Climate Change Shifts Earth's Axis

The locations of the North and South poles aren't static, unchanging spots on our planet. The axis Earth spins around -- or more specifically the surface that invisible line emerges from -- is always moving due to processes scientists don't completely understand. The way water is distributed on Earth's surface is one factor that drives the drift.

This color image of Earth was taken by NASA’s Earth Polychromatic Imaging Camera (EPIC), a four megapixel CCD camera and telescope. Photo: NASA

More specifically, the melting of glaciers that's occurred as a result of global warming is the cause of a shift in the Earth's axis that happened in the 1990s. This shift saw the Earth's pole, which is the point where the Earth's rotational axis intersects its crust in the Northern Hemisphere, drift in a "new eastward direction," according to the study.

To determine how this might have happened, scientists observed two possible theories and their outcomes in relation to the Earth's axis.

"One scenario assumes that the terrestrial water storage change throughout the entire study period (1981-2020) is similar to that observed recently (2002-2020)," the study reads. "The second scenario assumes that it changed from observed glacier ice melting."

According to the study, only the second scenario, along with the atmosphere, oceans, and solid Earth, "agrees with the polar motion during the period of 1981-2020." This new finding, which posits that "the accelerated terrestrial water storage decline resulting from the glacial ice melting is thus the main driver of the rapid polar drift toward the east after the 1990s," indicates that a close relationship between the movement of Earth's poles and climate change exists.

The direction of polar drift shifted from southbound to eastbound in 1995, and from 1995 to 2020, the average speed of the polar drift, "increased about 17 times the average speed recorded from 1981 to 1995."

To check their theory, the scientists in the study calculated how water stored on land, i.e. glaciers, changed.

The team found that the "contributions of water loss from the polar regions is the main driver of polar drift, with contributions from water loss in non polar regions."

While the team says the planet's axis shift won't affect standard life on Earth – it might have only changed the length of a day by milliseconds – this study still demonstrates that mass change, in this case glacial, is happening on a scale large enough that the Earth's axis can shift as a result.

"I think it brings an interesting piece of evidence to this question," University of Zurich climate scientist, Vincent Humphrey, told. "It tells you how strong this mass change is – it's so big that it can change the axis of the Earth." (Tasnim News Agency)

YOU MAY ALSO LIKE

Effects of noise on plants persist over long periods

Study shows decreased seedlings and saplings years after removal of the noise source.

Bacteria release more carbon from the ocean than previously thought

Deep-sea bacteria dissolve carbon-containing rocks, releasing excess carbon.

How humans evolved a super-high cooling capacity

Humans have a uniquely high density of sweat glands embedded in their skin -- 10 times the density of chimpanzees and macaques.

Clocking the fastest-spinning brown dwarfs

Gemini North observations help identify rotational speed limit for brown dwarfs.

Stone Age bear genome reconstructed from DNA in Mexican cave

Scientists have reconstructed ancient DNA from soil for the first time, in an advance that will significantly enhance the study of animal, plant and microorganism evolution.

Road salts are threatening world's freshwater supplies

Study warns that cascading effects of salts require coordinated management.