Extreme Climate Survey
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[The findings] “It’s really building to an emerging picture that’s a little more nuanced of an extinction than we’d previously appreciated,” says Erik Gulbranson, a sedimentary geochemist at Gustavus Adolphus College in Saint Peter, Minn., who was not involved in the the new study.
Researchers have wondered why the Great Dying that took place at the border of the Permian and Triassic periods was so brutal to life on Earth. We got this intense global warming, but we have other episodes of global warming in the geological record that don’t do anything as bad to ecosystems as this, says paleontologist David Bond at the University of Hull in England.
While a sharp rise in sea surface temperature plus the resulting collapse in the ability of warmer oceans to hold dissolved oxygen would have been terrible for ocean organisms, it was not clear what drove the extinction of life on earth or why these organisms couldn’t just move around in the refrigerator. poles.
Part of the answer may lie in much shorter swings in paleoclimate.
Species care about climate, but what they also really care about is weather, says Alexander Farnsworth, a paleoclimate modeler at the University of Bristol in England. Such changes involve climate oscillations on the scale of years rather than hundreds of millennia or more. For example, today’s El Nio-Southern Oscillation, a periodic warming of the tropical Pacific Ocean that brings heat and dryness to northern North America, dampens the Atlantic hurricane season, and causes droughts and floods globally lasting roughly a year (SN: 2/13/23).
Farnsworth, Bond and an international team of colleagues reconstructed what these climate patterns looked like more than 250 million years ago. The team calculated seawater temperatures using the ratios of different forms of oxygen in the fossilized teeth of conodonts, ancient animals such as fish. With this data plus newly updated computer simulations of Earth’s atmospheric and ocean circulation models, the team produced a more cohesive picture of the climate during the Great Dying. This was helped, Farnsworth says, by a newer and more accurate understanding of what continents and ocean basins looked like at the end of the Permian, which affects global atmospheric and oceanic circulation.
When carbon dioxide levels initially doubled from about 410 to 860 parts per million and global temperatures rose, periods of El Niolike warming originating primarily in the giant Permian ocean Panthalassia grew more intense, the team found. (In comparison, current CO levels are hovering around 422 ppm.) Over time, the oscillations also lengthened, sometimes stretching for nearly a decade.
The effects of these mega El Nios would have been too rapid for terrestrial organisms to endure. As the carbon dioxide-sucking forests burned and died, fewer greenhouse gases were pulled from the atmosphere, Farnsworth says, creating a self-perpetuating cycle as volcanoes continued to pump out the warming gases.
You get more warming, more vegetation extinctions, stronger El Nios, higher global temperatures, higher weather extremes again, leading to more extinctions, Farnsworth says. Large areas of the globe would have succumbed to searing heat, drought and fire in dramatic floods.
The heat eventually invaded higher latitudes, leaving few places to escape an increasingly hostile atmosphere.
It got really hot everywhere, and that’s why [species] it just couldn’t migrate north and south, says Bond.
In the end, many species simply could not adapt to this climatic roller coaster.
Now that the findings paint a higher-resolution picture of how warming accelerated a mass extinction at the end of the Permian, there may be a way to see these rapid climate swings in the fossil record itself. Gulbranson points out that annual records preserved in fossil cave stalactites and tree rings may show evidence of mega El Nios.
We must trace these signals in the fossil record. We should see them in organisms that lived and went extinct, he says.
Moving forward, Bond is curious about what innate physical and ecosystem traits made certain periods in Earth’s history more resilient to the ravages of climate chaos and others more vulnerable to mass extinction.
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