3.5 billion years ago, oceans were cool, not hot

Idea that Earth’s ancient seas were searing and inhospitable has hit an icy patch

 HOT IN SPOTS  Oxygen isotope data and field evidence from this chert in the Barberton Greenstone Belt in South Africa shows that, billions of years ago, the chert was altered and heated by localized hydrothermal activity on the ocean floor, not from a globally hot ocean. 

About 3.5 billion years ago, Earth’s oceans were cool, not inhospitably hot as previously thought. In fact, the entire planet at the time was probably locked in a cold snap that lasted at least 30 million years, a new study concludes. The findings, published online February 26 in Science Advances, could change the view of Earth’s ancient climate and life’s earliest years.

“This is the first evidence that over the entire [last] 3.5 billion years, Earth has operated within a temperature range that suits life,” says Maarten de Wit, a geologist at Nelson Mandela Metropolitan University in Port Elizabeth, South Africa.

Evidence for this big chill was found in South Africa’s Barberton Greenstone Belt, which contains some of the oldest, best preserved rocks on Earth. Along with Harald Furnes, a geologist at the University of Bergen in Norway, de Wit spent six years mapping and sampling the Barberton. The researchers studied volcanic rock and a kind of silica called chert that formed deep underwater. They also studied shallower sedimentary and volcanic rocks deposited 30 million years after the deep ocean rocks.

The researchers analyzed hundreds of these rock samples for the concentration of oxygen-18 isotopes, an indicator of what the temperature was like when the rocks formed. They also discovered in the younger rocks diamictite — a clay-rich sedimentary rock typically formed in glacial environments — and in the older rocks gypsum, which 3.5 million years ago would have formed only in deep, cold seas. These findings suggest that both the shallow environment and deep waters were cool. Ambient ocean temperatures must have been close to 0°Celsius, de Wit says.  

Paleomagnetic data point to a colder-than-expected global environment, too, de Wit and Furnes found. As volcanic rock cools, minerals within the rock capture the prevailing magnetic pole direction, which reverses every few hundred thousand years. The data can be used to reconstruct the latitude at which rocks formed — in this case, a nearly tropical 20° to 30°. “Because there was ice near sea level at low latitudes,” de Wit says, “the oceans and atmosphere were globally likely to be cold.”

What’s more, de Wit and Furnes figured out why previous researchers had interpreted ocean temperatures to be 30° C to 80° C during this time (compared with near 0° C to about 16° C for modern oceans). Two periods of searing-hot hydrothermal activity had cooked both the seafloor cherts and the surface glacial sediments. In the older seafloor sediments from the Barberton, the team discovered hard evidence for hydrothermal vents. Earlier studies had focused mainly on oxygen isotopes from limited samples that happened to have been strongly affected by this hydrothermal activity, and researchers had not recognized that the results revealed local, not ambient, ocean temperatures. 

That, says de Wit, was like looking at data from Yellowstone hot springs and extending it to an entire ocean. By sampling a much broader area, he and Furnes determined that the superheating effects of hydrothermal activity had been strictly local. “You really have to map carefully and do a lot of isotope follow-up work to test it all,” he says. 

The study has implications for how life may have evolved. While hot oceans would have been largely inhospitable, de Wit says that hydrothermal fields in a cool ocean would have provided a nurturing environment for bacteria, just as scientists see today around deep ocean hydrothermal vents.

“I believe this study is quite significant,” says Yale University geochemist Ruth Blake, who has studied the Barberton, too. The researchers “present compelling new evidence that advances our understanding of one of the most highly-debated periods in Earth's history.” 

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