WEBVTT 99:59:59.999 --> 99:59:59.999 [Intro Music] 99:59:59.999 --> 99:59:59.999 The Pacific Northwest is famous for many things. 99:59:59.999 --> 99:59:59.999 Including huge floods. 99:59:59.999 --> 99:59:59.999 Floods of lava that buried almost 40% of Washington, 99:59:59.999 --> 99:59:59.999 and floods of Ice Age water that created more than 2,000 square miles 99:59:59.999 --> 99:59:59.999 of scab lands. 99:59:59.999 --> 99:59:59.999 What are the odds that such rare events both happened here in this corner of 99:59:59.999 --> 99:59:59.999 North America? 99:59:59.999 --> 99:59:59.999 We're just south of Lewiston Idaho at the mouth of Hills Canyon, 99:59:59.999 --> 99:59:59.999 the lowest point in the state. 99:59:59.999 --> 99:59:59.999 The basalt bedrock here, 99:59:59.999 --> 99:59:59.999 the floods of lava, came out of deep cracks that formed in response to a heat 99:59:59.999 --> 99:59:59.999 source that's now, in the state of Wyoming. 99:59:59.999 --> 99:59:59.999 A flood of water from a giant lake in Utah 99:59:59.999 --> 99:59:59.999 came all the way through Southern Idaho, through Hills Canyon, 99:59:59.999 --> 99:59:59.999 dropped rocks here, and the water made it to the Pacific Ocean. 99:59:59.999 --> 99:59:59.999 A giant lake in Montana 99:59:59.999 --> 99:59:59.999 flowed to the cascades, got backed up to here. 99:59:59.999 --> 99:59:59.999 Each of these layers representing a separate flood. 99:59:59.999 --> 99:59:59.999 The Columbia River basalts, 99:59:59.999 --> 99:59:59.999 the Bonneville flood, 99:59:59.999 --> 99:59:59.999 and the Missoula floods. 99:59:59.999 --> 99:59:59.999 Let's dig into together and learn, 99:59:59.999 --> 99:59:59.999 about huge floods in the Pacific Northwest. 99:59:59.999 --> 99:59:59.999 [ Music Plays ] 99:59:59.999 --> 99:59:59.999 The Ice Age floods have helped exposed and incredible pile of lavas 99:59:59.999 --> 99:59:59.999 from erupting volcanoes that are not related to our famous cascade volcanoes. 99:59:59.999 --> 99:59:59.999 The Columbia River basalt group, 99:59:59.999 --> 99:59:59.999 a pile of lava rock more then 2 miles thick, 99:59:59.999 --> 99:59:59.999 is an exception to the global rule. 99:59:59.999 --> 99:59:59.999 Basalt lavas usually erupt in ocean basins, 99:59:59.999 --> 99:59:59.999 but these low silica lavas flooded North America from below. 99:59:59.999 --> 99:59:59.999 Much like a boat with a leak. 99:59:59.999 --> 99:59:59.999 They're similar flood in central India, southern Brazil, southern Africa, 99:59:59.999 --> 99:59:59.999 and central Siberia. 99:59:59.999 --> 99:59:59.999 In each case, very large volumes of fluid basaltic magma 99:59:59.999 --> 99:59:59.999 erupted rapidly from cracks and continents to form sheets of lava rock covering 99:59:59.999 --> 99:59:59.999 tens of thousands of square miles. 99:59:59.999 --> 99:59:59.999 The deep crack called fissures cracked the North American crust in south eastern 99:59:59.999 --> 99:59:59.999 Washington and eastern Oregon, starting 17.5 million years ago. 99:59:59.999 --> 99:59:59.999 Today many geologist agree that the fissures are directly related to the birth 99:59:59.999 --> 99:59:59.999 of a tectonic hot spot, 99:59:59.999 --> 99:59:59.999 beneath the out south-eastern Oregon 17.5 million years ago, 99:59:59.999 --> 99:59:59.999 and now located underneath Yellowstone National Park in Wyoming due to the 99:59:59.999 --> 99:59:59.999 North American plates slowly moving over the stationary hot spot. 99:59:59.999 --> 99:59:59.999 These spectacular basalt lava eruptions, 99:59:59.999 --> 99:59:59.999 more than 300 distinct events punctuated by thousands of years of quiet between 99:59:59.999 --> 99:59:59.999 each lava flood. 99:59:59.999 --> 99:59:59.999 Flooded and buried, the rugged inland landscape of the Pacific Northwest. 99:59:59.999 --> 99:59:59.999 Many of the biggest lava flows made it from their fissures in Idaho all the way 99:59:59.999 --> 99:59:59.999 to the tower cliffs of the Oregon coast. 99:59:59.999 --> 99:59:59.999 At Pasco Washington the stack of Columbia River basalt lava flows is 1,600 ft. thick 99:59:59.999 --> 99:59:59.999 more then 3 miles of lava. 99:59:59.999 --> 99:59:59.999 Sitting on top of a 17 million year old landscape. 99:59:59.999 --> 99:59:59.999 There isn't one visage to see all the lava flows, how could you? 99:59:59.999 --> 99:59:59.999 To truly grasp the scale of the lava stack one has to visit scattered canyons that 99:59:59.999 --> 99:59:59.999 expose a dozen flows at a time, like in the Yakama River Canyon, 99:59:59.999 --> 99:59:59.999 and the Columbia River Gorge, 99:59:59.999 --> 99:59:59.999 or in the Grand Coulee, 99:59:59.999 --> 99:59:59.999 which was carved just thousands of years ago, not millions. 99:59:59.999 --> 99:59:59.999 By the Ice Age floods. 99:59:59.999 --> 99:59:59.999 [ Music Plays ] 99:59:59.999 --> 99:59:59.999 During the Ice Age, a thick ice sheet covered much of North America, 99:59:59.999 --> 99:59:59.999 advancing and retreating in response to global climate. 99:59:59.999 --> 99:59:59.999 In Washington, Canadian ice crossed the border in different places. 99:59:59.999 --> 99:59:59.999 West of the cascade range, the Puget Lobe filled the Puget Lowland with 3,000 ft. 99:59:59.999 --> 99:59:59.999 of ice, above present day Seattle. 99:59:59.999 --> 99:59:59.999 With enormous erratics left behind 99:59:59.999 --> 99:59:59.999 after the ice melted back. 99:59:59.999 --> 99:59:59.999 Most Puget Sound residents live on complicated sets of Ice Age deposits. 99:59:59.999 --> 99:59:59.999 Glacial till, glacial outwash, that reveal ice on the move. 99:59:59.999 --> 99:59:59.999 Advancing and retreating with glacial licks riding the front of an active 99:59:59.999 --> 99:59:59.999 ice margin. 99:59:59.999 --> 99:59:59.999 East of the cascades, the Okanogan Lobe crept into north central Washington. 99:59:59.999 --> 99:59:59.999 Gorgeous glacial moraines and impressive glacial erratics 99:59:59.999 --> 99:59:59.999 have been sitting on the Waterville plateau for at least 12,000 years. 99:59:59.999 --> 99:59:59.999 During some of the Okanagan ice advances, the mighty Columbia River was diverted, 99:59:59.999 --> 99:59:59.999 and sent due south, through the Grand Coulee, 99:59:59.999 --> 99:59:59.999 and over dry falls. 99:59:59.999 --> 99:59:59.999 In northern Idaho, the Purcell Lobe combined with the rugged topography 99:59:59.999 --> 99:59:59.999 of the Bitterroot Mountains and blocked Montana's Clark Fork River, 99:59:59.999 --> 99:59:59.999 near present day Saint Point Idaho. 99:59:59.999 --> 99:59:59.999 Glacial Lake Missoula formed as glacial melt water backed up behind the ice 99:59:59.999 --> 99:59:59.999 dam forming a huge lake, more then 3,000 square miles of western Montana. 99:59:59.999 --> 99:59:59.999 Old shorelines of the lake are visible above the University of Montana. 99:59:59.999 --> 99:59:59.999 Faint water marks first noted in 1886 by T.C Chamberlin. 99:59:59.999 --> 99:59:59.999 The lake was 950 ft. deep at Missoula and twice that depth in neighboring valleys. 99:59:59.999 --> 99:59:59.999 And then it happened, Glacial Lake Missoula breeched the ice dam and raged 99:59:59.999 --> 99:59:59.999 across eastern Washington. 99:59:59.999 --> 99:59:59.999 Through the cascade range and reached the mighty Pacific Ocean. 99:59:59.999 --> 99:59:59.999 Up to 10 cubic miles per hour. 99:59:59.999 --> 99:59:59.999 A rate 10 times the combined flows of all the rivers on planet earth, 99:59:59.999 --> 99:59:59.999 surged through Eddy Narrows, and other narrow valleys in western Montana. 99:59:59.999 --> 99:59:59.999 When the huge lake suddenly drained, giant current ripples were created 99:59:59.999 --> 99:59:59.999 on the lake's floor. 99:59:59.999 --> 99:59:59.999 And the failed ice dam was replaced by a new one, 99:59:59.999 --> 99:59:59.999 and another Glacial Lake Missoula formed. 99:59:59.999 --> 99:59:59.999 Which led to the next Missoula flood. 99:59:59.999 --> 99:59:59.999 Drama repeated many times. 99:59:59.999 --> 99:59:59.999 Banded deposits at the bottom of Glacial Lake Missoula show the lake form dozens 99:59:59.999 --> 99:59:59.999 of times and released quickly over Washington each time. 99:59:59.999 --> 99:59:59.999 Rinse and repeat up to 100 times. 99:59:59.999 --> 99:59:59.999 These are slack water sediments from the Missoula floods. 99:59:59.999 --> 99:59:59.999 We're in Tammany Barge of south of Lewiston Idaho. 99:59:59.999 --> 99:59:59.999 Each of these is a separate Missoula flood. 99:59:59.999 --> 99:59:59.999 We're 150 miles upstream from Wallula gap that means water from Montana 99:59:59.999 --> 99:59:59.999 made it to Wallula gap and to back up this far up the snake river drainage. 99:59:59.999 --> 99:59:59.999 This is one event, still falling from the bottom of Lake Lewis. 99:59:59.999 --> 99:59:59.999 And another flood, and another flood. 99:59:59.999 --> 99:59:59.999 Now that's amazing. 99:59:59.999 --> 99:59:59.999 [ Music Plays ] 99:59:59.999 --> 99:59:59.999 Meanwhile, another Ice Age flood, the Bonneville flood, 99:59:59.999 --> 99:59:59.999 happened around the time of Missoula flooding. 99:59:59.999 --> 99:59:59.999 Lake Bonneville, and Ice Age predecessor to the Great Salt Lake. 99:59:59.999 --> 99:59:59.999 Filled and spilled out of Utah and into southern Idaho. 99:59:59.999 --> 99:59:59.999 The old shorelines of Lake Bonneville, 99:59:59.999 --> 99:59:59.999 ancient bathtub rings above Salt Lake city were first described by G.K Gilbert 99:59:59.999 --> 99:59:59.999 in 1890. 99:59:59.999 --> 99:59:59.999 A desert under water. 99:59:59.999 --> 99:59:59.999 Once the Bonneville basin was filled to capacity, 17,400 years ago. 99:59:59.999 --> 99:59:59.999 The erosion of loose rocky material at Red Rock Pass led to the rapid 99:59:59.999 --> 99:59:59.999 lowering of Bonneville, 99:59:59.999 --> 99:59:59.999 and the Bonneville flood surged north into Idaho snake river plane. 99:59:59.999 --> 99:59:59.999 Unlike the Missoula floods and it's ice dam, 99:59:59.999 --> 99:59:59.999 the Bonneville flood involved a lot more water then the biggest Missoula flood. 99:59:59.999 --> 99:59:59.999 Probably about twice as much water. 99:59:59.999 --> 99:59:59.999 But the constriction at Red Rock Pass that had spilled out through 99:59:59.999 --> 99:59:59.999 was much smaller then where the ice bridge was breached in northern Idaho. 99:59:59.999 --> 99:59:59.999 The Bonneville water came out slower. 99:59:59.999 --> 99:59:59.999 So while the volume of Bonneville water was twice as large as the largest Missoula 99:59:59.999 --> 99:59:59.999 flood, the peak discharge was only about 1/10 of the largest Missoula flood. 99:59:59.999 --> 99:59:59.999 Each Missoula flood lasted for days. 99:59:59.999 --> 99:59:59.999 The Bonneville flood lasted for weeks. 99:59:59.999 --> 99:59:59.999 Gorgeous deposit. 99:59:59.999 --> 99:59:59.999 All these rocks were deposited by the Bonneville flood, 99:59:59.999 --> 99:59:59.999 just one flood, right? 99:59:59.999 --> 99:59:59.999 Just a few weeks all these rocks were dropped. 99:59:59.999 --> 99:59:59.999 17,400 years ago. 99:59:59.999 --> 99:59:59.999 Sitting on top are Missoula flood sediment, 99:59:59.999 --> 99:59:59.999 there are 20 different Missoula food layers here. 99:59:59.999 --> 99:59:59.999 So at this spot, we had 20 Missoula floods after the Bonneville flood. 99:59:59.999 --> 99:59:59.999 So how do we know this stuff? 99:59:59.999 --> 99:59:59.999 Carefully crafted geographic maps, 99:59:59.999 --> 99:59:59.999 made in the field by generations of geologists have measured both the 99:59:59.999 --> 99:59:59.999 erosional chasms cut by the floods 99:59:59.999 --> 99:59:59.999 and have catalogued piles of rocks and layers of sediment that the floods have 99:59:59.999 --> 99:59:59.999 left behind. 99:59:59.999 --> 99:59:59.999 Water is scarce here in eastern Washington today, it's a desert. 99:59:59.999 --> 99:59:59.999 But the landscape has a strong stamp of water, and lots of it. 99:59:59.999 --> 99:59:59.999 The Ice Age floods tore up the crust, revealing the Columbia River salt lavas 99:59:59.999 --> 99:59:59.999 that flowed millions of years earlier. 99:59:59.999 --> 99:59:59.999 Leaving dramatic landmarks like the Grand Coulee, Dry Falls, the crisscrossing 99:59:59.999 --> 99:59:59.999 flood paths of Drumheller Channels, 99:59:59.999 --> 99:59:59.999 and Palouse Falls. 99:59:59.999 --> 99:59:59.999 Tons of bedrock were hauled away by the floods, 99:59:59.999 --> 99:59:59.999 as the water exploited deep cracks in the bedrock. 99:59:59.999 --> 99:59:59.999 Box shaped valleys called Coulees formed, 99:59:59.999 --> 99:59:59.999 where the most aggressive water did the most digging. 99:59:59.999 --> 99:59:59.999 Rock precut and hauled off by the flood water cruising at more then 60 mph 99:59:59.999 --> 99:59:59.999 in places. 99:59:59.999 --> 99:59:59.999 And there are amazing potholes drilled by the swirling dynamics of floodwater. 99:59:59.999 --> 99:59:59.999 Often revealed in the vertical Coulee walls, cut by the erosive ice age floods. 99:59:59.999 --> 99:59:59.999 Lost worlds hidden in the salt bedrock. 99:59:59.999 --> 99:59:59.999 At the bottom of key lava flows, pillow structures were water battled lake water, 99:59:59.999 --> 99:59:59.999 and petrified logs, provide detailed clues to the ancient forests and lakes that 99:59:59.999 --> 99:59:59.999 thrived in eastern Washington, during the thousands of years between 99:59:59.999 --> 99:59:59.999 devastating lava floods that repeatedly buried vibrant thriving ecosystems 99:59:59.999 --> 99:59:59.999 in thick lava. 99:59:59.999 --> 99:59:59.999 A landscape full of life, with each lava burial creating a lifeless, 99:59:59.999 --> 99:59:59.999 featureless, moonscape. 99:59:59.999 --> 99:59:59.999 Millions of years later, each of the 100 floods made it to the Pacific Ocean, 99:59:59.999 --> 99:59:59.999 but does that mean that each flood maintained 99:59:59.999 --> 99:59:59.999 a high speed for Montana to the Coast? 99:59:59.999 --> 99:59:59.999 No, like today there are many obstacles to negotiate on a journey from the 99:59:59.999 --> 99:59:59.999 Rocky's to the Pacific Ocean. 99:59:59.999 --> 99:59:59.999 The Ice Age floods had the same roadblocks. 99:59:59.999 --> 99:59:59.999 Wallula Gap, eastern gateway to the Columbia River gorge was a bottleneck 99:59:59.999 --> 99:59:59.999 for the floods. 99:59:59.999 --> 99:59:59.999 Every drop of Ice Age flood water needed to squeeze through the gap, 99:59:59.999 --> 99:59:59.999 which was the secret passage through the cascades, 99:59:59.999 --> 99:59:59.999 and onto the Pacific. 99:59:59.999 --> 99:59:59.999 At Wallula Gap, flood water waiting to enter became Lake Lewis. 99:59:59.999 --> 99:59:59.999 The bigger the flood, the larger the Lake Lewis. 99:59:59.999 --> 99:59:59.999 Calm and dirt brown with suspended loose, 99:59:59.999 --> 99:59:59.999 which crept up neighboring river valleys. 99:59:59.999 --> 99:59:59.999 The Yakama river, the Walla Walla River, and the Snake River. 99:59:59.999 --> 99:59:59.999 The water of Lake Lewis must have gotten clear with each passing day. 99:59:59.999 --> 99:59:59.999 The fine grain material falling out of the lake and onto the lake bottom, 99:59:59.999 --> 99:59:59.999 the result? 99:59:59.999 --> 99:59:59.999 Impressive layers of slack water sediment. 99:59:59.999 --> 99:59:59.999 Each layer from each Lake Lewis. 99:59:59.999 --> 99:59:59.999 And the surface of Lake Lewis was full of icebergs. 99:59:59.999 --> 99:59:59.999 How do we know that? 99:59:59.999 --> 99:59:59.999 There are large erratics all across central Washington that mark spots where 99:59:59.999 --> 99:59:59.999 the icebergs drifted to the edge of the lake. 99:59:59.999 --> 99:59:59.999 Upstream some of the largest Missoula floods came down of Columbia River 99:59:59.999 --> 99:59:59.999 over Wenatchee. 99:59:59.999 --> 99:59:59.999 And downstream Wenatchee, West bar is a classic location to ponder the speed 99:59:59.999 --> 99:59:59.999 and depth of the floods. 99:59:59.999 --> 99:59:59.999 You old enough to remember the media frenzy over Evil Kneviel daredevil jump 99:59:59.999 --> 99:59:59.999 over the Snake River Canyon? 99:59:59.999 --> 99:59:59.999 That's the canyon that the Bonneville flood, 99:59:59.999 --> 99:59:59.999 the one from Utah flowed through, remember? 99:59:59.999 --> 99:59:59.999 Lake Bonneville spilling over Red Rock Pass and into the Snake River drainage 99:59:59.999 --> 99:59:59.999 of Southern Idaho. 99:59:59.999 --> 99:59:59.999 The floods scoured canyon walls and gouged holes in the canyon floor. 99:59:59.999 --> 99:59:59.999 Creating Shoshone Falls and Twin Falls. 99:59:59.999 --> 99:59:59.999 The water ripping through the narrow regions of the canyon, 99:59:59.999 --> 99:59:59.999 dislodging the salt boulders, and tumbling them down stream. 99:59:59.999 --> 99:59:59.999 Where the flood channel widened, 99:59:59.999 --> 99:59:59.999 the boulders were heaped into impressive piles. 99:59:59.999 --> 99:59:59.999 The Bonneville flood then entered Hells Canyon, 99:59:59.999 --> 99:59:59.999 the deepest canyon in North America, 99:59:59.999 --> 99:59:59.999 before joining the channeled scab lands of eastern Washington. 99:59:59.999 --> 99:59:59.999 The deposits left by the flood give us reach detail. 99:59:59.999 --> 99:59:59.999 Giant flood bars, more then 100 ft. above todays Snake River, 99:59:59.999 --> 99:59:59.999 sit in narrow stretches of Hells Canyon, showing us where the flood got choked up. 99:59:59.999 --> 99:59:59.999 Creating flood stages hundreds of feet feet high behind it. 99:59:59.999 --> 99:59:59.999 In shlock water sediments are found all through the Bonneville flood route, 99:59:59.999 --> 99:59:59.999 but not the repetitive shlock water sediments, like the Missoula Floods, 99:59:59.999 --> 99:59:59.999 remember, there was just one Bonneville flood. 99:59:59.999 --> 99:59:59.999 All told, 100 different layers of shlock water sediment have been documented 99:59:59.999 --> 99:59:59.999 in eastern Washington. 99:59:59.999 --> 99:59:59.999 100 Missoula floods! 99:59:59.999 --> 99:59:59.999 But there is work yet to be done. 99:59:59.999 --> 99:59:59.999 What's the age of each flood? 99:59:59.999 --> 99:59:59.999 Is a more complete record of the Ice Age flood sitting in the Pacific Ocean at the 99:59:59.999 --> 99:59:59.999 mouth of the Columbia River? 99:59:59.999 --> 99:59:59.999 And with the floods of lava, why did such pure oceanic lava flood a 99:59:59.999 --> 99:59:59.999 continental scene? 99:59:59.999 --> 99:59:59.999 And how did the lava stay molten for 300 miles? 99:59:59.999 --> 99:59:59.999 Much yet to be determined. 99:59:59.999 --> 99:59:59.999 With our huge floods, in the Pacific North West. 99:59:59.999 --> 99:59:59.999 [ Outro Music Plays ]