As Earth's Magnetic Field Grows Stronger, Oxygen Levels Rise

When the magnetic field around the Earth grows stronger, oxygen levels rise. That is the surprising finding of a new study looking at more than half a billion years of planetary history.
Researchers can track the rise and fall in oxygen levels by studying charcoal left over from ancient wildfires. The more oxygen, the larger the fires. And they can gauge changes in the geomagnetic field by studying rocks formed by ancient volcanic eruptions. Magnetic crystals found in cooling lava align with the geomagnetic field, offering some indication of its strength.
The new study combined these data, revealing a powerful link between oxygen levels and the strength of the geomagnetic field. Over the last 540 million years, the strength of the magnetic field has trended up, and so has the level of oxygen, making the planet more hospitable to life. The findings were published in Science Advances.
'We don't really have a good explanation for it,' coauthor Benjamin Mills, of the University of Leeds, told Nature, though he offered a few ideas.
As the tectonic plates have shifted, over hundreds of millions of years, their movements have, at times, unleashed essential nutrients, such as zinc and phosphorus, into the ocean, fueling massive algal blooms. Those blooms produced huge volumes of oxygen. It may be the case, scientists propose, that the same currents driving the movement of the tectonic plates may also be affecting the Earth's iron core, the source of its magnetic field.
Can Toxic Mining Waste Help Remove CO2 from the Atmosphere?

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Yahoo

3 hours ago

• Yahoo

Mars cozies up to one of the brightest stars in the sky in 'mind-blowing' conjunction photo

When you buy through links on our articles, Future and its syndication partners may earn a commission. A new photo shows Mars shining like a red star in the night sky, alongside the blue-tinged "Heart of the Lion" star, Regulus. Despite their drastic differences, the two objects currently look remarkably similar. Regulus is the brightest star in the constellation Leo. The point of light is coming from a system containing four stars, arranged into two pairs of two, shining approximately 79 light-years from Earth — or around 2.8 million times farther from our planet than Mars. The system's blue tinge comes from its largest star, a blue subgiant around 4.5 times more massive than the sun. It often appears alongside, or gets eclipsed by, other solar system planets and Earth's moon, because it is situated near the ecliptic — the plane in the night sky where all solar system worlds orbit the sun. Mars and Regulus currently appear very close to one another. This conjunction peaked on June 17, when the pair was less than one degree apart, which is equal to around 1.5 times the diameter of the moon in the night sky. The Red Planet is currently shining very brightly at night because of its position relative to Earth and the sun, making it look like a red star. On June 16, the Virtual Telescope Project captured an incredible image of the two objects with nearly identical brightness, using a 14-inch telescope in Italy. The stellar objects look like perfect mirror images of each other, aside from their striking color contrast. "The beauty of their colors is mind-blowing," Gianluca Masi, an astronomer and founder of the Virtual Telescope Project, told Related: Parisian photographer produces phenomenal, perfectly-proportioned 'planetary parade' portrait If you look hard at the image, you may be able to see a fuzzy, faint spot of light between Mars and Romulus, located slightly closer to the blue star. This is the ghostly trace of the Leo I dwarf galaxy, about 820,000 light-years away: "Capturing it in the same frame as Mars and Regulus is something rare and deeply evocative," Masi said. RELATED STORIES —Mars rises over the moon's horizon at the best possible time —Eerie photo of Mars' horizon took NASA 3 months to capture —See Mars 'peek out' from behind the moon in stunning eclipse photo Mars and Romulus will remain close to one another until June 22, when this conjunction officially ends, according to the BBC's Sky at Night Magazine. The conjunction began on June 11. The two bodies are no longer as close as they were, but they can still be seen together with the naked eye. But you can get a better look at the pair using a decent telescope or a pair of stargazing binoculars. The best time to see it is just after twilight under totally clear skies, according to Live Science's sister site 2025 has already seen several noteworthy conjunctions, including a rare "planetary parade" in February, when all seven solar system worlds were near-perfectly aligned in the night sky. Mars and Mercury will also have close conjunctions with the moon later this month.

Yahoo

3 hours ago

• Yahoo

Sunshine abounds as the summer solstice arrives

Peak sunshine has arrived in the Northern Hemisphere — the summer solstice. Friday is the longest day of the year north of the equator, where the solstice marks the start of astronomical summer. It's the opposite in the Southern Hemisphere, where it is the shortest day of the year and winter will start. The word 'solstice' comes from the Latin words 'sol' for sun and 'stitium' which can mean 'pause' or 'stop.' The solstice is the end of the sun's annual march higher in the sky, when it makes its longest, highest arc. The bad news for sun lovers: It then starts retreating and days will get a little shorter every day until late December. People have marked solstices for eons with celebrations and monuments, including Stonehenge, which was designed to align with the sun's paths at the solstices. But what is happening in the heavens? Here's what to know about the Earth's orbit. Solstices are when days and nights are at their most extreme As the Earth travels around the sun, it does so at an angle relative to the sun. For most of the year, the Earth's axis is tilted either toward or away from the sun. That means the sun's warmth and light fall unequally on the northern and southern halves of the planet. The solstices mark the times during the year when this tilt is at its most extreme, and days and nights are at their most unequal. During the Northern Hemisphere's summer solstice, the upper half of the earth is tilted toward the sun, creating the longest day and shortest night of the year. This solstice falls between June 20 and 22. Meanwhile, at the winter solstice, the Northern Hemisphere is leaning away from the sun — leading to the shortest day and longest night of the year. The winter solstice falls between December 20 and 23. The equinox is when there is an equal amount of day and night During the equinox, the Earth's axis and its orbit line up so that both hemispheres get an equal amount of sunlight. The word equinox comes from two Latin words meaning equal and night. That's because on the equinox, day and night last almost the same amount of time — though one may get a few extra minutes, depending on where you are on the planet. The Northern Hemisphere's spring — or vernal — equinox can land between March 19 and 21, depending on the year. Its fall – or autumnal — equinox can land between Sept. 21 and 24. On the equator, the sun will be directly overhead at noon. Equinoxes are the only time when both the north and south poles are lit by sunshine at the same time. What's the difference between meteorological and astronomical seasons? These are just two different ways to carve up the year. While astronomical seasons depend on how the Earth moves around the sun, meteorological seasons are defined by the weather. They break down the year into three-month seasons based on annual temperature cycles. By that calendar, spring starts on March 1, summer on June 1, fall on Sept. 1 and winter on Dec. 1. ___ The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Department of Science Education and the Robert Wood Johnson Foundation. The AP is solely responsible for all content.

Forbes

4 hours ago

• Forbes

Get Ready For The Shortest Day Since Records Began As Earth Spins Faster

Earth could be about to record its fastest-ever rotation. Since 2020, Earth has been rotating faster than at any point since records began in 1973, with each successive year producing the shortest day. Last year, the shortest day was recorded on July 5, and Earth is expected to get close to this again on or close to July 9, July 22 and August 5, according to "Rapidly spinning globe. Symbolic of time passing, travel and other metaphors of space and time." Earth takes a nominal 24 hours to rotate once on its access, which is equal to 86,400 seconds. Until 2020, Earth's rotation had been gradually slowing down, and the shortest ever day recorded was just 1.05 milliseconds under 86,400 seconds. However, on July 19, 2020, Earth rotated 1.47 milliseconds less than 86,400 seconds. Last year, on July 5, it was even shorter at 1.66 milliseconds. Since 2020, Earth has seen 28 of its fastest days and predictions from International Earth Rotation and Reference Systems Service and U.S. Naval Observatory indicate that Earth will again rotate faster on July 9, July 22 or August 5. The uncertainty comes from the exact position of the moon, which acts as a drag factor, particularly when it's close to the equator. In the long-term, the moon is gradually slowing down the Earth's rotation, its gravitational pull causing tides and making Earth's orbital path around the sun slightly elliptical. Precise measurements of the length of a day come from atomic clocks and monitoring by the IERS. Scientists do not know why Earth's rotation has been speeding up since 2020. various factors are likely at play, including the motion of Earth's core and mantle, a shifting of mass due to the melting of ice sheets and glaciers, and variations in ocean currents and air movement. All of these could influence the day length by milliseconds. It could also be down to the 'Chandler wobble' — the movement of Earth's geographical poles across its surface. Historically, international timekeepers have added leap seconds to keep atomic time aligned with Earth's spin. However, since Earth is now rotating faster, not slower, so leap seconds are redundant. Instead, negative leap seconds— i.e., removing a second) — are being considered. IERS confirmed earlier this month that no leap second would be added in 2025. The last leap second was positive and used at the end of December 2016. Scientists are unsure what to do because the current speeding-up may be a blip in a longer trend of Earth's rotation slowing. It may seem trivial, but the fact that Earth is spinning faster in 2025, shaving milliseconds off the day, is critical for maintaining time accuracy worldwide. Maintaining alignment between Earth time and atomic time is crucial for GPS and satellite navigation, financial systems reliant on precise timestamps and synchronizing networks across the world.