Around 66 million years ago a giant space rock hit the Earth hard destroying more than a half of life on our planet and presumably leading to the extinction of land-dwelling dinosaurs. However, the crater left by the intruder’s impact has now revealed that it was not only the asteroid’s mass that led to such dramatic consequences.
A team of researchers analysed the Chicxulub crater in Mexico with the help of 3D simulations to conclude that the asteroid that led to mass intinction of dinos more than six million decades ago struck the Earth at an angle of up to 60 degrees, which was a worst-case scenario for the planet’s inhabitants at that time, a new study published by Nature Communications revealed.
“It makes it even more remarkable that life survived and recovered as rapidly as it did”, the researcher added, noting that the impact from the intruder was “worse” than the scientists initially thought.
According to the team, which also included researchers from the University of Freiburg and the University of Texas at Austin, if the impact has happened at shallower or near-vertical angles, the amount of dust or other debris put into atmosphere as a result of the collision could have been significantly lower, potentially leading to different results.
The research concluded that the space rock approached the Earth from the northeast, leading to the emission of sulphur in the air in the form of tiny bits, thus blocking the Sun for some time and resulting in the cooling of our planet. The scientists are still not able to understand why the event led to the extinction of only certain species, while 25% of life on the Earth survived, but maybe future analyses of the 200-kilometre-wide Chicxulub crater in southern Mexico that emerged as the result of the impact, will shed some more light on this question.
Sourse: sputniknews.com