Posted on 06/06/2026 5:16:00 PM PDT by Red Badger
Water has mass, and mass has leverage. Move enough groundwater from aquifers onto farms, into cities, and eventually into the ocean, and Earth’s spin changes by a measurable amount.
The shift is tiny on a planetary scale, but the number still grabs you: between 1993 and 2010, researchers estimated that groundwater depletion nudged Earth’s rotational pole by about 31.5 inches.
The figure comes from a 2023 study in Geophysical Research Letters, which estimated that humans depleted about 2,150 gigatons of groundwater between 1993 and 2010. When researchers added that water movement to their polar-motion model, the model lined up much better with the observed drift of Earth’s rotational pole. The same groundwater loss equaled about 6.24 millimeters—roughly 0.24 inches—of global sea-level rise.
“Earth’s rotational pole actually changes a lot,” Ki-Weon Seo, a geophysicist at Seoul National University and study lead, says in a statement. “Our study shows that among climate-related causes, the redistribution of groundwater actually has the largest impact on the drift of the rotational pole.”
Earth’s rotational pole is not fixed in place. It drifts and wobbles as mass shifts around the planet. In 2016, NASA described the effect in plain mechanical terms: add weight to one part of a spinning top, and it spins a little differently. Earth is not a tabletop toy, obviously, but the physics rhyme. Shift enough water from land to ocean, and the spin axis responds.
This study in Geophysical Research Letters attempts to add some hard figures to that realization. “I’m very glad to find the unexplained cause of the rotation pole drift,” Seo says. “On the other hand, as a resident of Earth and a father, I’m concerned and surprised to see that pumping groundwater is another source of sea-level rise.”
The study used data from 1993 through 2010 and estimated that the depletion of about 2,150 gigatons of groundwater helped move Earth’s rotational pole roughly 31.5 inches. Much of that pumping was for irrigation and human use, with water that had been stored underground eventually making its way to the oceans.
In the study, researchers modeled observed changes in Earth’s rotational pole and tested different water-redistribution scenarios. The scenario that best matched the observed drift included 2,150 gigatons of groundwater depletion. While the pole motion helped constrain the groundwater estimate, it wasn’t exactly a before-and-after picture of pumps yanking Earth off balance.
Surendra Adhikari, a research scientist at NASA’s Jet Propulsion Laboratory who was involved in the 2016 study, says the additional research is important. “They’ve quantified the role of groundwater pumping on polar motion,” he says in a news release, “and it’s pretty significant.”
Moving water out of the midlatitudes has an outsized effect on polar motion, and the 2023 study pointed to heavy groundwater depletion in western North America and northwestern India as especially important to the modeled drift.
A 2026 Journal of Geodesy reappraisal using the WaterGAP hydrological model found that terrestrial water storage plays a significant role in polar motion across different timescales. But in that model, the longer-term trend was driven mainly by snow-water-storage changes tied to snowfall patterns and Greenland melt, while groundwater and reservoir storage showed up as smaller but still detectable contributors. The paper also found that its modeled long-term trend still didn’t fully agree with GRACE and satellite-laser-ranging observations.
Scientists are also getting better tools for looking backward. In 2026, researchers introduced TWSTORE, a four-decade terrestrial-water-storage reconstruction beginning in 1984, and ML-TWiX, a monthly global total-water-storage-anomaly reconstruction covering 1980 to 2012. Both are attempts to push water-storage records deeper into the pre-GRACE era, where the satellite record is thinner and the uncertainties get harder to ignore.
We still need a longer view is badly needed. Polar motion involves groundwater, snow, ice sheets, glaciers, sea-level redistribution, reservoirs, and processes inside Earth itself. While newer research has tightened some pieces of that budget, it hasn’t yet turned the planet’s wobble into a solved equation.
“Observing changes in Earth’s rotational pole is useful,” Seo says, “for understanding continent-scale water storage variations.”
As for how this affects humans, groundwater depletion can sink land, worsen relative sea-level rise, stress coastal aquifers, and help saltwater push into places that depend on fresh groundwater. A 2026 Nature study of 40 major river deltas found that contemporary subsidence now exceeds absolute sea-level rise as the dominant driver of relative sea-level rise for most deltas studied, with groundwater storage showing the strongest relative influence on vertical land motion in 10 of the 40 deltas. Another 2026 global coastal assessment in Nature Water found statistically detectable groundwater-level trends in 21 percent of gridded coastal areas, with declines becoming more frequent in the most recent nine years of the study.
There is some good news. A 2026 review in Scienceexamined 67 cases of groundwater recovery after interventions and found that aquifers can rebound under the right conditions. The fixes most often involved alternative water supplies, artificial recharge, policy changes, or some combination of the three. But the hard part is that those successes aren’t plug-and-play. A basin that recovers because a city found another water source doesn’t give every dry region the same escape route.
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Jim
the most peoples live on one helisphere causing weight to be distributed unevenly. I wrote a paper on this.
😉😁
Let's ask Bill Gates, he'll save us..!!
Clicks on the thread to see Rosie O’Donnell reference, goes away happy.
came back later to dee much high class theorizing, and to satisfy your complaint. Take it easy.
Laugh about this if you want, at your own peril. Hank Johnson was right that the world might flip over. I hope I can sleep after reading this. /S
Does this involve Guam capsizing?
John Jacob Astor believed that if the tilt of the earth could be fixed, it would eliminate world hunger as growing seasons of north and soth hemispheres equalized.
It might and it might not............
Maybe that’s why the Titanic sank...........
I’ll get concerned if the Earth moves closer or further from the Sun because of human activity.
Maybe that’s why the Titanic sank...........
The Jews sank it. Iceberg, Goldberg, Greenberg, what’s the difference?
🙄😆.............................
We can fix it with a Trillion dollars and a really big lever. Architects had a plan.
Speaking of underground water....
Massive ocean discovered beneath the Earth’s crust containing more water than on the surface
https://www.indy100.com/science-tech/ocean-beneath-earth-crust-ringwoodite-2676649680
Archimedes?...............
Or it has nothing to do with water at all. It could just as easily be molten lava sloshing around like it’s been doing for billions of years.
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