Earth is spinning faster, making days shorter — here's why scientists say it could be a problem
July 10 was the shortest day of the year so far, lasting 1.36 milliseconds less than 24 hours, according to data from the International Earth Rotation and Reference Systems Service and the US Naval Observatory, compiled by timeanddate.com. More exceptionally short days are coming on July 22 and August 5, currently predicted to be 1.34 and 1.25 milliseconds shorter than 24 hours, respectively.
The length of a day is the time it takes for the planet to complete one full rotation on its axis —24 hours or 86,400 seconds on average. But in reality, each rotation is slightly irregular due to a variety of factors, such as the gravitational pull of the moon, seasonal changes in the atmosphere and the influence of Earth's liquid core. As a result, a full rotation usually takes slightly less or slightly more than 86,400 seconds — a discrepancy of just milliseconds that doesn't have any obvious effect on everyday life.
However these discrepancies can, in the long run, affect computers, satellites and telecommunications, which is why even the smallest time deviations are tracked using atomic clocks, which were introduced in 1955. Some experts believe this could lead to a scenario similar to the Y2K problem, which threatened to bring modern civilization to a halt.
Atomic clocks count the oscillations of atoms held in a vacuum chamber within the clock itself to calculate 24 hours to the utmost degree of precision. We call the resulting time UTC, or Coordinated Universal Time, which is based on around 450 atomic clocks and is the global standard for timekeeping, as well as the time to which all our phones and computers are set.
Astronomers also keep track of Earth's rotation — using satellites that check the position of the planet relative to fixed stars, for example — and can detect minute differences between the atomic clocks' time and the amount of time it actually takes Earth to complete a full rotation. Last year, on July 5, 2024, Earth experienced the shortest day ever recorded since the advent of the atomic clock 65 years ago, at 1.66 milliseconds less than 24 hours.
'We've been on a trend toward slightly faster days since 1972,' said Duncan Agnew, a professor emeritus of geophysics at the Scripps Institution of Oceanography and a research geophysicist at the University of California, San Diego. 'But there are fluctuations. It's like watching the stock market, really. There are long-term trends, and then there are peaks and falls.'
In 1972, after decades of rotating relatively slowly, Earth's spin had accumulated such a delay relative to atomic time that the International Earth Rotation and Reference Systems Service mandated the addition of a 'leap second' to the UTC. This is similar to the leap year, which adds an extra day to February every four years to account for the discrepancy between the Gregorian calendar and the time it takes Earth to complete one orbit around the sun.
Since 1972, a total of 27 leap seconds have been added to the UTC, but the rate of addition has increasingly slowed, due to Earth speeding up; nine leap seconds were added throughout the 1970s while no new leap seconds have been added since 2016.
In 2022, the General Conference on Weights and Measures (CGPM) voted to retire the leap second by 2035, meaning we may never see another one added to the clocks. But if Earth keeps spinning faster for several more years, according to Agnew, eventually one second might need to be removed from the UTC. 'There's never been a negative leap second,' he said, 'but the probability of having one between now and 2035 is about 40%.'
The shortest-term changes in Earth's rotation, Agnew said, come from the moon and the tides, which make it spin slower when the satellite is over the equator and faster when it's at higher or lower altitudes. This effect compounds with the fact that during the summer Earth naturally spins faster — the result of the atmosphere itself slowing down due to seasonal changes, such as the jet stream moving north or south; the laws of physics dictate that the overall angular momentum of Earth and its atmosphere must remain constant, so the rotation speed lost by the atmosphere is picked up by the planet itself. Similarly, for the past 50 years Earth's liquid core has also been slowing down, with the solid Earth around it speeding up.
By looking at the combination of these effects, scientists can predict if an upcoming day could be particularly short. 'These fluctuations have short-period correlations, which means that if Earth is speeding up on one day, it tends to be speeding up the next day, too,' said Judah Levine, a physicist and a fellow of the National Institute of Standards and Technology in the time and frequency division. 'But that correlation disappears as you go to longer and longer intervals. And when you get to a year, the prediction becomes quite uncertain. In fact, the International Earth Rotation and Reference Systems Service doesn't predict further in advance than a year.'
While one short day doesn't make any difference, Levine said, the recent trend of shorter days is increasing the possibility of a negative leap second. 'When the leap second system was defined in 1972, nobody ever really thought that the negative second would ever happen,' he noted. 'It was just something that was put into the standard because you had to do it for completeness. Everybody assumed that only positive leap seconds would ever be needed, but now the shortening of the days makes (negative leap seconds) in danger of happening, so to speak.'
The prospect of a negative leap second raises concerns because there are still ongoing problems with positive leap seconds after 50 years, explained Levine. 'There are still places that do it wrong or do it at the wrong time, or do it (with) the wrong number, and so on. And that's with a positive leap second, which has been done over and over. There's a much greater concern about the negative leap second, because it's never been tested, never been tried.'
Because so many fundamental technologies systems rely on clocks and time to function, such as telecommunications, financial transactions, electric grids and GPS satellites just to name a few, the advent of the negative leap second is, according to Levine, somewhat akin to the Y2K problem — the moment at the turn of the last century when the world thought a kind of doomsday would ensue because computers might have been unable to negotiate the new date format, going from '99' to '00.'
Climate change is also a contributing factor to the issue of the leap second, but in a surprising way. While global warming has had considerable negative impacts on Earth, when it comes to our timekeeping, it has served to counteract the forces that are speeding up Earth's spin. A study published last year by Agnew in the journal Nature details how ice melting in Antarctica and Greenland is spreading over the oceans, slowing down Earth's rotation — much like a skater spinning with their arms over their head, but spinning slower if the arms are tucked along the body.
'If that ice had not melted, if we had not had global warming, then we would already be having a leap negative leap second, or we would be very close to having it,' Agnew said. Meltwater from Greenland and Antarctica ice sheets has is responsible for a third of the global sea level rise since 1993, according to NASA.
The mass shift of this melting ice is not only causing changes in Earth's rotation speed, but also in its rotation axis, according to research led by Benedikt Soja, an assistant professor at the department of civil, environmental and geomatic engineering of The Swiss Federal Institute of Technology in Zurich, Switzerland. If warming continues, its effect might become dominant. 'By the end of this century, in a pessimistic scenario (in which humans continue to emit more greenhouse gases) the effect of climate change could surpass the effect of the moon, which has been really driving Earth's rotation for the past few billions of years,' Soja said.
At the moment, potentially having more time to prepare for action is helpful, given the uncertainty of long-term predictions on Earth's spinning behavior. 'I think the (faster spinning) is still within reasonable boundaries, so it could be natural variability,' Soja said. 'Maybe in a few years, we could see again a different situation, and long term, we could see the planet slowing down again. That would be my intuition, but you never know.'
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Washington Post
20 minutes ago
- Washington Post
A science journal pulled a controversial study about a bizarre life form against the authors' wishes
NEW YORK — A microscopic discovery in a California lake sparked buzz and controversy more than a decade ago when it was first revealed. Scientists said they'd discovered bacteria that used the element arsenic — poisonous to life as we know it — to grow. If true, it expanded the possibilities for where life could exist on Earth — or on other worlds .
Fox News
an hour ago
- Fox News
Three-person IVF technique shown to prevent inherited genetic diseases
An unconventional approach to reproduction is reportedly reducing the risk of metabolic disease. Three-person in vitro fertilization (IVF), a new concept developed by scientists in New Castle, U.K., has resulted in the births of eight healthy children. In the study, published in The New England Journal of Medicine, the researchers found that pathogenic variants in mitochondrial DNA (mtDNA) are a "common cause" of severe — and often fatal — inherited metabolic disease. This DNA in the mother's mitochondria can cause "harmful mutations" in children, which can lead to diseases that affect tissues in the heart, brain and muscles, according to the journal Nature. At the Newcastle Fertility Centre, 22 women with pathogenic mtDNA variants underwent a "pronuclear transfer," in which they received a mitochondrial donation. This involved the transfer of the nucleus of a fertilized egg with "faulty mitochondria" into a donor egg cell with healthy mitochondria, Nature detailed. The result includes nuclear DNA from both the biological mother and father, as well as mitochondrial DNA from the separate egg donor. From this, eight children were born healthy, with no levels or low levels of mtDNA detected in their blood. The researchers noted that one child did develop hyperlipidemia (high cholesterol) and cardiac arrhythmia (irregular heartbeat) — as the child's mother had hyperlipidemia during pregnancy — but both conditions responded to treatment. Another child developed infant myoclonic epilepsy — a rare type of epilepsy that typically affects infants between 6 months and 3 years old — which concluded in "spontaneous remission." "At the time of this report, all the children have made normal developmental progress," the researchers noted. Dr. Zev Williams, director of Columbia University Fertility Center in New York City, said this latest research "marks an important milestone." "Expanding the range of reproductive options … will empower more couples to pursue safe and healthy pregnancies," he said in an interview with Fox News Digital. In a press briefing, Robert McFarland, a pediatric neurologist at Newcastle University, who co-led one of the studies, reportedly noted the team's "cautious optimism" about the results. "To see babies born at the end of this is amazing, and to know there's not going to be mitochondrial disease at the end of that," he said. Fox News Digital reached out to the study researchers for comment.
Yahoo
an hour ago
- Yahoo
Floss-based vaccine delivers flu antibodies to bone marrow, saliva, and more
Flossing might soon do more than protect your teeth. Scientists have developed a new vaccine delivery method that uses specialized dental floss to trigger an immune response, without the need for needles. In the study, researchers tested the novel technique by applying vaccine components such as proteins and inactivated viruses along the gum lines of mice. The floss-based approach effectively stimulated immunity and protected the rodents from a lethal flu strain. Flossing mice for science The team flossed 50 mice every two weeks over a 28-day period. One researcher gently pulled down each mouse's jaw using a keychain ring, while another flossed the gums with vaccine-laced strands. After four weeks and three flossing sessions, the mice faced a lethal dose of influenza. All of the vaccinated mice survived. Those that hadn't received the floss-based vaccine died. Researchers found signs of a systemic immune response in the flossed mice. Flu-fighting antibodies appeared in their feces, saliva, and bone marrow. That last discovery was key, antibodies in bone marrow suggest long-term immunity. The vaccinated group also showed elevated T cell levels in their lungs and spleens. T cells help the body destroy virus-infected cells and prevent future infections. The results suggest this flossing method doesn't just offer local protection in the mouth, but activates a strong immune response throughout the body, something that traditional mucosal vaccines have struggled to achieve. Testing for human feasibility To explore whether the technique might work in people, scientists recruited 27 healthy adults. Each participant used dental picks coated in food dye. On average, the dye reached gum tissue in about 60% of flossing attempts. That level of contact shows potential, though further refinement is needed for consistent delivery. The gums between teeth are highly permeable, which allows vaccine molecules to pass through more easily than skin or other tissues. The oral cavity is also a frontline entry point for viruses. But developing vaccines for the mouth and nose has proven difficult due to the body's natural resistance to foreign agents in these regions. Floss, however, might offer a way to bypass those defenses. 'These findings establish floss-based vaccination as a simple, needle-free strategy that enhances vaccine delivery and immune activation compared with existing mucosal immunization methods,' wrote the researchers. Pandemic-ready and needle-free Beyond effectiveness, this method offers practical advantages. Needle-phobic patients may be more willing to receive vaccines delivered via floss. The treatment also doesn't require cold-chain storage, which simplifies distribution. Floss-based vaccines could even be mailed to households during outbreaks, enabling faster, more widespread immunization during pandemics. While the method is still in early stages, it marks a significant step toward making vaccinations more accessible and less invasive. With further development, a daily health habit like flossing could double as disease prevention on a global scale. The study is published in Nature Biomedical Engineering. Solve the daily Crossword
