“The Invisible Extinction” –Before the Dinosaurs, Earth Lost 3/4’s of It’s Life

Earth from Space

 

“This shows that even when biology on Earth is comprised entirely of microbes, you can still have what could be considered an enormous die-off event that otherwise is not recorded in the fossil record,” said Stanford University’s Malcolm Hodgskiss about clues from Canadian rocks formed billions of year ago that reveal a previously unknown loss of life when oxygen levels plummeted, resulting in a die-off likely greater than the extinction of the dinosaurs.

Rather than prowling animals, this die-off involved minuscule microorganisms that shaped the Earth’s atmosphere and ultimately paved the way for those larger animals to thrive.

Invisible Clues

Because this time period preceded complex life, researchers cannot simply dig up fossils to learn what was living two billion years ago. Even clues left behind in mud and rocks can be difficult to uncover and analyze.

Instead, the group turned to barite, a mineral collected from the Belcher Islands in Hudson Bay, Canada, that encapsulates a record of oxygen in the atmosphere. Those samples revealed that Earth experienced huge changes to its biosphere—the part of the planet occupied by living organisms—ending with an enormous drop in life approximately 2.05 billion years ago that may also be linked to declining oxygen levels.

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“The fact that this geochemical signature was preserved was very surprising,” co-author Hodgskiss said. “What was especially unusual about these barites is that they clearly had a complex history.”

Looking at the Earth’s productivity through ancient history provides a glimpse into how life is likely to behave over its entire existence—in addition to informing observations of atmospheres on planets outside our solar system.

“The size of the biosphere through geologic time has always been one of our biggest questions in studying the history of the Earth,” said Erik Sperling, an assistant professor of geological sciences at Stanford who was not involved with the study. “This new proxy demonstrates how interlinked the biosphere and levels of oxygen and carbon dioxide in the atmosphere are.”

Biological Consequences

This relationship between the proliferation of life and atmospheric oxygen has given researchers new evidence of the hypothesized “oxygen overshoot.” According to this theory, photosynthesis from ancient microorganisms and the weathering of rocks created a huge amount of oxygen in the atmosphere that later waned as oxygen-emitting organisms exhausted their nutrient supply in the ocean and became less abundant.

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This situation is in contrast to the stable atmosphere we know on Earth today, where the oxygen created and consumed balances out. The researchers’ measurements of oxygen, sulfur and barium isotopes in barite support this oxygen overshoot hypothesis.

The research helps scientists hone their estimates of the size of the oxygen overshoot by revealing the significant biological consequences of oxygen levels above or below the capacity of the planet.

“Some of these oxygen estimates likely require too many microorganisms living in the ocean in Earth’s past,” said co-lead author Peter Crockford, a postdoctoral researcher at the Weizmann Institute of Science and Princeton University. “So we can now start to narrow in on what the composition of the atmosphere could have been through this biological angle.”

Co-authors include researchers from Nanjing University, the University of Colorado Boulder and Woods Hole Oceanographic Institution.

The Daily Galaxy via Stanford University

Image top of page: Canadian Space Agency

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