Maybe you don’t know – The Moon is “leaving” the Earth

Looking up at the moon in the night sky, you would never imagine that it is slowly moving away from Earth. But we know otherwise. In 1969, NASA’s Apollo missions installed reflective panels on the moon. These have shown that the moon is currently moving 3.8 cm away from the Earth every year .

If we take the moon’s current rate of recession and project it back in time, we end up with a collision between the Earth and moon around 1.5 billion years ago . However, the moon was formed around 4.5 billion years ago , meaning that the current recession rate is a poor guide for the past.

An illustration of the Earth as seen from the surface of the moon.

(Image credit: Elen11/Getty Images)

Along with our fellow researchers from Utrecht University  and the University of Geneva, we have been using a combination of techniques to try and gain information on our solar system’s distant past.

We recently discovered the perfect place to uncover the long-term history of our receding moon. And it’s not from studying the moon itself, but from reading signals in ancient layers of rock on Earth.

Reading between the layers

In the beautiful Karijini National Park in western Australia, some gorges cut through 2.5 billion year old, rhythmically layered sediments. These sediments are banded iron formations, comprising distinctive layers of iron and silica-rich minerals once widely deposited on the ocean floor and now found on the oldest parts of the Earth’s crust.

Cliff exposures at Joffre Falls show how layers of reddish-brown iron formation just under a meter thick are alternated, at regular intervals, by darker, thinner horizons.

The Joffre Gorge in Karijini National Park in western Australia, showing regular alternations between reddish-brown, harder rock and a softer, clay-rich rock (indicated by the arrows) at an average thickness of 85 cm. These alternations are attributed to past climate changes induced by variations in the eccentricity of the Earth’s orbit.  (Image credit: Frits Hilgen/Joshua Davies/Margriet Lantink)

The darker intervals are composed of a softer type of rock which is more susceptible to erosion. A closer look at the outcrops reveals the presence of an additionally regular, smaller-scale variation. Rock surfaces, which have been polished by seasonal river water running through the gorge, uncover a pattern of alternating white, reddish and blueish-grey layers.

In 1972, Australian geologist A.F. Trendall raised the question about the origin of the different scales of cyclical, recurrent patterns visible in these ancient rock layers. He suggested that the patterns might be related to past variations in climate induced by the so-called “Milankovitch cycles.”

Cyclical climate changes

The Milankovitch cycles describe how small, periodic changes in the shape of the Earth’s orbit and the orientation of its axis influence the distribution of sunlight received by Earth over spans of years.

Right now, the dominant Milankovitch cycles change every 400,000 years, 100,000 years, 41,000 years and 21,000 years. These variations exert a strong control on our climate over long time periods.

Key examples of the influence of Milankovitch climate forcing in the past are the occurrence of extreme cold or warm periods, as well as wetter or dryer regional climate conditions.

Rhythmically alternating layers of white, reddish and/or blueish-grey rock at an average thickness of about 10 cm (see arrows). The alternations, interpreted as a signal of Earth’s precession cycle, help us estimate the distance between Earth and the moon 2.46 billion years ago. (Image credit: Frits Hilgen/Joshua Davies/Margriet Lantink)

These climate changes have significantly altered the conditions at Earth’s surface, such as the size of lakes. They are the explanation for the periodic greening of the Saharan desert and low levels of oxygen in the deep ocean. Milankovitch cycles have also influenced the migration and evolution of flora and fauna including our own species.

And the signatures of these changes can be read through cyclical changes in sedimentary rocks.

Recorded wobbles

The distance between the Earth and the moon is directly related to the frequency of one of the Milankovitch cycles — the climatic precession cycle . This cycle arises from the precessional motion (wobble) or changing orientation of the Earth’s spin axis over time. This cycle currently has a duration of ~21,000 years, but this period would have been shorter in the past when the moon was closer to Earth.

This means that if we can first find Milankovitch cycles in old sediments and then find a signal of the Earth’s wobble and establish its period, we can estimate the distance between the Earth and the moon at the time the sediments were deposited.

Our previous research showed that Milankovitch cycles may be preserved in an ancient banded iron formation in South Africa, thus supporting Trendall’s theory.

The banded iron formations in Australia were probably deposited in the same ocean as the South African rocks, around 2.5 billion years ago. However, the cyclic variations in the Australian rocks are better exposed, allowing us to study the variations at much higher resolution.

Our analysis of the Australian banded iron formation showed that the rocks contained multiple scales of cyclical variations which approximately repeat at 4 and 33 inch (10 and 85 cm intervals). On combining these thicknesses with the rate at which the sediments were deposited, we found that these cyclical variations occurred approximately every 11,000 years and 100,000 years.

Therefore, our analysis suggested that the 11,000 cycle observed in the rocks is likely related to the climatic precession cycle, having a much shorter period than the current ~21,000 years. We then used this precession signal to calculate the distance between the Earth and the moon 2.46 billion years ago.

We found that the moon was around 37,280 miles (60,000 kilometres) closer to the Earth then (that distance is about 1.5 times the circumference of Earth). This would make the length of a day much shorter than it is now, at roughly 17 hours rather than the current 24 hours.

Related Posts

Uncovering the Mysterious Anomаly: Scientists Discover Mutant Human-pig Hybrid with Six Legs

Reсently, аn extrаordinаry mutаted сreаture emerged, boаѕtіng multірle lіmbѕ, аn eerіe fасіаl аррeаrаnce, аnd а рrofound іmраct on the onlіne сommunіty. The dіѕсovery of thіѕ mutаted сreаture…

Unexplained Wonders: Mysterious Ancient Technology, Strange Ruins, and Strange Discoeries That Perplex Scientists

Museuмs serʋe as a testaмent to the progress huмanity has мade oʋer мillennia, showcasing the innoʋations and adʋanceмents that haʋe led us to our present state. Howeʋer,…

Unconditional Love: Strange Mouth Baby Having Adorable Smile Like Angel

A heartwarming and extraordinary story has captured the attention of people worldwide—a baby born with a permanent smile due to a rare condition that affects just 14…

In Patagonia, a two-headed colossus has been discovered

The presence of giants is supported by several pieces of evidence and testimony. You may, however, have never heard anything like this before. Let me present you…

Heartbreaking Mutant Kids Only Eye Without Nose And Half Human-Like Body Praying Miracle Appearing To Save Her

In recent news, there have been reports of a mutant creature with a human-like body and only one eуe that has been discovered. This discovery has made…

Tibetans have been identified as the direct descendants of a mysterious alien civilization, according to scientific evidence

A group of experts studied the exact genes responsible for Tibetan people’s high-altitude adaption in 2010. Scientists from China, Denmark, and the University of California at Berkeley…

Leave a Reply

Your email address will not be published. Required fields are marked *