Scientists offer evidence that Venus is volcanically active

Sulphuric acid in the Venusian clouds was always a hint of possible volcanism.
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Venus appears to have volcanic activity, according to a new research paper that offers strong evidence to answer the lingering question about whether Earth’s sister planet currently has eruptions and lava flows.

Venus, although similar to Earth in size and mass, differs markedly in that it does not have plate tectonics, says Phys.org. The boundaries of Earth’s moving surface plates are the primary locations of volcanic activity.

New research by University of Alaska Fairbanks Geophysical Institute research professor Robert Herrick revealed a nearly 1-square-mile volcanic vent that changed in shape and grew over eight months in 1991.

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New Model Explains The Water Cycles of Mars’s Swiss Cheese-Looking South Pole

Mars [image credit: NASA]

It’s said to be related to the current obliquity cycle period of about 100,000 years. Mystery solved?
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Seen from space, regions of Mars around the south pole have a bizarre, pitted “Swiss cheese” appearance, says ScienceAlert.

These formations come from alternating massive deposits of CO2 ice and water ice, similar to different layers of a cake.

For decades, planetary scientists wondered how this formation was possible, as it was long believed that this layering would not be stable for long periods of time.

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Earth’s inner core rotating slower than surface, study suggests

Some uncertainties with this topic. Researchers here propose a 70-year cycle, but other theories say 20-30 years, or even no cycle at all.
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Earth’s inner core, a hot iron ball the size of Pluto, has stopped spinning faster than the planet’s surface and might now be rotating slower than it, research suggested on Monday.

Roughly 5,000 kilometers (3,100 miles) below the surface we live on, this “planet within the planet” can spin independently because it floats in the liquid metal outer core, says Phys.org.

Exactly how the inner core rotates has been a matter of debate between scientists—and the latest research is expected to prove controversial.

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Study: How Planetary And Solar Oscillations Affect Earth’s Temperature Cycles

Earth and climate – an ongoing controversy

Introducing the term: Astronomical Harmonic Resonances (AHR). To see the figures cited below, go to the original article (here). A familiar topic to long-time Talkshop visitors, e.g. here.
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The mechanism and even the existence of the Atlantic Multidecadal Oscillation (AMO) have remained under debate among climate researchers, and the same applies to general temperature oscillations of a 60- to 90-year period, writes Antero Oilia, Ph.D. @ Climate Change Dispatch.

The recently published study of Ollila and Timonen has found that these oscillations are real and they are related to 60- and 88-year periodicities originating from the planetary and solar activity oscillations.

These oscillations can be observed in the Atlantic Multidecadal Oscillation (AMO), the Pacific Multidecadal Oscillation (PMO), and actually in the global surface temperature (GST). The similarities between the GST, AMO, PMO, and AHR (Astronomical Harmonic Resonances) are obvious in Fig. 1.

The oscillations are not limited only to temperatures.

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40-Year Study Finds Mysterious Patterns in Temperatures at Jupiter

Jupiter [image credit: NASA]

Unexpected patterns and teleconnections. Some new light is shed on the workings of the solar system’s largest planetary atmosphere.
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Scientists have completed the longest-ever study tracking temperatures in Jupiter’s upper troposphere, the layer of the atmosphere where the giant planet’s weather occurs and where its signature colorful striped clouds form, says Subaru Telescope.

The work, conducted over four decades by stitching together data from NASA spacecraft and ground-based telescope observations, found unexpected patterns in how temperatures of Jupiter’s belts and zones change over time.

The study is a major step toward a better understanding of what drives weather at our solar system’s largest planet and eventually being able to forecast it.

Jupiter’s troposphere has a lot in common with Earth’s: It’s where clouds form and storms churn. To understand this weather activity, scientists need to study certain properties, including wind, pressure, humidity, and temperature.

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Earth-sun distance dramatically alters seasons in the equatorial Pacific in a 22,000-year cycle

Apogee = position furthest away from Earth. Earth. Perihelion = position closest to the sun. Moon. Perigee = position closest to Earth. Sun. Aphelion = position furthest away from the sun. (Eccentricities greatly exaggerated!)

Planetary cycles affecting climate. The study title: ‘Two annual cycles of the Pacific cold tongue under orbital precession’. Some real climate change theory to ponder.
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Weather and climate modelers understand pretty well how seasonal winds and ocean currents affect El Niño patterns in the eastern equatorial Pacific Ocean, impacting weather across the United States and sometimes worldwide, says Robert Sanders, University of California – Berkeley (via Phys.org).

But new computer simulations show that one driver of annual weather cycles in that region—in particular, a cold tongue of surface waters stretching westward along the equator from the coast of South America—has gone unrecognized: the changing distance between Earth and the sun.

The cold tongue, in turn, influences the El Niño-Southern Oscillation (ENSO), which impacts weather in California, much of North America, and often globally.

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Days get longer when the wind blows, say Met Office researchers

Credit: Wikipedia

Interesting, if the suggested predictions work. Tallbloke identified this 13 years ago.
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How long is a day on earth? The obvious answer of 24 hours is accurate enough for many applications, says the Met Office blog.

But for those interested in GPS or deep space, then understanding the fluctuations of about one millisecond in the length of a day can be fundamentally important.

A team at the Met Office, led by Professor Adam Scaife, has calculated that these length of day fluctuations are predictable out to more than one year ahead and this is all to do with predicting the strength of atmospheric winds.

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Controversy over tropical ozone hole

Layers of Earth’s atmosphere

Have experts missed a huge tropical ozone hole that has existed since the 1980s? — asks Geographical. Or could it be more a question of definitions?
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In July, an extraordinary research paper, documenting a huge, previously undetected ozone hole over the tropics, prompted a flurry of news stories.

Said to be seven times the size of the well-known ozone hole over Antarctica, the discovery is cause for ‘great global concern’, according to Qing-Bin Lu, a professor at the University of Waterloo, Canada, and author of the report.

His research suggests that, unlike the Antarctic hole, which only opens in spring, the tropical hole remains open year-round, putting roughly half the world’s population at higher risk from ultraviolet radiation.

Most surprisingly of all, Lu claims that the hole has existed since the 1980s.

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Earth Could Be Even More Habitable. We’d Just Need to Shift Jupiter’s Orbit

Jupiter [image credit: NASA]

Even less feasible than permanently changing Earth’s climate with tiny amounts of trace gases, but theorists have ideas to test.
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We have exactly one world, in all the Universe, that we know for a fact to be hospitable to life: ours, says Science Alert.

So when we’re looking for habitable planets in other planetary systems, beyond our own corner of the galaxy, we often use Earth as the perfect template.

But a new study has revealed Earth isn’t as habitable as it could be. In fact, it could be even more livable, if Jupiter’s orbit shifted slightly.

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Balloons Detect an Earthquake from the Stratosphere

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Next stop: Venus?

Spaceweather.com

August 10, 2022: If you want to detect an earthquake on Venus–good luck. The planet’s surface is hot enough to melt lead, and the atmospheric pressure is crushing. No ground-based seismometer could possibly survive.

What’s an extraterrestrial seismologist to do? Launch a balloon.

Above: Researchers prepare to launch a Strateole-2 balloon with sensors capable of detecting earthquakes from thousands of kilometers away.

A new paper just published in the Geophysical Research Letters reports the detection of a magnitude 7.3 earthquake by a fleet of balloons floating through the stratosphere above Indonesia’s Flores Sea. Onboard infrasound sensors registered acoustic waves rippling upward from the sea surface below, proving that, here on Earth, balloons can be used as seismometers.

“The same technique should work in the atmosphere of Venus,” says Raphael Garcia, the study’s lead author and a planetary scientist at the Institut Supérieur de l’Aéronatique et de l’Espace of the University…

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Blue Jet Lightning Sighted Over Texas

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‘Clearly, it is important to study blue jets.’ – Indeed.

Spaceweather.com

August 4, 2022: Seeing one blue jet is rare. Photographer Matthew Griffiths just caught several of them over the Big Bend National Park in Texas. “This is by far the best,” he says:

Above: A blue jet emerges from a thunderhead in Big Bend National Park, photographed by Matthew Griffiths in Marfa, Texas: more.

Griffiths is an amateur photographer, primarily interested in wildlife and the Milky Way. “On July 28th, I was starting a five night West Texas road trip to capture the Milky Way,” he says. “But with thunderstorms in the distance I decided to try for red sprites instead.”

He ended up photographing the sprite’s elusive cousin, the blue jet. First recorded by cameras on the space shuttle in 1989, blue jets are part of a growing menagerie of cloudtop “transient luminous events” such as sprites, ELVES and green ghosts. They are all elusive, but blue…

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Oh my days! Midnight comes a fraction sooner as Earth spins faster

As Nasa is reported as suggesting that ‘stronger winds in El Niño years can slow down the planet’s spin’, can we – on the basis of no research at all – nominate La Niña as a suspect here? Just trying to be helpful, as MSN claims: Experts confused after earth spins faster.
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Analysis: Reflecting a recent trend, 29 June was the shortest day on our planet since the 1960s. What’s going on? – wonders The Guardian.
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If time feels tighter than ever of late, blame it on the revolution. On 29 June this year, Earth racked up an unusual record: its shortest day since the 1960s, when scientists began measuring the planet’s rotation with high-precision atomic clocks.

Broadly speaking, Earth completes one full turn on its axis every 24 hours. That single spin marks out a day and drives the cycle of sunrise and sunset that has shaped patterns of life for billions of years.

But the curtains fell early on 29 June, with midnight arriving 1.59 milliseconds sooner than expected.

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Why did Mars dry out? Carbon dioxide loss not a factor, say scientists

Mars from NASA’s Hubble Space Telescope

The hunt is now on for the offending ‘missing ingredient’: “Carbon dioxide is a strong greenhouse gas, so it really was the leading candidate to explain the drying out of Mars,” said Kite, an expert on the climates of other worlds. “But these results suggest it’s not so simple.” The article calls this ‘unusual’, but is what it considers usual really so?
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Mars once ran red with rivers, says Phys.org.

The telltale tracks of past rivers, streams and lakes are visible today all over the planet.

But about three billion years ago, they all dried up—and no one knows why.

“People have put forward different ideas, but we’re not sure what caused the climate to change so dramatically,” said University of Chicago geophysical scientist Edwin Kite. “We’d really like to understand, especially because it’s the only planet we definitely know changed from habitable to uninhabitable.”

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Scientists shine new light on role of Earth’s orbit in the fate of ancient ice sheets

A reconstruction of the Anglian ice sheet in Precambrian North London (credit: BBC / The Natural History Museum, London)

They claim this solves the so-called 100,000 year problem described by Wikipedia:
‘The 100,000-year-problem refers to the lack of an obvious explanation for the periodicity of ice ages at roughly 100,000 years for the past million years, but not before, when the dominant periodicity corresponded to 41,000 years. The unexplained transition between the two periodicity regimes is known as the Mid-Pleistocene Transition, dated to some 800,000 years ago.’ [41,000 years being the approximate obliquity cycle period]
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In a new study published today in the journal Science, the team from Cardiff University has been able to pinpoint exactly how the tilting and wobbling of the Earth as it orbits around the Sun has influenced the melting of ice sheets in the Northern Hemisphere over the past 2 million years or so.

Scientists have long been aware that the waxing and waning of massive Northern Hemisphere ice sheets results from changes in the geometry of Earth’s orbit around the Sun, says Phys.org.

There are two aspects of the Earth’s geometry that can influence the melting of ice sheets: obliquity and precession.

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Astronomers surprised by ‘dramatic warming’ at Neptune’s south pole

Neptune

Planetary temperature conundrums are not confined to Earth. Nobody foresaw the observed changes that occurred on Neptune between 2018 and 2020.
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An international team of astronomers have used ground-based telescopes, including the European Southern Observatory’s Very Large Telescope (ESO’s VLT), to track Neptune’s atmospheric temperatures over a 17-year period, Phys.org.

They found a surprising drop in Neptune’s global temperatures followed by a dramatic warming at its south pole.

“This change was unexpected,” says Michael Roman, a postdoctoral research associate at the University of Leicester, UK, and lead author of the study published today in The Planetary Science Journal. “Since we have been observing Neptune during its early southern summer, we expected temperatures to be slowly growing warmer, not colder.”

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Mercury has magnetic storms ‘similar to Earth’

Mercury

Something similar was also detected on Mars a few years ago. One researcher commented: “The sudden intensification of a ring current causes the main phase of a magnetic storm.” Coronal mass ejections from the sun were identified as a cause.
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An international team of scientists has proved that Mercury, our solar system’s smallest planet, has geomagnetic storms similar to those on Earth, says Science Daily.

Their finding, a first, answers the question of whether other planets, including those outside our solar system, can have geomagnetic storms regardless of the size of their magnetosphere or whether they have an Earth-like ionosphere.

The research by scientists in the United States, Canada and China includes work by Hui Zhang, a space physics professor at the University of Alaska Fairbanks Geophysical Institute.

Their finding, a first, answers the question of whether other planets, including those outside our solar system, can have geomagnetic storms regardless of the size of their magnetosphere or whether they have an Earth-like ionosphere.

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Earth is spinning faster now than it was 50 years ago, say scientists

Credit: NASA

Compensating for the lost time may prove challenging for scientists, says Astronomy magazine. Turning the internet clock back one second implies a repeat of a computer-generated timestamp for example, which might confuse some vital systems not designed to handle that.
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Ever feel like there’s just not enough time in the day? Turns out, you might be onto something.

Earth is rotating faster than it has in the last half-century, resulting in our days being ever-so-slightly shorter than we’re used to.

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Tug of sun, moon could be driving plate motions on ‘imbalanced’ Earth, suggest researchers

Credit: reference.com

Plate tectonics has always been good for a science controversy or two. This one throws some solar-planetary spice into the mix, putting a focus on the Earth-Moon barycentre.
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A study led by geophysicist Anne M. Hofmeister in Arts & Sciences at Washington University in St. Louis proposes that imbalanced forces and torques in the Earth-moon-sun system drive circulation of the whole mantle, says Phys.org.

The new analysis provides an alternative to the hypothesis that the movement of tectonic plates is related to convection currents in the Earth’s mantle.

Convection involves buoyant rise of heated fluids, which Hofmeister and her colleagues argue does not apply to solid rocks.

They argue that force, not heat, moves large objects.

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Strong winds power electric fields in the upper atmosphere, NASA’s ICON finds

Caption: This data visualization shows the ICON spacecraft in orbit around Earth. The green arrows show the strong, high-altitude winds—known as atmospheric tides—detected by ICON’s MIGHTI wind imager. These winds are not uniform and can be altered by changes in the lower-altitude atmosphere. This, in turn, changes the particle motion high in the ionosphere. Changes in plasma at 370 miles above Earth’s surface was also detected by ICON as shown in red. Magnetic field lines are shown in magenta and turn yellow as measurements of winds detected by MIGHTI (green arrows) influence the direction of plasma (red arrows). Credit: NASA’s Scientific Visualization Studio/William T. Bridgman
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One researcher said: “We found half of what causes the ionosphere to behave as it does right there in the data”. The hunt is on for the other half. Link includes animations.
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What happens on Earth doesn’t stay on Earth, says Phys.org.

Using observations from NASA’s ICON mission, scientists presented the first direct measurements of Earth’s long-theorized dynamo on the edge of space: a wind-driven electrical generator that spans the globe 60-plus miles above our heads.

The dynamo churns in the ionosphere, the electrically charged boundary between Earth and space.

It’s powered by tidal winds in the upper atmosphere that are faster than most hurricanes and rise from the lower atmosphere, creating an electrical environment that can affect satellites and technology on Earth.

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Surprise: Some Red Auroras are *not* Auroras

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Observing a recurring feature of the Earth’s ring current system.

Spaceweather.com

Nov. 22, 2021: The biggest geomagnetic storm in years erupted this month when a Cannibal CME slammed into Earth’s magnetic field. Auroras spread as far south as California and New Mexico. Upon closer inspection, however, not all of those lights were auroras. Some were “SARs.”

SARs are pure red arcs of light that ripple across the sky during strong geomagnetic storms. Here’s an example from Finland in 2018:

“The SAR was visible to the naked eye for nearly 30 minutes and, after fading a bit, remained visible to my camera for another hour and a half,” recalls photographer Matti Helin.

On Nov 4, 2021, Earth experienced a veritable SAR storm. “We photographed SARs as far south as the McDonald Observatory in Texas,” reports Jeff Baumgardner of Boston University’s Center for Space Physics. “The bands of light swept over our cameras near Boston, then headed south. We knew something special was…

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