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These are the user uploaded subtitles that are being translated: 1 00:00:04,350 --> 00:00:08,430 The tale of life on Earth has been unfolding for about 4 billion years. 2 00:00:08,430 --> 00:00:11,620 And we humans are just the last word on the last page of that story. 3 00:00:11,620 --> 00:00:12,860 At least so far. 4 00:00:12,860 --> 00:00:16,790 And the vast stretches of time that are covered by the history of life can be hard for us 5 00:00:16,790 --> 00:00:17,790 to fathom. 6 00:00:17,790 --> 00:00:21,100 We wrack our brains just trying to imagine what a few hundred years looks like, let alone 7 00:00:21,100 --> 00:00:21,800 billions of years 8 00:00:21,820 --> 00:00:25,640 And, like, speaking for myself, I can’t even remember what I had for breakfast this 9 00:00:25,650 --> 00:00:26,650 morning. 10 00:00:26,650 --> 00:00:30,440 So, to help us comprehend the full expanse of time, scientists have turned to the rocks. 11 00:00:30,440 --> 00:00:34,070 By looking at the layers beneath our feet, geologists have been able to identify and 12 00:00:34,070 --> 00:00:38,399 describe crucial episodes in life’s history -- from bursts of evolutionary diversity to 13 00:00:38,399 --> 00:00:40,030 disastrous extinction events. 14 00:00:40,030 --> 00:00:43,559 These key events -- of new life and sudden death -- frame the chapters in the story of 15 00:00:43,559 --> 00:00:44,559 life on earth. 16 00:00:44,560 --> 00:00:48,220 And the system we use to bind all these chapters together is the Geologic Time Scale. 17 00:00:51,660 --> 00:00:53,760 First, let’s talk about the history of geologic time itself. 18 00:00:53,760 --> 00:00:56,859 ‘Cause figuring out how to read history in rocks was not easy. 19 00:00:56,859 --> 00:01:00,390 For much of human history, of course, we had no idea how old the Earth was, or what actually 20 00:01:00,390 --> 00:01:02,799 happened in deep time, or what happened in what order. 21 00:01:02,799 --> 00:01:07,450 But in 1669, Danish scientist Nicolas Steno published the first laws of stratigraphy -- the 22 00:01:07,450 --> 00:01:10,930 science of interpreting the strata, or layers of rock, in Earth’s outer surface. 23 00:01:10,930 --> 00:01:14,219 Steno argued that the layers closer to the surface must be younger than the layers below 24 00:01:14,219 --> 00:01:15,219 them. 25 00:01:15,219 --> 00:01:18,360 So the farther down you dig, he thought, the older the fossils are that you find there. 26 00:01:18,360 --> 00:01:19,619 Sounds legit, right? 27 00:01:19,619 --> 00:01:23,490 But in Steno’s day -- when some people thought that fossils had literally fallen from the 28 00:01:23,490 --> 00:01:26,219 sky, for some reason -- this was pretty revolutionary idea. 29 00:01:26,219 --> 00:01:30,640 Building on Steno’s ideas, Italian geologist Giovanni Arduino went a step further and began 30 00:01:30,640 --> 00:01:31,940 naming the layers of rock. 31 00:01:31,940 --> 00:01:36,079 In the 1760s, Arduino studied the Italian Alps, organizing their layers based on their 32 00:01:36,079 --> 00:01:37,140 depth and composition. 33 00:01:37,140 --> 00:01:41,250 The lowest layers of metamorphic and volcanic rocks, he called the Primary layer. 34 00:01:41,250 --> 00:01:44,280 Above those were hard sedimentary rocks which he called Secondary. 35 00:01:44,280 --> 00:01:47,960 And the top layers of softer alluvial deposits he named Tertiary and Quaternary. 36 00:01:47,960 --> 00:01:50,859 But, because rock layers don’t appear in this same order all over the world, there 37 00:01:50,860 --> 00:01:54,350 was no way for geologists to compare rocks from one location to another. 38 00:01:54,350 --> 00:01:57,640 Without a way to compare strata, there could be no universal time scale. 39 00:01:57,659 --> 00:02:01,930 Finally, in 1819, English geologist William Smith figured out the solution to this problem: 40 00:02:01,930 --> 00:02:02,930 fossils. 41 00:02:02,930 --> 00:02:05,820 By comparing the remains of ancient organisms from different rock formations, Smith could 42 00:02:05,820 --> 00:02:08,169 match their ages, regardless of how far apart they were. 43 00:02:08,169 --> 00:02:11,920 For example, Smith realized that fossils of many early species of trilobites are found 44 00:02:11,920 --> 00:02:15,600 below ammonite fossils, which are in turn below certain species of shellfish. 45 00:02:15,600 --> 00:02:18,860 So, anyplace in the world where you find these first trilobites, you know that you’re looking 46 00:02:18,860 --> 00:02:21,090 at rock that’s older than when ammonites lived. 47 00:02:21,090 --> 00:02:24,850 And even in the most ancient rocks, that have little or no evidence of life, scientists 48 00:02:24,850 --> 00:02:28,940 can still look for signs of the very earliest major geologic events, like when 49 00:02:29,000 --> 00:02:32,320 continents first formed, and even when the Earth itself cooled and solidified. 50 00:02:32,320 --> 00:02:36,410 Thanks to the work of early geologists like Steno, Arduino, and Smith, modern scientists 51 00:02:36,410 --> 00:02:40,080 have used these and other clues to create what we now call the Geologic Time Scale, 52 00:02:40,080 --> 00:02:41,080 or GTS. 53 00:02:41,080 --> 00:02:44,440 The GTS has been reworked many times to reflect the latest knowledge of Earth’s history. 54 00:02:44,440 --> 00:02:48,850 And today, it’s organized into five subgroups: Eons, Eras, Periods, Epochs 55 00:02:48,850 --> 00:02:50,250 and Ages. 56 00:02:50,250 --> 00:02:53,480 Organizing time in increments like this allows us to ask questions about history on different 57 00:02:53,480 --> 00:02:54,520 scales. 58 00:02:54,520 --> 00:02:58,220 In the largest increments -- like Eons and Eras -- we can ask the biggest of big-picture 59 00:02:58,220 --> 00:02:59,220 questions. 60 00:02:59,220 --> 00:03:01,040 Like, was there life on Earth at this time? 61 00:03:01,040 --> 00:03:02,240 If there was, what did it look like? 62 00:03:02,380 --> 00:03:04,180 Did it live in the water or on land? 63 00:03:04,190 --> 00:03:06,560 This is the kind of top-level view we’re gonna take today. 64 00:03:06,560 --> 00:03:10,310 But the smaller increments of time, like Periods and Epochs, help us take a tighter focus and 65 00:03:10,310 --> 00:03:11,540 ask more specific questions. 66 00:03:11,540 --> 00:03:15,260 Like, what was the climate like during this window of a few million years? 67 00:03:15,260 --> 00:03:16,730 And how did life around the world adapt to it? 68 00:03:16,730 --> 00:03:20,660 We’ll be talking about those in more detail in future episodes, when we talk about each 69 00:03:20,660 --> 00:03:21,980 era, period by period. 70 00:03:21,980 --> 00:03:22,980 OK! 71 00:03:22,980 --> 00:03:26,000 So, let’s get the biggest of Big Picture views of Earth’s history right now, by taking 72 00:03:26,000 --> 00:03:28,830 a tour of all the Eons and Eras in the GTS. 73 00:03:28,830 --> 00:03:32,970 Eons are the largest slices of time, ranging from a half-billion to nearly 2 billion years 74 00:03:32,970 --> 00:03:33,970 long. 75 00:03:33,970 --> 00:03:35,580 And the earliest Eon is known as the Hadean. 76 00:03:35,580 --> 00:03:40,480 It begins with the very formation of the Earth itself, around 4.6 billion years ago and ends 77 00:03:40,480 --> 00:03:41,480 4 billion years ago. 78 00:03:41,480 --> 00:03:43,640 And this is the only Eon that doesn’t have fossils. 79 00:03:43,640 --> 00:03:46,900 Because, back then, the world was just … hell. 80 00:03:46,900 --> 00:03:50,090 Named after the Greek underworld Hades, the Hadean lived up to its name. 81 00:03:50,090 --> 00:03:54,900 The planet was wracked by volcanic activity, cosmic bombardments, raging storms, and temperatures 82 00:03:54,900 --> 00:03:57,170 that were at times hot enough to melt rock. 83 00:03:57,170 --> 00:04:00,540 But even in this searing wasteland, life may have been able to form. 84 00:04:00,540 --> 00:04:04,270 While no fossils have been found from this Eon, small amounts of organic carbon have 85 00:04:04,270 --> 00:04:07,910 been discovered in Hadean rocks that some experts think is evidence of the earliest 86 00:04:07,910 --> 00:04:08,910 life. 87 00:04:08,910 --> 00:04:11,670 These first organisms were tiny and single celled, but they were eventually able to shape 88 00:04:11,670 --> 00:04:15,710 the future of the entire planet, so their appearance is the one major benchmark of this 89 00:04:15,710 --> 00:04:16,709 Eon. 90 00:04:16,709 --> 00:04:19,629 The Hadean was brought to an end by the cooling of the Earth’s crust, setting the stage 91 00:04:19,630 --> 00:04:21,390 for continents to eventually form. 92 00:04:21,390 --> 00:04:25,060 And this cooling marked the beginning of the next phase -- the Archean Eon, which ran from 93 00:04:25,060 --> 00:04:28,100 4 billion to 2.5 billion years ago. 94 00:04:28,100 --> 00:04:31,070 Named for the Greek word for ‘origin’, the Archean was once thought to be when the 95 00:04:31,070 --> 00:04:32,120 first signs of life appeared. 96 00:04:32,120 --> 00:04:35,410 But at the very least, it’s fair to say it was the first time that life flourished, 97 00:04:35,410 --> 00:04:37,660 forming mats of microbes in the primordial seas. 98 00:04:37,660 --> 00:04:41,410 The fossils that these microbes left behind are called stromatolites, or sometimes, stromatoliths, 99 00:04:41,410 --> 00:04:44,320 and the very oldest of them -- like those found in western Australia -- date from the 100 00:04:44,320 --> 00:04:45,320 Archaean. 101 00:04:45,320 --> 00:04:49,310 During this time, the atmosphere was mostly carbon dioxide, but the appearance of cyanobacteria 102 00:04:49,310 --> 00:04:50,630 was about to change all that. 103 00:04:50,630 --> 00:04:54,870 Then 2.5 billion years ago, the Archean gave way to the Proterozoic Eon, meaning ‘earlier 104 00:04:54,870 --> 00:04:55,870 life’. 105 00:04:55,870 --> 00:04:59,820 And around this time, photosynthetic bacteria, along with some multicellular forms of life, 106 00:04:59,820 --> 00:05:01,730 spewed tons of oxygen into the atmosphere. 107 00:05:01,730 --> 00:05:03,810 This probably wiped out much of the anaerobic life on Earth. 108 00:05:03,810 --> 00:05:04,810 BUT! 109 00:05:04,810 --> 00:05:08,500 It cleared the path for crucial, new organisms, including the ancestral Eukaryotes, whose 110 00:05:08,500 --> 00:05:11,480 cells each have a nucleus and organelles wrapped up in membranes. 111 00:05:11,480 --> 00:05:15,940 Eukaryotes developed into the first really big, complex, and sometimes kinda weird forms 112 00:05:15,940 --> 00:05:20,210 of life, like the frond-like Charnia and the plate-shaped Dickinsonia. 113 00:05:20,210 --> 00:05:25,120 These new, larger organisms quickly diversified, and by 541 million years ago, we were at the 114 00:05:25,120 --> 00:05:28,440 doorstep of the next and current eon, the Phanerozoic. 115 00:05:30,200 --> 00:05:34,940 Its name means ‘visible life,’ and the Phanerozoic was when life really became … obvious. 116 00:05:35,060 --> 00:05:39,530 This is the eon that’s home to trees, dinosaurs, newts, aardvarks, and humans. 117 00:05:39,530 --> 00:05:41,190 Basically, life as we know it. 118 00:05:41,190 --> 00:05:42,190 Hoo! 119 00:05:42,220 --> 00:05:43,480 How are you holding up? You doing OK? 120 00:05:43,480 --> 00:05:46,770 We’ve covered about three and half billion years already! 121 00:05:46,770 --> 00:05:49,020 Just got another half billion to go and then we're home free 122 00:05:49,020 --> 00:05:52,760 OK, now, from here, it’s best to explore the Phanerozoic Eon through its Eras, the 123 00:05:52,760 --> 00:05:54,670 next level down in the divisions of time. 124 00:05:54,670 --> 00:05:57,700 This’ll let us explore more recent history in greater detail. 125 00:05:57,700 --> 00:06:03,150 The first era of our current eon is the Paleozoic Era, which began 541 million years ago. 126 00:06:03,150 --> 00:06:07,650 This chapter was defined by the diversification of visible life, and it started with a bang. 127 00:06:07,650 --> 00:06:09,139 Actually, an explosion! 128 00:06:09,139 --> 00:06:10,330 The Cambrian explosion. 129 00:06:10,330 --> 00:06:14,139 This flurorescence of diversity and complexity in the world’s oceans is such a huge deal 130 00:06:14,139 --> 00:06:18,070 in the history of life that all of the eons that came before it -- the Hadean, Archean, 131 00:06:18,070 --> 00:06:21,620 and the Proterozoic -- are collectively known as the Precambrian. 132 00:06:21,620 --> 00:06:25,280 At the start of the Paleozoic, over about 25 million years, the fossil record suddenly 133 00:06:25,280 --> 00:06:28,850 reveals the appearance of complex animals with mineralized remains. 134 00:06:28,850 --> 00:06:32,310 Y’know, hard parts -- shells, exoskeletons, that kind of thing. 135 00:06:32,310 --> 00:06:35,790 And the first of these new animals to become truly widespread were the trilobites. 136 00:06:35,790 --> 00:06:39,260 They were so common all over the world that they’ve been used as index fossils for the 137 00:06:39,260 --> 00:06:42,210 Palaeozoic Era for centuries, ever since the days of William Smith. 138 00:06:42,210 --> 00:06:44,419 But the trilobites soon had competition. 139 00:06:44,419 --> 00:06:48,370 Fish developed teeth and jaws, and came to dominate the seas, including the first sharks 140 00:06:48,370 --> 00:06:50,240 and armored giants known as placoderms. 141 00:06:50,240 --> 00:06:53,510 Meanwhile, the land, which had been barren since the formation of continents back in 142 00:06:53,510 --> 00:06:57,470 the Archean, was finally being populated -- first by plants and then by arthropods. 143 00:06:57,470 --> 00:07:02,120 By 370 million years ago entire ecosystems had developed on the primeval continents. 144 00:07:02,120 --> 00:07:05,490 Soon after, the earliest amphibians evolved and hauled themselves out of the water, leaving 145 00:07:05,490 --> 00:07:07,780 the first vertebrate footprints in the mud. 146 00:07:07,780 --> 00:07:12,050 299 million years ago, the supercontinent Pangea had formed, with an enormous desert 147 00:07:12,050 --> 00:07:13,050 at its center. 148 00:07:13,050 --> 00:07:17,150 This desert was quickly populated by the ancestors of what would eventually become reptiles and 149 00:07:17,150 --> 00:07:19,710 mammals, which could thrive in dry conditions, unlike amphibians. 150 00:07:19,710 --> 00:07:22,060 But this time of incredible growth couldn’t last forever. 151 00:07:22,060 --> 00:07:24,950 and instead, the Palaeozoic Era ended in cataclysm. 152 00:07:24,950 --> 00:07:30,410 252 million years ago, 70% of land vertebrates and 96% of marine species disappeared from 153 00:07:30,410 --> 00:07:35,780 the fossil record, including survivors of previous extinctions, like our friends the trilobites. 154 00:07:36,680 --> 00:07:38,740 I still miss those guys. 155 00:07:38,740 --> 00:07:42,699 The event, known as the Great Dying, was the most severe extinction in our planet’s history. 156 00:07:42,699 --> 00:07:44,440 But its exact cause is still unclear. 157 00:07:44,440 --> 00:07:47,670 A possible meteorite impact site off the coast of South AmericaIslands, 158 00:07:47,670 --> 00:07:48,670 might be one clue. 159 00:07:48,670 --> 00:07:52,169 And in Siberia, layers of basalt show that massive volcanic eruptions covered large swaths 160 00:07:52,169 --> 00:07:53,270 of Pangea in lava. 161 00:07:53,270 --> 00:07:56,740 Both of these incidents coincided with the end of the Palaeozoic, and it seems more than 162 00:07:56,740 --> 00:07:58,490 likely that the extinction had many causes. 163 00:07:58,490 --> 00:08:03,050 In any case, the Palaeozoic may have begun as a chapter defined by an explosion of life, 164 00:08:03,050 --> 00:08:05,010 but it ended in nearly absolute death. 165 00:08:05,010 --> 00:08:09,130 It took millions of years for life to recover, but when it did, a new world, The Mesozoic 166 00:08:09,130 --> 00:08:10,210 Era, had arrived. 167 00:08:10,210 --> 00:08:12,900 This is often called the Age of Reptiles, and with good reason. 168 00:08:12,900 --> 00:08:15,740 Right from the start of the Mesozoic, reptiles were incredibly successful. 169 00:08:15,740 --> 00:08:18,970 This is when they took some of their most famous forms, including dinosaurs, pterosaurs, 170 00:08:18,970 --> 00:08:20,930 and a variety of marine species. 171 00:08:20,930 --> 00:08:25,120 In fact, all of the non-avian dinosaurs lived only in the Mesozoic, so they remain one of 172 00:08:25,120 --> 00:08:26,930 the best index fossils of this era. 173 00:08:26,930 --> 00:08:31,500 And many modern groups of organisms also evolved in the shadow of the reptiles, like 174 00:08:31,500 --> 00:08:33,700 mammals frogs, bees, and flowering plants. 175 00:08:33,700 --> 00:08:39,399 But the Mesozoic Era came to an end 66 million years ago, with yet another episode of devastation, 176 00:08:39,399 --> 00:08:42,688 known as the Cretaceous-Paleogene, or K-Pg, Extinction Event. 177 00:08:42,688 --> 00:08:46,569 Like all mass die-offs, the K-Pg had many causes, but probably the biggest of them was 178 00:08:46,569 --> 00:08:49,999 a gigantic asteroid that struck the earth, sending out enormous amounts of ash into the 179 00:08:49,999 --> 00:08:54,079 atmosphere, blocking out sunlight, and creating a vicious cold snap across the planet. 180 00:08:54,079 --> 00:08:57,910 Without the sun’s energy, entire plant communities died, and the animals that relied on those 181 00:08:57,910 --> 00:08:59,519 plants perished with them. 182 00:08:59,519 --> 00:09:02,610 Evidence of this impact can be found in a layer of iridium, in rocks dating to the end 183 00:09:02,610 --> 00:09:03,610 of the Mesozoic. 184 00:09:03,610 --> 00:09:07,820 Iridium is an element that’s rare on Earth, but very common in asteroids and comets. 185 00:09:07,820 --> 00:09:11,879 And a giant impact crater in the Gulf of Mexico, whose age matches the date of this extinction 186 00:09:11,879 --> 00:09:14,450 has become the smoking gun for the asteroid hypothesis. 187 00:09:14,450 --> 00:09:18,519 The victims of the K-Pg Extinction were some of the biggest reptiles of the land, sea and 188 00:09:18,519 --> 00:09:21,920 sky, including all of what we NOW call the non-avian dinosaurs. 189 00:09:21,920 --> 00:09:26,320 Birds survived the cataclysm, of course, making them the last surviving lineage of the dinosaurs. 190 00:09:26,320 --> 00:09:28,640 Ok we have 66 million years to go and 191 00:09:28,640 --> 00:09:30,180 that's the last major extinction event that we have to 192 00:09:30,180 --> 00:09:31,700 talk about. I thought you might want to 193 00:09:31,800 --> 00:09:33,020 freshen up so I bought these 194 00:09:33,020 --> 00:09:34,240 pre-moistened toilettes 195 00:09:35,160 --> 00:09:36,240 just going to 196 00:09:36,920 --> 00:09:37,420 you have 197 00:09:38,100 --> 00:09:38,700 some Iridium 198 00:09:39,140 --> 00:09:40,380 Here. On this side. 199 00:09:40,400 --> 00:09:41,340 On your forehead. Other side. 200 00:09:41,400 --> 00:09:44,839 With all of the great reptiles gone, the smaller animals that remained were able to eke out 201 00:09:44,839 --> 00:09:47,200 a living in the next era, the Cenozoic. 202 00:09:47,200 --> 00:09:49,519 This is our era, in more ways than one. 203 00:09:49,519 --> 00:09:52,829 It’s the era that we’re in today, and it also marks the rise of the mammals. 204 00:09:52,829 --> 00:09:57,629 Soon after the K-Pg extinction, the climate warmed, and jungles stretched across the planet. 205 00:09:57,629 --> 00:10:01,040 Mammals quickly recovered in this hothouse world, and by 40 million years ago, most of 206 00:10:01,040 --> 00:10:05,600 the mammal groups that we recognize had come about, like whales, bats, rodents and primates. 207 00:10:05,600 --> 00:10:09,520 But, starting 34 million years ago, the climate began to shift again. 208 00:10:09,580 --> 00:10:13,760 This time Ice caps started to grow at the poles, taking up much of the planet's water. 209 00:10:13,779 --> 00:10:17,279 And these drier conditions created a new habitat, the grassland, where ancestral horses and 210 00:10:17,279 --> 00:10:19,550 antelope were first hunted by the earliest cats and dogs. 211 00:10:19,550 --> 00:10:24,410 It was also on these grassy plains 7 million years ago that a species of ape known as Sahelanthropus 212 00:10:24,410 --> 00:10:26,470 became the first known primate to walk upright. 213 00:10:26,470 --> 00:10:31,310 2.6 million years ago, the ice caps expanded even more, and the Earth entered a glacial period. 214 00:10:31,310 --> 00:10:33,259 This is the one you hear referred to as The Ice Age. 215 00:10:33,259 --> 00:10:36,529 Over the course of these last several million years, most modern lifeforms that we know 216 00:10:36,529 --> 00:10:41,019 about developed and thrived, alongside giants like mammoths, ground sloths and saber-toothed 217 00:10:41,019 --> 00:10:42,019 cats. 218 00:10:42,019 --> 00:10:45,439 Once again, though, this era of lush diversity came to a morbid end: Starting around 15,000 219 00:10:45,439 --> 00:10:47,189 years ago, the climate began to warm up. 220 00:10:47,189 --> 00:10:49,990 And over the next few thousand years, many of the giant fauna went extinct. 221 00:10:49,990 --> 00:10:54,749 By 11,700 years ago, the last major glaciation was over, and modern humans inhabited nearly 222 00:10:54,749 --> 00:10:56,230 all corners of the globe. 223 00:10:56,230 --> 00:11:00,059 But how big a role we played in the extinction of the so-called Ice Age megafauna is hotly 224 00:11:00,059 --> 00:11:01,059 debated. 225 00:11:01,059 --> 00:11:03,949 Regardless, there’s no escaping the fact that our species has shaped the Earth to its 226 00:11:03,949 --> 00:11:04,949 will since then. 227 00:11:04,949 --> 00:11:08,829 Like cyanobacteria, and the dinosaurs before us, we’ve had a huge impact on habitats, 228 00:11:08,829 --> 00:11:10,939 other organisms, and the biosphere itself. 229 00:11:10,939 --> 00:11:14,579 And as we’ve learned today, it’s the most dominant forms of life that define each phase 230 00:11:14,579 --> 00:11:15,579 of deep time. 231 00:11:15,579 --> 00:11:19,420 So, even though our time on this planet amounts to the last word on the last page of the story 232 00:11:19,420 --> 00:11:22,100 of life, we are the authors of the next chapter. 233 00:11:22,100 --> 00:11:25,899 One day, the epoch of humans may be detected by the marks we made on the land, the traces 234 00:11:25,899 --> 00:11:27,399 of our cities and farms. 235 00:11:27,400 --> 00:11:30,050 And our very bodies will be the index fossils of this time. 236 00:11:30,050 --> 00:11:33,980 No matter how our chapter ends up, we get to be characters in a truly amazing story. 237 00:11:37,300 --> 00:11:41,520 Thanks for joining me for this epic -- or ee pok -- journey through geologic time. 238 00:11:41,640 --> 00:11:44,110 Now, what do you want to know about the story of life on Earth? 239 00:11:44,110 --> 00:11:45,480 Let us know in the comments. 240 00:11:45,480 --> 00:11:48,569 And don’t forget to go to youtube.com/eons and subscribe! 241 00:11:48,569 --> 00:11:49,940 And the fun doesn’t end here! 242 00:11:49,940 --> 00:11:53,569 Do yourself a favor and check out some of our sister channels from PBS Digital Studios. 23563