New discovery reveals that ocean algae ‘unexpectedly’ help cool the Earth

A compound found in algae can have a significant role in cloud formation, and is said to be ‘a major source of climate-cooling gases’. A study author suggests a ‘need to rethink’ what the climate impacts are.
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A common type of ocean algae plays a significant role in producing a massively abundant compound that helps cool the Earth’s climate, new research has discovered.

The findings of the study by the University of East Anglia (UEA) and Ocean University of China (OUC) could change our understanding of how these tiny marine organisms impact our planet, says Phys.org.

The work appears in Nature Microbiology.

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NASA mission flies over Arctic to study sea ice melt causes – calling ‘settled science’ into question?

NASA says: “There are many different factors that influence the sea ice. We’re measuring them to determine which were most important to melting ice this summer.” Where does that leave so-called ‘state-of-the-art’ climate models? They’re only going to be measuring seasonal factors, not longer-term cycles for example, but it’s at least an attempt to look harder at the whole topic.
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It’s not just rising air and water temperatures influencing the decades-long decline of Arctic sea ice, says NASA (via Phys.org).

Clouds, aerosols, even the bumps and dips on the ice itself can play a role.

To explore how these factors interact and impact sea ice melting, NASA is flying two aircraft equipped with scientific instruments over the Arctic Ocean north of Greenland this summer.

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Study: Reduced sulphur content in shipping fuel caused ‘nearly 80%’ of recent atmospheric warming

Due to a 2020 shipping regulation…’The net planetary heat uptake has increased by 0.25 Wm−2 since 2020, making the 0.2 Wm−2 due to IMO2020 nearly 80% of the total increase.’ The study also says: ‘The 2023 record warmth is within the ranges of our expected trajectory. The magnitude of IMO2020 induced warming means that the observed strong warming in 2023 will be a new norm in the 2020 s.’ — Two general comments to make here: (1) cloud physics is admitted to be not well understood, and (2) could night-time clear(er) skies mean (more) cooling, in theory at least?
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An 80% reduction in sulphur dioxide shipping emissions observed in early 2020 could be associated with substantial atmospheric warming over some ocean regions, according to a modelling study published in Communications Earth & Environment.

The sudden decline in emissions was a result of the introduction of the International Maritime Organization’s 2020 regulation (IMO 2020), which reduced the maximum sulphur content allowed in shipping fuel from 3.5% to 0.5% to help reduce air pollution, says EurekAlert.

Fuel oil used for large ships has a significantly higher percentage content of sulphur than fuels used in other vehicles. Burning this fuel produces sulphur dioxide, which reacts with water vapour in the atmosphere to produce sulphate aerosols.

These aerosols cool the Earth’s surface in two ways: by directly reflecting sunlight back to space [Talkshop comment – daytime effect only]; and by affecting cloud cover.

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Satellite mission to ‘unravel’ how clouds impact future climate change?

Let’s hope this is not going to be used as another excuse to pretend alarmist predictions from climate models have improved, just because some extra data is being fed in.
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A brand new satellite that will revolutionize our understanding of the role clouds and aerosol particles play in climate change is set to launch after more than 30 years of planning, says the University of Reading (via Phys.org).

The EarthCARE satellite is the brainchild of the University of Reading’s Professor Anthony Illingworth. Conceived in 1993, the project was adopted by the European Space Agency (ESA) in 2004.

The satellite is set to blast off from California’s Vandenberg Space Force Base on board one of Elon Musk’s SpaceX rockets, scheduled for launch no earlier than Tuesday 28 May 2024.

The mission is a testament to the power of U.K. and international collaboration and the importance of long-term, dedicated research. The satellite, equipped with four cutting-edge instruments, will provide unprecedented insights into the complex interactions between clouds, aerosols, and Earth’s climate.

This data will be invaluable in shaping our understanding of climate change and informing future climate adaptation and mitigation policies.

Professor Anthony Illingworth, Professor of Atmospheric Physics at the University of Reading, said, “When we first started dreaming up this project, I never imagined I would be flying out to the United States to watch our satellite launch 30 years later.

“It’s been a long and challenging journey with an amazing team of dedicated scientists and engineers from the U.K. and abroad. Together, we’ve created something truly remarkable that will change the way we understand our planet.

“The data we gather from EarthCARE will be invaluable in helping us observe the precise mechanisms involved in how clouds and dust reflect and absorb heat. This will make our predictions for the future of our climate even more precise, meaning we can make more informed decisions about how to mitigate and adapt to the challenges posed by a warming world.

“The extraordinary data we receive will help us create a more sustainable future for our planet. It’s a humbling and thrilling experience to be part of something so significant.”
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Currently, climate models do not agree on how effective clouds and aerosols are at influencing the impact of global warming. For example, if there were fewer cloudy days in the future, less energy from the sun would be reflected back into space, which would increase the rate of climate warming.

EarthCARE’s new observations will help scientists to develop more precise climate models, which will significantly improve climate predictions and lead to more informed policy decisions.

Full article here.

Battle of the skies as airlines fight over impact of contrails on the climate

This report summary says ‘Vapour trails conundrum resurfaces’. Cloud formation plays an uncertain part in the debate, for example. An experiment using AI found that real time route selection could play a part in reducing the supposed ’emissions’ problem. Proposed financial penalties for airlines are inevitably resisted, but they’re up against net zero climate obsession.
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Airlines are usually rather good at presenting a united face to the world, particularly when it comes to lobbying global policymakers, says The Telegraph.

But a recent move by the EU to clampdown on so-called contrails, the vapour that spews from an aircraft’s jet engines in a thin cloud-like formation, has set carriers at each other’s throats.

The International Air Transport Association (Iata), which counts most of the world’s flag-carriers among its members, has lobbied Brussels to limit the mandatory monitoring of contrails to only flights within the bloc, in an effort to ease the burden of data collection.

But it has stoked the ire of low-cost operators including EasyJet and Ryanair.

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New climate study: Size matters to sensitive clouds

Henrik Svensmark’s research group has been busy again. This article says clouds are ‘the largest source of uncertainty in predicting future climate change’. Climate models may need another revision.
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Cloud cover, one of the biggest regulators of Earth’s climate, is easier to affect than previously thought, says Eurekalert.

A new analysis of cloud measurements from outside the coast of California, combined with global satellite measurements, reveals that even aerosol particles as small as 25-30 nanometers may contribute to cloud formation.

Hence, the climate impact of small aerosols may be underestimated.

Clouds are among the least understood entities in the climate system and the largest source of uncertainty in predicting future climate change.

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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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Photos of torrential Dubai flash floods show the downsides of trying to control the weather

The UAE’s cloud seeding operations worsened the Dubai flash floods according to this source. Would-be climate savers with grandiose schemes can take note.
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Summary:
— The United Arab Emirates experienced torrential rainfall and severe flash floods on Tuesday.
— The flooding was worsened by the UAE’s cloud seeding practice to address water scarcity.
— The weather modification method involves getting clouds to drop more precipitation.
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Torrential rainfall pummeled the United Arab Emirates this week, resulting in flash floods that have caused air travel delays, closed schools, and deluged homes, says Business Insider.

Dubai International Airport — recently named the most luxurious airport in the world — was diverting planes as of Tuesday evening until the weather conditions improved, according to a statement.

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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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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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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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Polar vortex wobbled ‘like a top’ in December

The Polar Vortex Wobbled in December

Unusual but not unheard of.
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‘Since the December outbreak of PSCs [polar stratospheric clouds], which ended around Christmas, the polar stratosphere has warmed more than 30 degrees Celsius.’

Researchers use new 3D global climate model to test runaway greenhouse theory, with odd results

We quote the last part of this Phys.org article, headed: ‘A planet Earth in a fragile equilibrium.’ Somehow the model finds that once the oceans have eventually evaporated ‘we would even reach 273 bars of surface pressure and over 1,500°C’. This seems a bit unlikely on the face of it as it’s three times the surface pressure, and temperature [note the link between those two] of Venus despite being nearly 40% further away from the Sun. We note that it’s not unheard of for climate models to over-predict temperature effects.
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Talkshop note – the article earlier states:
One of the key points of the study describes the appearance of a very peculiar cloud pattern, increasing the runaway effect, and making the process irreversible. “From the start of the transition, we can observe some very dense clouds developing in the high atmosphere. Actually, the latter does not display anymore the temperature inversion characteristic of the Earth atmosphere and separating its two main layers: the troposphere and the stratosphere. The structure of the atmosphere is deeply altered,” says Chaverot.
. . .
A planet Earth in a fragile equilibrium.

With their new climate models, the scientists have calculated that a very small increase of the solar irradiation—leading to an increase of the global Earth temperature, of only a few tens of degrees—would be enough to trigger this irreversible runaway process on Earth and make our planet as inhospitable as Venus.

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Early start for seasonal polar stratospheric clouds

An Outbreak of Polar Stratospheric Clouds

An unusual temperature drop in the polar stratosphere.
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NASA (2008) said:
Scientists recently discovered that polar stratospheric clouds, long known to play an important role in Antarctic ozone destruction, are occurring with increasing frequency in the Arctic. These high altitude clouds [which] form only at very low temperatures help destroy ozone in two ways.
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NASA Ozone Watch (Images, data, and information for the Northern Hemisphere).

Nobel Laureate Dr. John Clauser: Climate Models Miss Key Variable – Clouds

Paraphrasing a well-known misquote (‘I thought it sounded so good that I never bothered to deny it’): “A trillion here, a trillion there, and pretty soon you’re talking real money.” Why clouds make climate, briefly explained in layman’s terms.
[Start the video at 5 mins. or watch the clip here].
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“This is clearly the most important, the controlling mechanism for the earth’s temperature & climate. And it dwarfs the effect of CO2 & methane.”

Nobel prize winner John Clauser says the complexities of clouds and variations in cloud cover have been largely ignored in climate models—with major implications.

He argues there is no climate emergency, says Climate Depot.

More cloud uncertainties: researching the effect of aerosol particles on clouds and the climate

Again it turns out that climate modellers don’t understand cloud effects too well. As this article bluntly puts it: ‘The interactions of atmospheric aerosols with solar radiation and clouds continue to be inadequately understood and are among the greatest uncertainties in the model description and forecasting of changes to the climate. One reason for this is the many unanswered questions about the hygroscopicity of aerosol particles.’ — Other reasons aren’t discussed here. Why do we keep reading about ‘state-of-the-art’ climate models when they clearly have a long way to go to merit such a description? Any forecasts they produce should be treated with great caution, to say the least.
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The extent to which aerosol particles affect the climate depends on how much water the particles can hold in the atmosphere, says Phys.org.

The capacity to hold water is referred to as hygroscopicity (K) and, in turn, depends on further factors—particularly the size and chemical composition of the particles, which can be extremely variable and complex.

Through extensive investigations, an international research team under the leadership of the Max Planck Institute for Chemistry (MPIC) and the Leibniz Institute for Tropospheric Research (TROPOS) was able to reduce the relationship between the chemical composition and the hygroscopicity of aerosol particles to a simple linear formula.

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Giant Alaskan dust storms impact the world’s climate, say scientists

Alaskan dust storm [image credit: NASA]

Although this was already a known effect to some extent, the new research suggests the effect is ‘bigger than previously thought’. Anything linked to cloud formation is significant, including for climate modellers.
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Giant dust storms in the Gulf of Alaska can last for many days and send tons of fine sediment or silt into the atmosphere, and it is having an impact on the global climate system, say scientists.

The storms are so extensive they can be seen by satellites orbiting the Earth, reports Phys.org. An image captured by the Landsat satellite in 2020 shows dust blowing out of the valley and over Alaska’s south coast.

Exactly how the dust may be influencing the global climate system is not yet clear, although new research from the University of Leeds and the National Center for Atmospheric Science suggests the effect is bigger than previously thought.

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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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Disappearing clouds blamed for ‘crazy’ rise in ocean temperatures

Is this a case of ‘be careful what you wish for’? In a world of unproven climate assumptions masquerading as facts, the potential for unintended consequences is unlimited.
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Disappearing clouds are to blame for the “crazy” rise in ocean temperatures, scientists have warned.

A policy introduced in 2020 to cut the amount of sulphur emitted by ships resulted in an 80 per cent reduction of the element in the Earth’s atmosphere, says The Telegraph.

The International Maritime Organisation (IMO) demanded that the sulphur content in fuel be cut from 3.5 per cent to 0.5 per cent for all vessels operating worldwide.

The policy resulted in fewer build-ups of the element in clouds and less cloud coverage overall.

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