A chemical mystery solved – the reaction explaining large carbon sinks

A ‘Holy Grail’ explanation of a process in nature’s carbon cycle is claimed.
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A mystery that has puzzled the scientific community for over 50 years has finally been solved, says EurekAlert.

A team from Linköping University, Sweden, and Helmholtz Munich have discovered that a certain type of chemical reaction can explain why organic matter found in rivers and lakes is so resistant to degradation.

Their study has been published in the journal Nature.

“This has been the holy grail within my field of research for over 50 years”, says Norbert Hertkorn, scientist in analytical chemistry previously at Helmholtz Munich and currently at Linköping University.

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How light can vaporize water without the need for heat – MIT research

The researchers say the effect can be substantial and call it ‘a major part of the picture’. Under the optimum conditions of color, angle, and polarization “the evaporation rate is four times the thermal limit.” It was reported last year but this paper was only accepted last month. That report said: ‘The phenomenon might play a role in the formation and evolution of fog and clouds, and thus would be important to incorporate into climate models to improve their accuracy, the researchers say.’ The best incident angle for the light is 45°, according to the pre-print.
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It’s the most fundamental of processes—the evaporation of water from the surfaces of oceans and lakes, the burning off of fog in the morning sun, and the drying of briny ponds that leaves solid salt behind, says Massachusetts Institute of Technology (MIT, via Phys.org).

Evaporation is all around us, and humans have been observing it and making use of it for as long as we have existed.

And yet, it turns out, we’ve been missing a major part of the picture all along.

In a series of painstakingly precise experiments, a team of researchers at MIT has demonstrated that heat isn’t alone in causing water to evaporate.

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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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Need for a rethink of ‘the critical role’ of atmospheric dust in Earth’s climate

It seems ‘classical dust cycle models have over-estimated the amount of dust emission.’ This in turn affects the results from climate models, which ‘have only been providing a fraction of the story’. This ‘has significant implications’ for reconstructions of past climate.
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You may think of dust as an annoyance to be vacuumed and disposed of, but actually, on a grander scale, it is far more important than most people realize, says Phys.org.

Globally, dust plays a critical role in regulating our climate, radiation balance, nutrient cycles, soil formation, air quality and even human health.

But our understanding of it has been hampered by limitations in current mathematical models. These models, built on methods developed decades ago, struggle to accurately simulate the properties and quantities of dust.

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Simple equations clarify cloud climate conundrum, say researchers

The paper, Weak anvil cloud area feedback suggested by physical and observational constraints, says in the section headed ‘Implications of uncertainty’: ‘A rigorous assessment of the anvil cloud area feedback was lacking because the confounding factors of cloud overlap and a changing cloud radiative effect on the feedback could not be accounted for.’ However, in the article at EurekAlert we find: ‘New analysis based on simple equations has reduced uncertainty about how clouds will affect future climate change’. A somewhat mixed picture there. The chicken/egg climate/clouds ‘conundrum’ remains.
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Clouds have two main effects on global temperature – cooling the planet by reflecting sunlight, and warming it by acting as insulation for Earth’s radiation.

The impact of clouds is the largest area of uncertainty in global warming predictions.

In the new study, researchers from the University of Exeter and the Laboratoire de Météorologie Dynamique in Paris created a model that predicts how changes in the surface area of anvil clouds (storm clouds common in the tropics) will affect global warming.

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Scientists unlock the secrets of sand for revolutionary energy storage

Sand batteries ahead? It’s no secret that sand holds heat quite well.
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Have you ever raced across a hot beach and noticed how warm the sand gets?

That simple experience hints at a powerful idea that could change how we store energy, says Knowridge.

Researchers are now looking at heated sand as a promising solution to store energy for the future.

Unlike the batteries we usually think of for storing energy, this method offers a new and potentially game-changing approach.

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Climate change ‘could’ affect timekeeping, study says

The BBC wants this to be all about the climate, but the study is also pushing the propaganda boat out a long way by claiming that ‘we’ are the cause. It’s known that the Earth’s rotation isn’t constant. ‘In 2022 the International Bureau of Weights and Measures (BIPM), the organization responsible for global timekeeping, voted to abolish leap seconds by 2035. How this new research could impact such a decision remains to be seen.’ Source – Scientific American, which also has this:
“Despite our perceptions as humans, the Earth is not a perfect timekeeper,” says Harvard University geophysicist Jerry X. Mitrovica, who reviewed the new study and co-wrote a commentary on it for Nature. He says these findings highlight the divide between our lived experience and the technology that surrounds us. “How do we handle that divide?” he says. “Do we continue to address this divide by adding or subtracting seconds from our definition of a day, or do we accept this irregular difference as normal and give up the bother of continuously correcting?” — If it’s normal, the human causation argument looks even weaker.
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Climate change is affecting the speed of the Earth’s rotation and could impact how we keep time, a study says.

Accelerating melt from Greenland and Antarctica is adding extra water to the world’s seas, redistributing mass, reports BBC News.

That is very slightly slowing the Earth’s rotation. But the planet is still spinning faster than it used to.

The effect is that global timekeepers may need to subtract a second from our clocks later than would otherwise have been the case.

“Global warming is already affecting global timekeeping,” says the study, published in the journal Nature.

Coordinated Universal Time (UTC) – which is used by most of the world to regulate clocks and time – is calculated by the Earth’s rotation.

But the Earth’s rotation rate is not constant and can therefore have an effect on how long our days and nights are.

As a result, since the 1970s around 27 seconds – known as leap seconds – have been added on to keep our time accurate.

The study finds that a “negative leap second” – subtracting a second from world clocks – would have been needed in 2026 without accelerating polar ice melt.

But now, with ice sheets losing mass five times faster than they were 30 years ago, this change is needed in 2029, the study suggests.

“It’s kind of impressive, even to me, we’ve done something that measurably changes how fast the Earth rotates,” Duncan Agnew, the author of the study, told NBC News. [Talkshop comment – ‘we’?]

Full report here.

An increase in the number of extreme cold days in North China during 2003–2012, research finds

The researchers wrestle with the non-correlation of extreme winter weather events and the monotonic increase in CO2 levels, offering a verdict of ‘probable’ natural variation. They try to support IPCC climate assertions, but the article keeps saying ‘however’. One of the study’s authors says: “This is still a challenging issue that needs further exploration to quantify the relative contributions of natural variability and human activity to regional extreme events.”
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A recent study by researchers from the Institute of Atmospheric Physics, Chinese Academy of Sciences, presents robust interdecadal changes in the number of extreme cold days in winter over North China during 1989–2021, and the findings have been published in Atmospheric and Oceanic Science Letters, says EurekAlert.

Specifically, the number of extreme cold days increased around the year 2003 and then decreased around the year 2013, with a value of 8.7 days per year during 1989–2002, 13.5 during 2003–2012, and 6.6 during 2013–2021.

During 2003–2012, the Siberian–Ural High strengthened and the polar jet stream weakened, which favored frequent cold air intrusion into North China, inducing more extreme cold days. In addition, the intensity of extreme cold days in North China showed no significant difference in the three periods.

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Can volcanic super eruptions lead to major cooling? Study suggests no

The research came up with ‘relatively modest temperature changes’. One NASA atmospheric scientist commented: “To me, this is another example of why geoengineering via stratospheric aerosol injection is a long, long way from being a viable option.” (Here’s another one). Climate alarmists can imagine doing some things, but so can Hollywood scriptwriters.
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New research suggests that sunlight-blocking particles from an extreme eruption would not cool surface temperatures on Earth as severely as previously estimated, says Phys.org.

Some 74,000 years ago, the Toba volcano in Indonesia exploded with a force 1,000 times more powerful than the 1980 eruption of Mount St. Helens. The mystery is what happened after that—namely, to what degree that extreme explosion might have cooled global temperatures.

When it comes to the most powerful volcanoes, researchers have long speculated how post-eruption global cooling—sometimes called volcanic winter—could potentially pose a threat to humanity.

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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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Why atmospheric geoengineering is dead in the water

Another idea for slaying imaginary climate dragons runs into trouble, as new research finds ‘an intervention that cools the air would not be able to cool the deep ocean on the same timescale’. So for believers in a climate crisis the desired short-term effectiveness just isn’t there.
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Climate change is heating the oceans, altering currents and circulation patterns responsible for regulating climate on a global scale [Talkshop comment – empty assertions]. If temperatures dropped, some of that damage could theoretically [sic] be undone.

But employing “emergency” atmospheric geoengineering later this century in the face of continuous high carbon emissions would not be able to reverse changes to ocean currents, a new study finds.

This would critically curtail the intervention’s potential effectiveness on human-relevant timescales.

Oceans, especially the deep oceans, absorb and lose heat more slowly than the atmosphere, so an intervention that cools the air would not be able to cool the deep ocean on the same timescale, the authors found.

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Flying laboratory measuring cloud chemistry above Australia aims to improve climate model predictions

The German scientists are engaged in an ongoing project intended to help refine climate modelling. One sums up their approach: “To predict it, we really need to understand it.” But ideally that understanding, if or when it occurs, should have preceded many of the dire claims already put forward that the global climate is going downhill due to human activities. Such biases could be a hindrance to research.
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A team of German scientists have been circling the skies above northern Australia and the Pacific Ocean in a high-tech research aircraft studying the atmospheric chemistry occurring above the clouds, says ABC News.

The Chemistry of the Atmosphere: Field Experiment (CAFE) team has tracked weather events and taken samples and measurements up to 15 kilometres above sea level.

Professor Mira Pöhlker from the Leibniz Institute for Tropospheric Research and Max Planck Institute for Chemistry said the team’s research would help refine weather and climate models leading to better forecasts and projections.

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Is tree planting overrated as a climate benefit? Researchers think so

Nature’s carbon cycle carries on regardless.
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Roughly a third of the climate cooling that forests achieve by removing carbon dioxide (CO2) from the atmosphere is offset through changes to atmospheric composition and decreased surface reflectivity, researchers report.

The findings suggest that the benefits of wide-scale forestation efforts may be overestimated and do not represent a single solution for addressing climate change, says EurekAlert.

They also highlight the urgency of simultaneously focusing on emissions reductions. Planting trees has been widely promoted as a nature-based solution to remove anthropogenic CO2 from the atmosphere to help mitigate ongoing climate warming.

However, wide-scale forest expansion may drive feedbacks within the Earth system that lead to warming.

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When the global climate has the hiccups – ‘repeated rapid increases in temperature’

Promoters of a current ‘climate crisis’ often call modern warming and/or events within it, ‘unprecedented’. However, compared to events like this: “A Neanderthal would have experienced increases in the average temperature of several degrees over the course of their life” [explains Prof.], not much is presently going on. Climate variability can happen in different ways, and repeat over long timescales.
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In recent geological history, the so-called Quaternary period, there have been repeated ice ages and warm periods, says Science Daily.

Researchers are able to determine past climate variability from the composition of climate records. In the case of the last glacial period 100,000 years ago, ice cores from Greenland in particular provide researchers with detailed data.

For example, Greenland ice cores show that there were repeated rapid increases in temperature.

“We are talking about increases of 5 to 10 degrees within 30 to 40 years on average in the case of Europe. A Neanderthal would have experienced increases in the average temperature of several degrees over the course of their life,” explains Prof. Dominik Fleitmann, Professor of Quaternary Geology at the University of Basel.

He calls the phenomena “climate hiccups.”

These Dansgaard-Oeschger events are well documented for the last glacial period, but the climate records from Greenland only cover the last 120,000 years.

It was therefore previously unknown whether these Dansgaard-Oeschger events also occurred during the penultimate glacial period 135,000 to 190,000 years ago.

Frederick Held, a PhD candidate in Fleitmann’s research group, was able to show that Dansgaard-Oeschger events also occurred during the penultimate glacial period using isotopic measurements on stalagmites.

He is the lead author of the study which was published in the scientific journal Nature Communications.

The North Atlantic as the source of change

The stalagmites examined originate from the Sofular Cave in Turkey, which is located in a region that is very sensitive to climate change.

The researchers therefore refer to it as a key region, as it is influenced by the winds of the North Atlantic and the Black Sea is just a few kilometers away.

“We used the isotopic composition in the stalagmites to determine the moisture sources from which they are formed — the Black Sea, the Mediterranean Sea and the North Atlantic,” explains Frederick Held.

For the first time, the evaluations carried out on the stalagmites from the Sofular Cave have proven that Dansgaard-Oeschger events also occurred during the penultimate glacial period.

“It was previously unknown whether these relatively brief temperature events actually happened in earlier glacial periods,” states Held.

However, they occurred less frequently in the penultimate glacial period than in the last one: “The temperature peaks are twice as far apart from one another, meaning there were longer cold phases between them.”

These temperature fluctuations originate in the North Atlantic, as the circulation of the ocean is a global conveyor belt for heat and can sometimes be stronger and sometimes weaker.

“For example, the circulation affects the exchange of heat between the atmosphere and the ocean, which, in turn, impacts the balance of heat in the Northern Hemisphere and air flows and rainfall,” explains Held.

He states that weakened circulation also reduces the quantity of CO2 which the ocean absorbs from the atmosphere.

These ocean currents were different in the penultimate glacial period than in the last one, which explains the different intervals between the Dansgaard-Oeschger events.

This shows that not all glacial periods are the same and not all warm periods are the same.
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The geologist also hopes to clarify any outstanding questions by means of additional analyses. “For example, we do not yet know whether the increases in temperature were periodic or stochastic, in other words random.”

Full article here.

Image: Greenland ice core [credit: K. Makinson @ Wikipedia]

CO2 goes quantum in new research paper

CO2 is not pollution

Extracts from an article on this, below. This is just a heads-up that the paper is about to be published. Pre-print version here, title: Fermi Resonance and the Quantum Mechanical Basis of Global Warming.
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The reason why CO2 is so good at trapping heat [Talkshop comment – according to some theorists] essentially boils down to the way the three-atom molecule vibrates as it absorbs infrared radiation from the Sun, asserts The Conversation (via Science Alert).

“It is remarkable,” Harvard University planetary scientist Robin Wordsworth and colleagues write in their new preprint, “that an apparently accidental quantum resonance in an otherwise ordinary three-atom molecule has had such a large impact on our planet’s climate over geologic time, and will also help determine its future warming due to human activity.”

When hit with incoming rays of light at certain wavelengths, CO2 molecules don’t just jiggle about as one fixed unit as you might expect. Rather, CO2 molecules – which are made up of one carbon atom flanked by two oxygens – bend and stretch in certain ways.

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Clouds disappear quickly during a solar eclipse, shows study – ‘a warning for climate engineering’

The research, titled ‘Clouds dissipate quickly during solar eclipses as the land surface cools’, suggests interfering with solar radiation to try and weaken natural warming would be even riskier than previously thought.
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Cumulus clouds over land start to disappear almost instantly during a partial solar eclipse, says Phys.org.

Until recently, satellite measurements during the eclipse resulted in dark spots in the cloud map, but researchers from TU Delft and KNMI were able to recover the satellite measurements by using a new method.

The results may have implications for proposed climate engineering ideas because disappearing clouds can partly oppose the cooling effect of artificial solar eclipses.

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Temperatures are rising, but soil is getting wetter, confounding climate theorists

One overlooked factor was the CO2 fertilization effect in plant photosynthesis. The researchers found that “it’s virtually impossible to predict soil moisture in the coming decades”, contrary to some alarmist notions about future droughts.
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Soil moisture can determine how quickly a wildfire spreads, how fast a hill turns into a mudslide and, perhaps most importantly, how productive our food systems are, says Eurekalert.

As temperatures rise due to human-caused climate change [Talkshop comment – evidence-free assertion of cause], some researchers are concerned that soils will dry.

However, between 2011 to 2020, soil moisture increased across 57% of the United States during summer, the warmest time of year.

Why did soil get wetter even as the planet got hotter?

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Satellite traffic jams ahead?

Will Satellite Megaconstellations Weaken Earth’s Magnetic Field?

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Researcher: “We absolutely cannot dump endless amounts of conductive dust into the magnetosphere and not expect some kind of impact. Multidisciplinary studies of this pollution are urgently needed.”

Study: Potential Perturbation of the Ionosphere by Megaconstellations and Corresponding
Artificial Re-entry Plasma Dust

New study reports that Greenland is a methane sink rather than a source

Greenland settlement [image credit: climatechangepost.com]

A large dent goes in to thawing permafrost scares, as another ‘ticking time bomb’ based on greenhouse gas theories turns out to be a dud. As for carbon dioxide, the professor leading the study commented: “…the ice-free parts of Greenland have only been without ice since the last ice age, meaning that they never stored much carbon”. Climate models will have to be revised.
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Researchers at the University of Copenhagen have concluded that the methane uptake in dry landscapes exceeds methane emissions from wet areas across the ice-free part of Greenland.

The results of the new study contribute important knowledge to climate models, says Phys.org.

The researchers are now investigating whether the same finding applies to other polar regions.

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Researchers probe a conundrum: If the world is warming, why are our winters getting colder?

Gulf Stream flows

Some recent cold weather events are puzzling to global warming researchers, in terms of climate model expectations. Especially so for the ‘Center for Irreversible Climate Change’ in South Korea. Temporary natural variation seems to be the conclusion. What else could they say without casting doubt on human-caused warming theories?
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If the world is warming, why are our winters getting colder?

Indeed, East Asia and North America have experienced frequent extreme weather events since the 2000s that defy average climate change projections, says Phys.org.

Many experts have blamed Arctic warming and a weakening jet stream due to declining Arctic sea ice, but climate model experiments have not adequately demonstrated their validity.

The massive power outage in Texas in February 2021 was caused by an unusual cold snap, and climate models are needed to accurately predict the risk of extreme weather events in order to prevent massive socioeconomic damage.

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