Geologists Determine Early Earth Was a 'Water World'
The Earth of 3.2 billion years ago was a "water world" of submerged continents, geologists say after analyzing oxygen isotope data from ancient ocean crust that's now exposed on land in Australia.
And that could have major implications on the origin of life.
"An early Earth without emergent continents may have resembled a 'water world,' providing an important environmental constraint on the origin and evolution of life on Earth as well as its possible existence elsewhere."
So wrote geologists Benjamin Johnson and Boswell Wing in a paper just published online by the journal Nature Geoscience .
Johnson is an assistant professor of geological and atmospheric sciences at Iowa State University and a recent postdoctoral research associate at the University of Colorado Boulder. Wing is an associate professor of geological sciences at Colorado. Grants from the National Science Foundation supported their study and a Lewis and Clark Grant from the American Philosophical Society supported Johnson's fieldwork in Australia.
The site of exposed, ancient ocean crust in Western Australia. (Image: Iowa State University )
Evidence from the Ancient Ocean Crust
Johnson said his work on the project started when he talked with Wing at conferences and learned about the well-preserved, 3.2-billion-year-old ocean crust from the Archaean eon (4 billion to 2.5 billion years ago) in a remote part of the state of Western Australia . Previous studies meant there was already a big library of geochemical data from the site.
Johnson joined Wing's research group and went to see ocean crust for himself - a 2018 trip involving a flight to Perth and a 17-hour drive north to the coastal region near Port Hedland.
After taking his own rock samples and digging into the library of existing data, Johnson created a cross-section grid of the oxygen isotope and temperature values found in the rock.
Benjamin Johnson of Iowa State University works at an outcrop in remote Western Australia where geologists are studying 3.2-billion-year-old ocean crust. (Image: Jana Meixnerova, provided by Benjamin Johnson / Iowa State University )
Isotopes are atoms of a chemical element with the same number of protons within the nucleus, but differing numbers of neutrons. In this case, differences in oxygen isotopes preserved with the ancient rock provide clues about the interaction of rock and water billions of years ago.
Once he had two-dimensional grids based on whole-rock data, Johnson created an inverse model to come up with estimates of the oxygen isotopes within the ancient oceans. The result: Ancient seawater was enriched with about 4 parts per thousand more of a heavy isotope of oxygen (oxygen with eight protons and 10 neutrons, written as 18O) than an ice-free ocean of today.
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From Isotopes to Water World
How to explain that decrease in heavy isotopes over time?
Johnson and Wing suggest two possible ways: Water cycling through the ancient ocean crust was different than today's seawater with a lot more high-temperature interactions that could have enriched the ocean with the heavy isotopes of oxygen. Or, water cycling from continental rock could have reduced the percentage of heavy isotopes in ocean water.
"Our preferred hypothesis - and in some ways the simplest - is that continental weathering from land began sometime after 3.2 billion years ago and began to draw down the amount of heavy isotopes in the ocean," Johnson said.
The idea that water cycling through ocean crust in a way distinct from how it happens today, causing the difference in isotope composition "is not supported by the rocks," Johnson said. "The 3.2-billion-year-old section of ocean crust we studied looks exactly like much, much younger ocean crust."
Johnson said the study demonstrates that geologists can build models and find new, quantitative ways to solve a problem - even when that problem involves seawater from 3.2 billion years ago that they'll never see or sample.
And, Johnson said these models inform us about the environment where life originated and evolved:
"Without continents and land above sea level, the only place for the very first ecosystems to evolve would have been in the ocean."
Top image: Geologists think Earth was once a water world. Source: Credit: peangdao / Adobe Stock
The article, originally titled ‘ Geologists determine early Earth was a 'water world' by studying exposed ocean crust ’ was first published on Science Daily.
Source: Iowa State University. "Geologists determine early Earth was a 'water world' by studying exposed ocean crust." ScienceDaily. ScienceDaily, 2 March 2020. www.sciencedaily.com/releases/2020/03/200302122449.htm
Benjamin W. Johnson & Boswell A. Wing. Limited Archaean continental emergence reflected in an early Archaean 18O-enriched ocean . Nature Geoscience , 2020 DOI: 10.1038/s41561-020-0538-9
Straight from Genesis 1:6 and 1:9.
Bt let’s deny it while we continue to believe there was nothing and nothing exploded and produced every known element we have from absolutyely nothing. After all that’s what the atheist believes ad. it’s more fantatsic than a superior being from another realm of timer and space creating what we know while we think we are intelligent in creating code that can now think for itself… and no one sees the irony?
There are similar stories in many cultures. The void, face of the deep, ginnungagap ect... The water is the fertility of life, the feminine essence.
Aside from that, this fits more with genesis 1.1 when there was only water. A flood (even world wide) would not leave behind so many isotopes.
Ah yes, the bible. A book which procliams the Jews the best of all people and how god supposedly despises those not of Jewish heritage.
So, put aside the ridiculous dating claims that Geologists WILL not let go of, even though the critical problems with dating techniques are well-documented in the literature; and the world is covered by water??? Hmm, read a story about that…...