The second study provides evidence of a massive earthquake that shook the planet for weeks or even months after the initial impact. “This tsunami was strong enough to disturb and erode sediments in ocean basins halfway around the globe, leaving either a gap in the sedimentary records or a jumble of older sediments,” said Molly Range, lead author of the study.īut of course, the effects would linger for much longer. In contrast, the South Atlantic, North Pacific, Indian and Mediterranean oceans had the fewest disruptions. The team examined the sediments deposited around the K-Pg boundary at the end of the Cretaceous period, and found large numbers of sites with interrupted boundaries in the North Atlantic and South Pacific oceans, indicating the tsunamis hit these areas the hardest. These simulations were backed up by analysis of geological records. By the 24-hour mark, the waves had essentially circled the globe, across the Pacific from the east and the Atlantic from the west to meet in the Indian Ocean from both sides. Ten minutes after impact, a ring-shaped tsunami stretching 1.5 km (0.9 miles) high began to sweep across the ocean.Īfter one hour, the tsunami had passed from the Gulf of Mexico into the North Atlantic Ocean, reaching the Pacific after four hours. Within the first three minutes, a wall of water an astonishing 4.5 km (2.8 miles) high was formed from ejected material, which quickly fell back to the surface. From this, the team could track the waves produced in the minutes and hours after impact. The simulations were built on data from previous studies – it modeled an asteroid 14 km (8.7 miles) wide, traveling at 43,200 km/h (26,800 mph), which struck granitic crust covered with thick sediments and shallow ocean. The first, led by scientists at the University of Michigan, produced a global simulation of the tsunamis that followed the impact, and backed it up with analysis of geological records from 120 sites around the world. The two new studies have found further evidence of the destruction that followed. Increasingly, scientists are finding specific evidence of what happened in the immediate aftermath of the impact, including a mass grave of fish that were flung out of water and choked to death in molten glass rain. Ultimately, the event spelled doom for around three quarters of all life on Earth, most famously the dinosaurs but also 93% of mammals and most marine life. That disrupted photosynthesis, killing off plants and causing the food chain to collapse. Oceans became too acidic for many lifeforms, and huge amounts of soot and rock were blasted into the atmosphere, blocking out the Sun for as long as 18 months. This is known to have triggered a cascade of environmental disasters including earthquakes, tsunamis, volcanic eruptions and wildfires around the world. The Cretaceous period came to an abrupt end when a 10-km (6.2-mile)-wide asteroid (or swarm of asteroids, or maybe a comet fragment) smashed into what is now the Yucatan peninsula in Mexico. Now a pair of new studies has identified more evidence for just how bad things got, as the impact triggered global tsunamis almost a mile high and mega-earthquakes that rumbled for months afterwards. One of planet Earth’s single worst days ever occurred around 66 million years ago, when a huge asteroid slammed into Earth and wiped out most life, including the dinosaurs.
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