Earth May Have Had a Ring Like Saturn – and It Caused Havoc

Earth May Have Had a Ring Like Saturn – and It Caused Havoc

Saturn's rings are famous, but new evidence suggests that Earth might have also had a ring at some point in its history. This ring would have caused significant impacts on the surface.
An artist’s impression of Earth with a ring – a phase suggested by new evidence
Oliver Hull

New Evidence of Earth’s Potential Ring System

Saturn’s rings are famous, but new evidence suggests that Earth might have also had a ring at some point in its history. This ring would have caused significant impacts on the surface.

We know that Earth has gone through many phases throughout its existence. Initially, it was covered in magma oceans, and later it became something of a “giant snowball.” Over hundreds of millions of years, continents formed, separated, and rejoined. The idea that Earth may have had a ring during a certain period is relatively new.

Researchers from Monash University in Australia have hypothesized that a rocky ring formed around Earth about 466 million years ago, remaining there for several million years. This theory is the result of meticulous geological research.

During the Ordovician period, there was an increase in the number of impact craters on Earth. Scientists mapped 21 known craters from that time and used models of tectonic plate movements to locate where they were at the time of the impact.

Unusual Equatorial Meteorite Impact Pattern

Interestingly, all the impacts occurred within 30 degrees of the equator. Normally, meteorites would strike Earth at random locations, which makes this pattern quite intriguing. However, it could still be a sampling error.

To verify, researchers calculated which areas of Earth’s surface could preserve these craters for so long. They focused on stable regions, dating back to before the mid-Ordovician, and excluded areas that had been buried, eroded, or affected by tectonic activity. The best-preserved areas were found in Western Australia, Africa, parts of North America, and Europe.

When they analyzed these areas in the past, tectonic models showed that only 30% of the preserved land was near the equator during the Ordovician. The fact that all the craters were located in this small region is, according to the researchers, a statistical anomaly.

Hypothesis of Earth’s Rocky Ring Formation

What could explain the concentration of meteorites in this equatorial zone? One hypothesis is that Earth captured an asteroid around 466 million years ago, which disintegrated, forming a ring. Over time, fragments from this ring would have rained down on the planet, concentrating in the equatorial region.

This theory could also explain other mysteries from that era. The meteorite fragments found in the craters show signs of having spent little time in space before striking Earth, consistent with the idea that the material came from a ring formed by a recently broken-up asteroid.

Potential Link Between the Ring and the Hirnantian Ice Age

About 20 million years later, Earth entered the Hirnantian Ice Age, with extremely low temperatures. A ring around the equator, blocking part of the sunlight, might have contributed to this global cooling.

The idea that a ring system could have influenced global temperatures adds a new layer to our understanding of how extraterrestrial events might have shaped Earth’s climate,” said Professor Andy Tomkins, lead author of the study.

This hypothesis raises the possibility that rings are a temporary phase in the life of planets. Saturn’s rings, for example, may only be 10 million years old and could disappear in another 100 million years. Mars, currently tearing apart one of its moons, may form a new ring in 20 to 40 million years.

The next step in the research is to model how asteroids break up and form rings, as well as investigate how these rings evolve over time and their impact on Earth’s climate.


Read the original article on: New Atlas

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