The Ghost of Ancient Earth’s Magma Oceans Found in Greenland Rocks – Singularity Hub

Our planets history is written in its rocks. You can traverse eons by brushing your fingers over the layers of a cliff wall. But beyond a certain point, the record goes blank. Though the Earth is roughly 4.5 billion years old, the oldest-known rocks date back to only around 4 billion years ago. The relentless motions of Earths tectonic plates have recycled its surface.

Still, chemical clues can take us further back in time to when young Earth was a lava planet. Scientists believe a series of mammoth impactsthe last of which formed the moonliquified the surface and formed planet-wide magma oceans hundreds of miles deep. The rocks from this fiery era are long gone, but their ghost lives on.

In a new study, published in Science Advances, University of Cambridge scientists say theyve found evidence of ancient Earths magma oceans in 3.7-billion-year-old rocks in Greenland.

As the magma oceans gradually cooled and crystallized into rock, the planet we knowits internal structure, surface, and atmospherebegan to take form. Understanding this phase can help explain how Earth evolved from a hell-planet to the cradle of life.

But its no easy task.

There are few opportunities to get geological constraints on the events in the first billion years of Earths history. Its astonishing that we can even hold these rocks in our handslet alone get so much detail about the early history of our planet, said lead author Dr. Helen Williams, from Cambridges Department of Earth Sciences.

As the Earth cooled and crystalized, scientists believe dense chunks of newly solidified crystals sank deep into the Earths lower mantle, near the core of the planet. Its thought they may even exist today in ancient crystal graveyards forever beyond our reach.

But what if remnants, through the ages, rose up through the mantle and re-emerged on the surface by way of volcanic eruptions? The trip through the mantle would no doubt thoroughly transform them, but in theory, chemical traces of their origins would remain.

It was this theory the Cambridge team went looking to prove.

The driving question that motivated me was, if we think the magma ocean stage was important to the Earths history, why is there no geological evidence for it? Williams told Gizmodo. What if we actually tried to directly hunt for it?

The rocks hail from Greenlands Isua supercrustal belt. The basalt therea kind of volcanic rockis famous for being the oldest on Earth, yielding up evidence for the earliest life on our planet, early plate tectonics, and now, it appears, an even more ancient era.

It was a combination of some new chemical analyses we did and the previously published data that flagged to us that the Isua rocks might contain traces of ancient material, said co-author Dr. Hanika Rizo of Carleton University.

Using forensic chemical analysis and thermodynamic modeling, the team traced the Greenland rocks origins and their path to the surface.

When rock heats up in the planets interior it begins to rise through the mantle, eventually emerging in volcanic events. Isotopes in the rock can act as a record of its journey, a bit like stamps in a passport. In this case, the scientists found the stamp of unique iron isotopes likely formed in an extremely high-pressure homeland some 430 miles below the surfacea region scientists also expect houses those magma ocean crystal graveyards.

Those samples with the iron fingerprint also have a tungsten anomalya signature of Earths formationwhich makes us think that their origin can be traced back to these primeval crystals, Williams said.

Further study of their chemistry revealed a tortuous journey that included several phases of cooling, crystalizing, heating, and remelting.

Yet, despite their transformation by events in the interior, Williams wrote in aConversationarticle on the study that the rocks that emerged, located in present-day Greenland, still retain chemical signatures that connect them to Earths magma-covered past.

While discovering a new geosignature of Earths ancient past is an exciting step, theres plenty more work to do. How long did magma oceans last on the planet, for example, and how much of the planet did they cover? Now that we know what to look for, Williams says we might search other volcanic hotspots in Hawaii or Iceland.

Its a painstaking investigation, but bit by bit, the Earths early history is being laid bare. Its long-held secrets may help us explain how the planet we know today, one so well suited for living things, formed out of the cauldron of the early solar system.

The more we know about our own planets history, the more well understand how it and other planets form and, by extension, how life began hereand, perhaps, elsewhere too.

Image Credit: Artists impression of exoplanet CoRoT-7b / ESO/L. Calada

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The Ghost of Ancient Earth's Magma Oceans Found in Greenland Rocks - Singularity Hub