WEBVTT FILE 1 00:00:00.000 --> 00:00:03.003 >>NARRATOR: It turns out that Ceres, the first and largest 2 00:00:03.003 --> 00:00:06.473 asteroid discovered in the main asteroid belt, surprisingly has 3 00:00:06.473 --> 00:00:09.743 been geologically active within the past billion years. 4 00:00:09.743 --> 00:00:15.282 [music] 5 00:00:15.282 --> 00:00:17.684 NASA’s Dawn spacecraft arrived at dwarf 6 00:00:17.684 --> 00:00:21.321 planet Ceres in March, 2015.   >>OTTAVIANO: We were expecting 7 00:00:21.321 --> 00:00:25.259 an inert rocky body. >>LUCY: We expected Ceres to be a 8 00:00:25.259 --> 00:00:28.195 cold rock. >>NARRATOR: One intriguing feature Dawn 9 00:00:28.195 --> 00:00:31.331 discovered on the surface of Ceres is an enormous, lone 10 00:00:31.331 --> 00:00:34.301 mountain the team named Ahuna Mons.   >>OTTAVIANO: We have 11 00:00:34.301 --> 00:00:37.771 been looking in detail about the shape of the mountain. 12 00:00:37.771 --> 00:00:42.709 >>LUCY: It was very tall and had steep slopes. And that reminded us of 13 00:00:42.709 --> 00:00:45.846 certain places in the solar system, including Earth and 14 00:00:45.846 --> 00:00:50.684 Mars, that had domes that were formed by volcanic activity. 15 00:00:50.684 --> 00:00:54.354 >>OTTAVIANO: And we have found that Ahuna Mons’ shape is very 16 00:00:54.354 --> 00:00:57.958 similar to that of a volcanic dome. >>NARRATOR: Along with the 17 00:00:57.958 --> 00:00:59.693 shape of the dome, the facts are that there is no evidence of 18 00:00:59.693 --> 00:01:04.064 another formation mechanism such as an impact crater, and the 19 00:01:04.064 --> 00:01:06.733 surface features on the summit and sides of the mountain look 20 00:01:06.733 --> 00:01:10.103 incredibly similar to known volcanic domes. This all 21 00:01:10.103 --> 00:01:13.106 provides substantial evidence that Ahuna Mons is in fact of 22 00:01:13.106 --> 00:01:16.610 volcanic origin. Volcanoes on earth are fueled by magma 23 00:01:16.610 --> 00:01:20.547 composed of molten rock.  But Ceres is far too cold to melt 24 00:01:20.547 --> 00:01:24.985 silicate rock in its interior. >>LUCY: We then concluded that 25 00:01:24.985 --> 00:01:30.057 the magma had to be composed of mostly very salty water, and when 26 00:01:30.057 --> 00:01:34.795 exposed to the surface, they would freeze and form this 27 00:01:34.795 --> 00:01:38.365 steep-sided dome. >>NARRATOR: A volcano made of water or other 28 00:01:38.365 --> 00:01:42.269 ices instead of rock is called a cryovolcano.  Scientists have 29 00:01:42.269 --> 00:01:45.906 detected evidence of cryovolcanic activity before - 30 00:01:45.906 --> 00:01:48.342 plumes from Saturn’s moon Enceladus and Neptune’s moon 31 00:01:48.342 --> 00:01:52.079 Triton and volcanic-looking mountain ranges on Saturn’s moon 32 00:01:52.079 --> 00:01:55.515 Titan.  The salty muddy mountain Ahuna Mons is yet 33 00:01:55.515 --> 00:02:00.053 another new form of cryovolcanic activity discovered. 34 00:02:00.053 --> 00:02:04.257 >>LUCY: There’s no other place in the solar system that has a 35 00:02:04.257 --> 00:02:07.594 structure like Ahuna Mons, and it has to be formed by 36 00:02:07.594 --> 00:02:10.931 cryovolcanic activity. >>NARRATOR: Moons around gas 37 00:02:10.931 --> 00:02:13.734 giants can heat up from the frictions of interactingtheir 38 00:02:13.734 --> 00:02:17.604 orbits, but the isolated dwarf planet Ceres is so small and 39 00:02:17.604 --> 00:02:20.040 cold that we wouldn’t have thought it could have liquid 40 00:02:20.040 --> 00:02:23.443 water in its recent past.  Evidence suggests, however, 41 00:02:23.443 --> 00:02:26.613 that Ahuna Mons is a relatively young feature. 42 00:02:26.613 --> 00:02:31.084 >>OTTAVIANO: First of all, the surface is very bright, and as surfaces get 43 00:02:31.084 --> 00:02:35.789 darker with time, it’s brightness tells us it’s a young 44 00:02:35.789 --> 00:02:40.494 feature. And second, we see very crisp morphologies, very sharp 45 00:02:40.494 --> 00:02:46.133 features, and this also tells us it’s young, as the features get 46 00:02:46.133 --> 00:02:51.805 muted and smooth with time. And third, we have been looking at 47 00:02:51.805 --> 00:02:56.143 crater density and we see very low density of craters. And this 48 00:02:56.143 --> 00:02:59.646 tells us that Ahuna Mons was formed within the last billion 49 00:02:59.646 --> 00:03:03.350 years of Ceres’ history. Ahuna Mons is evidence that Ceres was 50 00:03:03.350 --> 00:03:06.987 active in the recent past and might still be active today. 51 00:03:06.987 --> 00:03:10.290 >>LUCY: That tells us that there has to be something beneath the 52 00:03:10.290 --> 00:03:15.695 surface of Ceres near Ahuna Mons that heated the material to the 53 00:03:15.695 --> 00:03:19.399 melting point and made it push through the cracks on the 54 00:03:19.399 --> 00:03:22.936 surface. >>NARRATOR: The source of this heat is still an 55 00:03:22.936 --> 00:03:26.640 intriguing mystery that planetary scientists are anxious to solve.   56 00:03:26.907 --> 00:03:35.248 [beep beep, beep beep...] [music fades out]