Sep 29, 2023 08:55 PM
https://www.sciencenews.org/article/new-...s-asteroid
INTRO: For decades, scientists have vigorously debated whether an asteroid strike or massive volcanic eruptions ended the reign of the dinosaurs 66 million years ago. Roughly three-quarters of all life on Earth, including all nonbird dinosaurs, went extinct at that time, putting a dramatic end to the Cretaceous Period.
Now, researchers have devised a new way to identify the true dino killer: Let computers take a crack at it.
The result of that computational effort suggests that massive bursts of gas produced by the Deccan Traps eruptions were solely capable of causing the extinction event, the team reports in the Sept. 29 Science. Those eruptions, which lasted roughly a million years, spewed massive amounts of gas-ridden lava across what’s now western India.
“Rather than come at it from the perspective of ‘let’s blame the volcanoes and explain why’ or ‘let’s blame asteroids and explain why,’” the goal was to have as little human input or bias in the process as possible, says Dartmouth computational geologist Alexander Cox.
The idea was to work backward using evidence from the scene of the crime. Scientists do have a smoking gun: Cores drilled into deep-ocean sediments contain geologic data pointing to deadly bursts of gas to the atmosphere, particularly planet-warming carbon dioxide and ocean-acidifying sulfur dioxide.
But such gases could have come from the asteroid strike, as it incinerated rocks on the planet’s surface, Cox says, or from the Deccan Traps eruptions.
Previous efforts to understand the source of the gases have focused on timing, examining pulses of lava emplacement during the Deccan Traps eruptions, Cox says (SN: 2/21/19). But “we only have best guesses about how much initial gas was in [the lava].” Estimated carbon dioxide concentrations in the lava, for example, vary by an order of magnitude, he says. “So that’s why we approached this from a gas-emissions perspective rather than a lava-flow perspective.”
To disentangle the relative contributions of each potential culprit, Cox and Dartmouth geologist C. Brenhin Keller used a statistical model called a Markov chain Monte Carlo approach. That approach systematically considers the probability of different scenarios of gas emissions from the different sources, converging toward possible solutions as the results of the simulations move closer and closer to geologic observations... (MORE)
INTRO: For decades, scientists have vigorously debated whether an asteroid strike or massive volcanic eruptions ended the reign of the dinosaurs 66 million years ago. Roughly three-quarters of all life on Earth, including all nonbird dinosaurs, went extinct at that time, putting a dramatic end to the Cretaceous Period.
Now, researchers have devised a new way to identify the true dino killer: Let computers take a crack at it.
The result of that computational effort suggests that massive bursts of gas produced by the Deccan Traps eruptions were solely capable of causing the extinction event, the team reports in the Sept. 29 Science. Those eruptions, which lasted roughly a million years, spewed massive amounts of gas-ridden lava across what’s now western India.
“Rather than come at it from the perspective of ‘let’s blame the volcanoes and explain why’ or ‘let’s blame asteroids and explain why,’” the goal was to have as little human input or bias in the process as possible, says Dartmouth computational geologist Alexander Cox.
The idea was to work backward using evidence from the scene of the crime. Scientists do have a smoking gun: Cores drilled into deep-ocean sediments contain geologic data pointing to deadly bursts of gas to the atmosphere, particularly planet-warming carbon dioxide and ocean-acidifying sulfur dioxide.
But such gases could have come from the asteroid strike, as it incinerated rocks on the planet’s surface, Cox says, or from the Deccan Traps eruptions.
Previous efforts to understand the source of the gases have focused on timing, examining pulses of lava emplacement during the Deccan Traps eruptions, Cox says (SN: 2/21/19). But “we only have best guesses about how much initial gas was in [the lava].” Estimated carbon dioxide concentrations in the lava, for example, vary by an order of magnitude, he says. “So that’s why we approached this from a gas-emissions perspective rather than a lava-flow perspective.”
To disentangle the relative contributions of each potential culprit, Cox and Dartmouth geologist C. Brenhin Keller used a statistical model called a Markov chain Monte Carlo approach. That approach systematically considers the probability of different scenarios of gas emissions from the different sources, converging toward possible solutions as the results of the simulations move closer and closer to geologic observations... (MORE)