Human-driven climate change is slowing Earth’s rotation at a rate not seen in 3.6 million years
Human-driven climate change is slowing Earth’s rotation at a rate not seen in 3.6 million years, with sea level rise increasing the length of days by 1.33 milliseconds per century, according to a new study.
Earth spins faster when its mass is more concentrated, just as twirling figure skaters pull in their arms to speed up and spread out their arms to slow down. Rising sea levels have long been known to redistribute that mass and change the planet’s spin, but the newly identified rate is unprecedented, scientists say.
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However, this 2.4 millisecond rate is offset by an effect called glacial isostatic adjustment, which is the slow rise of the planet’s crust that continues to occur after the retreat of the ice sheets. Glacial isostatic adjustment shortens the day length by about 0.8 millisecond per century, leading to a background lengthening over time of 1.71 milliseconds per century (with about 0.1 millisecond of uncertainty in the observations).
Other, shorter-term phenomena also affect day length, including strengthened winds during El Niño events, which slow the planet’s rotation by about a millisecond per century, Mann said.
However, in recent years, the climate seems to be playing an increasing role in altering Earth’s rotation, said study co-author Mostafa Kiani Shahvandi, a geoscientist at ETH Zurich. “I wanted to know if this was unusual or something like this happened in the past,” Shahvandi told Live Science. “As it turned out, it is quite anomalous. The effect is therefore anthropogenic [caused by humans].”
Shahvandi and study co-author Benedikt Soja, a professor of space geodesy at ETH Zurich, turned to the fossils of shelled single-cell organisms called foraminifera to peer back millions of years into Earth’s day length. Changes in the oxygen content of these fossils could reveal sea levels when the organisms were alive, from which the researchers could extrapolate day lengths.
They found that today’s 1.33-millisecond-per-century increase in day length was among the fastest changes seen in the past 3.6 billion years. “This is expected to get even larger and even bigger than the effect of the moon,” Shahvandi said.
One episode around 2 million years ago saw a similar increase in day length of 2.1 milliseconds per century , the researchers found. That was in the Early Pleistocene, during a period when carbon dioxide in the atmosphere and temperatures rose. There is some uncertainty in the historical estimate, meaning that this period may have seen a similar increase in day length as today, or that today might be faster.
Under a future warming scenario where greenhouse gases increase, the day could lengthen by 2.62 milliseconds per century by 2080, Shahvandi and Soja reported in their study, which was published March 10 in the journal JGR Solid Earth.
Although the impact would likely not be perceptible to humans, the findings have other real-world implications. For example, Mann said, instruments that require precise knowledge of Earth’s rotation rate, such as those on spacecraft, may need to be recalibrated. Other precise timekeeping applications, such as in computing, could be affected, Shahvandi said.
The findings also underscore the rapidity of modern warming. “It tells us about the rapid climate change,” Shahvandi said, “[the] melting of snow and ice in polar ice sheets and mountains glaciers, and increase in the sea levels.”
Kiani Shahvandi, M., & Soja, B. (2026). Climate‐Induced Length of Day Variations Since the Late Pliocene. Journal of Geophysical Research: Solid Earth, 131(3). https://doi.org/10.1029/2025jb032161
