BREAKING NEWS: New Study Compares Hadean Earth to Modern Earth
A new study compares Hadean Earth (more than four billion years ago) to the modern Earth that we are familiar with today. People have long thought that Hadean Earth might be similar to more harsh environments of today’s Earth where magmatism runs rampant, volcanoes are active, the crust is…

A new study compares Hadean Earth (more than four billion years ago) to the modern Earth that we are familiar with today. People have long thought that Hadean Earth might be similar to more harsh environments of today’s Earth where magmatism runs rampant, volcanoes are active, the crust is anomalously thick, and rocks associated with continents (rhyolite, granite) are found in the ocean (seemingly out of place). The study demonstrates how similar the Hadean may have been to other environments that are more typical of modern Earth.



Researchers found this out by analyzing zircon, a mineral that crystallizes in the kinds of magmas associated with continental crust. Zircons have been analyzed from all around the world, in many different magmatic and tectonic environments, and from all chapters of Earth’s history.

“Zircon is a phenomenal research tool – a reliable little time capsule,” said Lafayette College geoscientist Tamara Carley, who did the research while finishing her doctorate at Vanderbilt University. “It can tell you a lot about magmatic conditions at the time of its crystallization.”

The research was recently published in the scientific journal Earth and Planetary Science Letters.

Finding the early rocks

The challenge in researching early Earth is the paucity of information available. Earth’s earliest rocks have been all but lost to the geologic record, and have been severely altered or totally destroyed by surficial and tectonic processes that continue to shape our planet today. Traditionally, this absence of rocks from the oldest chapter of Earth’s history led researchers to believe that early Earth was covered in a harsh environment, like a global lava ocean, that would be totally inhospitable to rocks and life alike.

In the 1980s, however, the vision of early Earth began to change. Researchers discovered zircon crystals that had crystallized in magmas during the Hadean, then survived Earth’s tumultuous geologic history for more than four billion years. The age of the crystals was confirmed using dating techniques that measure the proportion of radioactive and radiogenic isotopes (parent and daughter isotopes) inside the crystals. Isotopes decay in a predictable fashion over millions or billions of years, and zircon does a good job of locking in this valuable evidence, providing researchers with an accurate clock of the age of the crystals.

Carley’s group did a literature review of the oxygen isotope and trace element geochemistry data teased from these ancient zircon crystals. They then compared the published Hadean results to their new Icelandic findings. Upon realizing just how different Icelandic and Hadean zircons are (and thus, how different their formation environments were), they scoured the literature for zircons that acted as a better modern analogue for the Hadean. They considered the Andes in South America; the Cascade Mountains, the Sierra Nevada Mountains and the Yellowstone Hotspot in western North America; the Mid-Atlantic Ridge; and volcanic rocks in the East African Rift Zone.

The Hadean has temperatures and other compositional clues that are more similar to zircons from subduction zones magmas, generated in areas where one tectonic plate is forced beneath the other when they collide, as happens in places like the Cascades and the Andes. They concluded that Iceland is most similar to other rift environments, which perhaps isn’t much of a surprise since it sits atop a rift itself.

From their look at other researchers’ published work, Carley said her team concurs with what the other researchers found: zircons from the Hadean crystallized at relatively low magmatic temperatures. Furthermore, oxygen isotope ratios measured in the zircon crystals acts as evidence that low-temperature surface water played a role in the generation of the magmas from which they grew.

“It’s pretty compelling evidence that Earth was cool enough, and perhaps wet enough early on in its history that the thought of early life isn’t crazy,” Carley said.

Even more exciting than the temperature story told by titanium was the water story told by oxygen isotope ratios, locked in the zircon crystal structure. The zircon record revealed to Carley and her research team that liquid water (essential to life as we know it on Earth) played a major role in both Icelandic and ancient magmas.

“We need to change the conversation, and we need to stop saying that Iceland is a modern analogue for the Hadean.” said Carley. The field, she added, could benefit from examining zircons from other locations on Earth, such as collisional zones where subduction does not occur, and juvenile subduction zones that form volcanic islands. These are research directions she said she hopes to pursue in the future.

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About Earth Changes Media w/ Mitch Battros

Mitch Battros is a scientific journalist who is highly respected in both the scientific and spiritual communities due to his unique ability to bridge the gap between modern science and ancient text. Founded in 1995 – Earth Changes TV was born with Battros as its creator and chief editor for his syndicated television show. In 2003, he switched to a weekly radio show as Earth Changes Media. ECM quickly found its way in becoming a top source for news and discoveries in the scientific fields of astrophysics, space weather, earth science, and ancient text. Seeing the need to venture beyond the Sun-Earth connection, in 2016 Battros advanced his studies which incorporates our galaxy Milky Way - and its seemingly rhythmic cycles directly connected to our Solar System, Sun, and Earth driven by the source of charged particles such as galactic cosmic rays, gamma rays, and solar rays. Now, "Science Of Cycles" is the vehicle which brings the latest cutting-edge discoveries confirming his published Equation.
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