Why is methane seeping on Mars? NASA scientists have new ideas

Only at night though, it seems. “It’s a story with a lot of plot twists”, said a Mars project scientist. Saturn’s moon Titan is awash with methane, but no sign of life present or past, so why should Mars having some be a surprise?
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The most surprising revelation from NASA’s Curiosity Mars Rover—that methane is seeping from the surface of Gale Crater—has scientists scratching their heads, says Phys.org.

Living creatures produce most of the methane on Earth [Talkshop comment – really?]. But scientists haven’t found convincing signs of current or ancient life on Mars, and thus didn’t expect to find methane there.

Yet, the portable chemistry lab aboard Curiosity, known as SAM, or Sample Analysis at Mars, has continually sniffed out traces of the gas near the surface of Gale Crater, the only place on the surface of Mars where methane has been detected thus far.

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Weird dent in Earth’s magnetic field is messing with auroras in the Southern Hemisphere

The South Atlantic Anomaly is an interesting phenomenon, which varies over time and may be related to a zone of unusually dense rock.
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A bizarre dent in Earth’s magnetic field above the southern Atlantic Ocean weakens the southern lights, new research finds.

The South Atlantic Anomaly is a large, oval-shaped region over South America and the southern Atlantic Ocean where Earth’s magnetic field is weakest, says Live Science.

The anomaly is already well known for allowing charged particles from the sun to dip close to Earth’s surface, exposing satellites orbiting above to high levels of ionizing radiation, according to NASA.

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The Sahara Desert used to be a green savannah : Research explains why – it’s a climate cycle

Sahara desert from space [image credit: NASA]

We’re informed that ‘scientists have identified more than 230 of these greenings occurring about every 21,000 years over the past eight million years.’ (Ice ages may account for the numerical shortfall). Climate models aren't able to simulate these greenings, or at least not their magnitude. The period they identify is the combined precession cycle, i.e. the beat period of the tropical and anomalistic orbits (years) of the Earth (when the difference between the number of each reaches 1). Inevitably it’s about the energy received from the Sun.
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Algeria’s Tassili N’Ajjer plateau is Africa’s largest national park, says The Conversation (via Phys.org).

Among its vast sandstone formations is perhaps the world’s largest art museum. Over 15,000 etchings and paintings are exhibited there, some as much as 11,000 years old according to scientific dating techniques, representing a unique ethnological and climatological record of the region.

Curiously, however, these images do not depict the arid, barren landscape that is present in the Tassili N’Ajjer today.

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Scientists discover rare six-planet system that moves in synchrony

Transiting Exoplanet Survey Satellite (TESS) [image credit: NASA]

This system looks like a prize winner for resonance. For no obvious reason Phys.org calls it ‘strange’ synchrony. Planets orbiting near their star (orbit periods from 9 to 55 days in this example) are bound to be strongly influenced by it, in the same way moons close to planets can be.
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Scientists have discovered a rare sight in a nearby star system: Six planets orbiting their central star in a rhythmic beat, says Phys.org.

The planets move in an orbital waltz that repeats itself so precisely that it can be readily set to music.

A rare case of an “in sync” gravitational lockstep, the system could offer deep insight into planet formation and evolution.

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Recording the first daily measurements of Earth’s rotation shifts

Credit: NASA/EPIC, edit by Tdadamemd @ Wikipedia

When they say ‘shifts’ they’re measuring in milliseconds or even smaller units of time. Physics Today says ‘The new measurements are relevant to understanding the global water cycle and atmospheric circulation and may provide an important constraint on the effect of all those processes together.’
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Researchers at the Technical University of Munich (TUM) have succeeded in measuring the Earth’s rotation more exactly than ever before, reports Phys.org.

The ring laser at the Geodetic Observatory Wettzell can now be used to capture data at a quality level unsurpassed anywhere in the world.

The measurements will be used to determine the Earth’s position in space, benefit climate research, and make climate models more reliable.

Care to take a quick step down to the basement and see how fast the Earth has been turning in the last few hours?

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Enceladus, Previous Speedster – AAS Nova

Three of Saturn’s moons — Tethys, Enceladus and Mimas — as seen from NASA’s Cassini spacecraft [image credit: NASA/JPL]

Enceladus is in a 2:1 resonance with a moon named Dione, but Tethys – another major moon of Saturn – orbits between them and is in a 1:2 resonance with Mimas, whose orbit lies inside that of Enceladus. So the order of proximity to the planet is Mimas, Enceladus, Tethys, Dione. The study looks at how the Enceladus-Dione part of this unusual set-up could have come into being. Talking of speed, all four moons orbit their very large planet in less than three days (Mimas in less than one day).
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Enceladus, one of Saturn’s moons, is currently being tugged around and heated up by another moon named Dione, says AAS Nova.

How the two ended up in this arrangement is a mystery, since to get there, Enceladus must have avoided getting caught up in a resonance with another moon named Tethys.

A recent article offers a possible explanation: Enceladus may have blitzed over to its current position in a short-lived burst of speed.

Dynamic Moons
We typically imagine that moons circle their host planets with clockwork regularity, meaning that they precisely trace out the same path at the same speed for all time. However, true reality cannot be described by a system composed of rigid gears.

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Van Gogh Waves in the Magnetosphere

Van Gogh Waves in the Magnetosphere

‘A key finding of Kavosi’s paper is that the waves prefer equinoxes.’

New research says orbital factors show why and when the Sahara Desert was green

Sahara desert from space [image credit: NASA]

No trace gases required to drive these climate processes. It was found that ‘the North African Humid Periods occurred every 21,000 years and were determined by changes in Earth’s orbital precession.’
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A pioneering study has shed new light on North African humid periods that have occurred over the past 800,000 years and explains why the Sahara Desert was periodically green, says Science Daily.

The research, published in Nature Communications, showed periodic wet phases in the Sahara were driven by changes in Earth’s orbit around the Sun and were suppressed during the ice ages.

For the first time, climate scientists simulated the historic intervals of ‘greening’ of the Sahara, offering evidence for how the timing and intensity of these humid events were also influenced remotely by the effects of large, distant, high-latitude ice sheets in the Northern Hemisphere.

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Yndestad: A Cold Climate Period is coming

Prof. Harald Yndestad explains the research and calculations behind his ideas, and how he not only came to question IPCC-type predictions of large temperature rises in the next decades, but arrived at his own.
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Climate data series reveals we are moving into a new serious cold climate period.

1. Solar irradiation from the sun has a computed maximum in 2017 and deep minimum in 2050.
2. Solar forced climate variation has a computed 500-year maximum in 2025, and a 1000-year deep minimum in 2070AD.

Read more here.

The clouds on Neptune perform a surprise disappearing act, linked to the solar cycle

Neptune

As the senior author of the study noted: “These remarkable data give us the strongest evidence yet that Neptune’s cloud cover correlates with the sun’s cycle”. The planet receives only 1/900th of the sunlight we get on Earth.
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For the first time in nearly three decades of observations, clouds seen on Neptune have all but vanished, says Phys.org.

Images from 1994 to 2022 of the big blue planet captured from Maunakea on Hawaiʻi Island through the lens of W. M. Keck Observatory, along with views from space via NASA’s Hubble Space Telescope show clouds are nearly gone with the exception of the south pole.

The observations, which are published in the journal Icarus, further reveal a connection between Neptune’s disappearing clouds and the solar cycle—a surprising find given that Neptune is the farthest major planet from the sun and receives only 1/900th of the sunlight we get on Earth.

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Hexagons on Mars: New Evidence of an Environment Conducive to the Emergence of Life

Self-portrait of NASA’s Curiosity Mars rover [image credit: NASA/JPL @ Wikipedia]

Remote control geology at work.
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Using data from NASA’s Curiosity rover, scientists have discovered patterns on Mars that provide evidence of a cyclical climate similar to that of Earth.

This major discovery opens up new prospects for research into the origin of life, says SciTechDaily.

The results of the study, which was conducted by scientists at the CNRS, Université Toulouse III – Paul Sabatier, and Université Claude Bernard Lyon 1, with the participation of CNES, were published on August 9, 2023, in the journal Nature.

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Jupiter, Earth and Venus’ tropical alignments point to the mean solar cycle length

Precession of Earth’s axis [image credit: NASA, Mysid @ Wikipedia]

Introduction:
A number of researchers have hypothesised that the relative motions of Jupiter, Earth and Venus are connected to the length of solar cycles. In this post we will show that cyclic periods of 83 years (Gleissberg), 166 years (Landscheidt, Wilson), and 996 years (Eddy, Stefani et al) are found not just in the syzygies and synodic periods between these planets, but also in their heliocentric orientations with respect to a frame of reference rotating at the rate of Earth’s axial precession. This discovery has implications for our understanding of the forces driving that axial precession, and opens some new avenues for hypothesising about the links between planetary motion and solar activity variations.

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We propose that not only amplitude, but the mean period of the solar cycle itself derives from planetary influence in a specific manner.

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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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