Earth had complex ecosystems earlier than thought

Field photo of a fish fossil from the Baishuilong section. (Credit: Xu Dai)

A new fossil discovery reveals complex ecosystems existed on Earth much earlier than previously thought.

The discovery challenges understanding of how quickly life recovered from the greatest mass extinction in Earth’s history.

About 250 million years ago, the Permian-Triassic mass extinction killed over 80% of the planet’s species. In the aftermath, scientists believe that life on Earth was dominated by simple species for up to 10 million years before more complex ecosystems could evolve.

Until now, scientists have long theorized that scorching hot ocean conditions resulting from catastrophic climate change prevented the development of complex life after the mass extinction. This idea is based on geochemical evidence of ocean conditions at the time. Now the discovery of fossils dating back 250.8 million years near the Guizhou region of China suggests that complex ecosystems were present on Earth just one million years after the Permian-Triassic mass extinction, which is much earlier than previously thought.

“The fossils of the Guizhou region reveal an ocean ecosystem with diverse species making up a complex food chain that includes plant life, boney fish, ray-finned fish, crabs, lobsters, shrimp, and mollusks. In all, our team discovered 12 classes of organisms and even found fossilized feces, revealing clues about the diets of these ancient animals,” says Morgann Perrot, a former postdoctoral researcher at McGill University, now at Université du Québec à Montréal.

Previously, it was thought that complex ecosystems would need five to 10 million years to evolve after an extinction. However, the researchers found that the specimens in the Guizhou region evolved much quicker than that by using radiometric dating to date the rocks where the fossils were discovered.

“All of this has implications for our understanding of how quickly life can respond to extreme crises. It also necessitates a re-evaluation of early Triassic ocean conditions,” says Perrot, whose research focuses on earth sciences and geochronology.

The research appears in Science.

Source: McGill University