26 00:02:14.350 --> 00:02:17.080 And so that is a respectable ocean. 27 00:02:17.100 --> 00:02:28.530 28 00:02:28.550 --> 00:02:32.250 By combining Martian topography with the new estimate for water loss, 29 00:02:32.270 --> 00:02:37.380 the researchers were able to simulate Mars' ancient ocean, and its escape to space. 30 00:02:37.400 --> 00:02:43.660 As Mars lost its atmosphere over billions of years, it lost the pressure and heat needed to keep water liquid, 31 00:02:43.680 --> 00:02:46.760 causing the ocean to shrink and recede northward. 32 00:02:46.780 --> 00:02:54.600 The remaining water eventually condensed and froze over the north and south poles, giving Mars the ice caps that we see today. 33 00:02:54.620 --> 00:03:01.530 This new scenario means that Mars would have stayed wet for longer than previously thought, expanding its ancient habitability. 34 00:03:01.550 --> 00:03:08.780 We now know that Mars was wet for a much longer time than we thought before. 35 00:03:08.800 --> 00:03:13.180 Curiosity shows it was wet for one-and-a-half-billion years, already much longer 36 00:03:13.200 --> 00:03:16.880 than the period of time needed for life to develop on Earth, 37 00:03:16.900 --> 00:03:20.980 and now we see that Mars must have been wet for a period even longer. 38 00:03:21.000 --> 00:03:35.610 39 00:03:35.630 --> 00:03:42.780 [ music ] 40 00:03:42.800 --> 00:03:56.950 [ satellite beeping ]