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Comment by Dr. Krishna Kumari Challa on June 23, 2023 at 11:36am

The factual Face of Science

During my science communication journey, I found that the majority of people approach science in these four different ways:
Science is a subject students study in classrooms, so after the class they can leave it there and go home.
Science is something done by scientists in the lab, a thinking process that is creating a gap between the scientific world and the layman's world.
Science is a wonderful tool to authenticate their irrational beliefs, during which they can create their own new theories. Scientists call it 'junk science'.
Science is something that aids in developing the gadgets they use: cell phones, laptops, and television sets.

Now, how about expanding science from classrooms to the universal level? And present the full splendour of science to the world from several angles?
How about broadening the reach of scientific research from labs to laymen, erasing all the distances so that they can use it efficiently to its full extent?
How about making people throw junk science into trash cans by showing that science is a wonderful mechanism to accomplish several heroic things, and creating junk science is not one of them?
And how about showing people that science can develop a lot more than smart phones and laptops?

This is exactly what we do here.

Comment by Dr. Krishna Kumari Challa on June 23, 2023 at 11:26am

Physicists discover a new switch for superconductivity

Under certain conditions—usually exceedingly cold ones—some materials shift their structure to unlock new, superconducting behavior. This structural shift is known as a "nematic transition," and physicists suspect that it offers a new way to drive materials into a superconducting state where electrons can flow entirely friction-free.

But what exactly drives this transition in the first place? The answer could help scientists improve existing superconductors and discover new ones.

Now, physicists have identified the key to how one class of superconductors undergoes a nematic transition, and it's in surprising contrast to what many scientists had assumed.

The physicists made their discovery studying iron selenide (FeSe), a two-dimensional material that is the highest-temperature iron-based superconductor. The material is known to switch to a superconducting state at temperatures as high as 70 kelvins (close to -300 degrees Fahrenheit). Though still ultracold, this transition temperature is higher than that of most superconducting materials. The higher the temperature at which a material can exhibit superconductivity, the more promising it can be for use in the real world, such as for realizing powerful electromagnets for more precise and lightweight MRI machines or high-speed, magnetically levitating trains.

For those and other possibilities, scientists will first need to understand what drives a nematic switch in high-temperature superconductors like iron selenide. In other iron-based superconducting materials, scientists have observed that this switch occurs when individual atoms suddenly shift their magnetic spin toward one coordinated, preferred magnetic direction.

But the Physicists now found that iron selenide shifts through an entirely new mechanism. Rather than undergoing a coordinated shift in spins, atoms in iron selenide undergo a collective shift in their orbital energy. It's a fine distinction, but one that opens a new door to discovering unconventional superconductors.

Occhialini, C.A., et al, Spontaneous orbital polarization in the nematic phase of FeSe, Nature Materials (2023). DOI: 10.1038/s41563-023-01585-2. www.nature.com/articles/s41563-023-01585-2

Comment by Dr. Krishna Kumari Challa on June 22, 2023 at 11:44am

The Cause of Morning Sickness

A team of researchers, after decades of research, has singled out one hormone which acts on the brain to cause vomiting as the likely cause of morning sickness – and added a stack of new evidence to back up their claims.

Researchers have had their sights set on a particular hormone called GDF15 ever since it was first detected at high levels in the blood serum of pregnant women in 2000. Since then, twin studies and genomic sequencing studies of people with severe nausea and vomiting in pregnancy have pointed to a genetic component of their illness involving two genes, including the one that encodes GDF15. The lines of evidence were aligning.

Nausea and vomiting are very common in the first trimester of pregnancy, but in around 2 percent of cases or 1 in 50 pregnancies, a most severe form develops known as hyperemesis gravidarum (HG).

Researchers uncovered a few new rare and common genetic variants in the GDF15 gene which they linked to the risk of HG. But the interplay between these genetic quirks, and the GDF15 hormone remained unclear.

latest batch of evidence supports the idea that GDF15 triggers hyperemesis.

Like many other proteins, GDF15 levels surge during pregnancy, and it seems some women are more sensitive to the hormone than others.

https://www.biorxiv.org/content/10.1101/2023.06.02.542661v1

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Comment by Dr. Krishna Kumari Challa on June 22, 2023 at 11:06am

Disappearing Himalayan snow and ice will impact food production in ...

A major new assessment report from an eight-nation body, the International Center for Integrated Mountain Development (ICIMOD), to which WUR contributed, reveals the changes to the glaciers, snow and permafrost of the Hindu Kush Himalayan region driven by global warming are "unprecedented and largely irreversible."

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How climate change fuels extreme heat

Heatwaves across Asia and beyond have already broken records this year, while the arrival of the El Nino climate phenomenon will mean even more extreme temperatures.

Comment by Dr. Krishna Kumari Challa on June 22, 2023 at 10:51am

Scientists discover critical factors that determine the survival of airborne viruses

Critical insights into why airborne viruses lose their infectivity have been uncovered by scientists.

The findings, published in the Journal of the Royal Society Interface today, reveal how cleaner air kills the virus significantly quicker and why opening a window may be more important than originally thought. The research could shape future mitigation strategies for new viruses.

In the first study to measure differences in airborne stability of different variants of SARS-CoV-2 in inhalable particles, researchers show that the virus has become less capable of surviving in the air as it has evolved from the original strain through to the delta variant.

There are numerous factors that affect the transmission of airborne viruses, and these are often confounded with physical and environmental parameters that can affect viral longevity in the aerosol phase such as temperature, RH, air movement and UV light.

Through manipulating the gaseous content of the air, the researchers confirmed that the aerostability of the virus is controlled by the alkaline pH of the aerosol droplets containing the virus. Importantly, they describe how each of the SARS-CoV-2 variants has different stabilities while airborne, and that this stability is correlated with their sensitivities to alkaline pH conditions.

The high pH of exhaled SARS-CoV-2 virus droplets is likely a major driver of the loss of infectiousness, so the less acid in the air, the more alkaline the droplet, the faster the virus dies. Opening a window may be more important than originally thought as fresh air with lower carbon dioxide, reduces acid content in the atmosphere and means the virus dies significantly quicker.

Differences in Airborne Stability of SARS-CoV-2 Variants of Concern is Impacted by Alkalinity of Surrogates of Respiratory Aerosol, Journal of the Royal Society Interface (2023). DOI: 10.1098/rsif.2023.0062. royalsocietypublishing.org/doi … .1098/rsif.2023.0062

Comment by Dr. Krishna Kumari Challa on June 22, 2023 at 9:26am

Next, the researchers rubbed flower pollen on a bumblebee so that it could exhibit a natural electric charge. Once close to these bees, worms stood on their tails, then jumped aboard. Some worms even piled on top of each other and jumped in a single column, transferring 80 worms at once across the gap.

"Worms stand on their tail to reduce the surface energy between their body and the substrate, thus making it easier for themselves to attach to other passing objects. In a column, one worm lifts multiple worms, and this worm takes off to transfer across the electric field while carrying all the column worms.

C. elegans is known to attach to bugs and snails for a ride, but because these animals don't carry electric fields well, they must make direct contact to do so. C. elegans is also known to jump on winged insects, but it was not clear how the worms were traversing such a significant distance for their microscopic size. This research makes the connection that winged insects naturally accumulate charge as they fly, producing an electric field that C. elegans can travel along.

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It's unclear exactly how C. elegans performs this behavior. The worms' genetics might play a role. Researchers observed jumping in other worm species closely related to C. elegans, and they noted that mutants who are unable to sense electric fields jump less than their normal counterparts. However, more work is needed to determine exactly what genes are involved in making these jumps and whether other microorganisms can use electricity to jump as well.

Takuma Sugi, Caenorhabditis elegans transfers across a gap under an electric field as dispersal behavior, Current Biology (2023). DOI: 10.1016/j.cub.2023.05.042. www.cell.com/current-biology/f … 0960-9822(23)00674-7

Part 2

Comment by Dr. Krishna Kumari Challa on June 22, 2023 at 9:23am

Researchers discover that worms use electricity to jump

In nature, smaller animals often attach themselves to larger ones to "hitch a ride" and save energy migrating large distances. In paper published on June 21 in the journal Current Biology, researchers show how microscopic Caenorhabditis elegans worms can use electric fields to "jump" across Petri plates or onto insects, allowing them to glide through the air and attach themselves, for example, onto naturally charged bumblebee chauffeurs.

Pollinators, such as insects and hummingbirds, are known to be electrically charged, and it is thought that pollen is attracted by the electric field formed by the pollinator and the plant. However, it was not completely clear earlier whether electric fields are utilized for interactions between different terrestrial animals.

The researchers first began investigating this project when they noticed that the worms they cultivated often ended up on the lids of Petri dishes, opposite to the agar they were placed on. When the team attached a camera to observe this behavior, they found that it was not just because worms were climbing up the walls of the dish. Instead, they were leaping from the floor of the plate to the ceiling.

Suspecting travel by electric field, the researchers placed worms on a glass electrode and found that they only leaped to another electrode once charge was applied. Worms jumped at an average speed of .86 meters per second (close to a human's walking speed), which increased with electric field intensity.

Part 1

Comment by Dr. Krishna Kumari Challa on June 21, 2023 at 11:43am

Scientists Reveal That Jupiter Is Not What We're Being Told

Comment by Dr. Krishna Kumari Challa on June 21, 2023 at 11:40am

"Predatory bacteria" provide hope for chlorine-free drinking water

 In a unique study carried out in drinking water pipes in Sweden, researchers  tested what would happen if chlorine was omitted from drinking water. The result? An increase in bacteria, of course, but after a while something surprising happened: a harmless predatory bacteria grew in numbers and ate most of the other bacteria. The study suggests that chlorine is not always needed if the filtration is efficient - and that predatory bacteria could perhaps be used to purify water in the future.

Just as human intestines contain a rich bacterial flora, many types of bacteria thrive in our drinking water and the pipes that transport them. On the inside of pipe walls is a thin, slippery coating, called a biofilm, which protects and supports bacteria. These bacteria have adapted to life in the presence of chlorine, which otherwise has the primary task to kill bacteria, particularity bacteria that can make humans sick.

An ordinary glass of drinking water contains a lot of harmless bacteria. Chlorine, however, which in the studied piping system was added in the form of monochloramine, is not wholly unproblematic.

Chlorine is an effective way to minimize growth of bacteria, but there is a risk of potential health impacts from byproducts that form with the chlorine. Chlorine has been linked to cancer and foetal damage and studying whether chlorine could be replaced by other methods is therefore relevant.

Our drinking water is currently purified in several stages. Depending on the type of water, companies use various kinds of filters, and UV light but the last stage is almost always the addition of chlorine.

In the present experiment, when the chlorine disappeared, certain types of bacteria starved while others grew and thrived. The biggest surprise for the researchers came in the third chlorine-free month when it was observed that certain bacteria had drastically decreased in number. And one special type of bacteria had increased: namely the predatory bacteria Bdellovibrio.

Researchers have not seen this exact type of bacteria in previous studies of this drinking water network. It has probably been lying concealed in the biofilm but was now given an opportunity. It’s totally harmless for us humans.

Each method of water treatmetn has its advantages and disadvantages. UV light is an effective method, but one disadvantage is that the lamps use a lot of energy. Biofilters often don’t require any energy at all but take up a considerable amount of space. Ultrafilters are expensive. Many drinking water treatment plants in Sweden purify water using a combination of methods. However, thsi study shows that harmful chlorine is not essential if you have other strategies to deal with, and monitor, bacteria.

Tage Rosenqvist et al, Succession of bacterial biofilm communities following removal of chloramine from a full-scale drinking water distribution system, npj Clean Water (2023). DOI: 10.1038/s41545-023-00253-x

Comment by Dr. Krishna Kumari Challa on June 21, 2023 at 10:49am

Air conditioning in India and Europe poses risk for dramatic rise in emissions, says study

Between now and 2050 the use of air conditioners to cope with rising temperatures risks generating an increase in emissions in the order of 10 million metric tons of carbon dioxide in Europe and as much as 120 million metric tons in India.

These figures were revealed in a study published in the journal Scientific Reports by environmental economists Francesco Colelli and Enrica De Cian of Ca' Foscari University of Venice, CMCC (Euro-Mediterranean Center on Climate Change) and RFF-CMCC European Institute on Economics and the Environment and Ian Sue Wing of Boston University. The study is the first to illustrate the impacts of climate change on the demand for air conditioners and electricity for cooling in Europe and India: between now and 2050, with the current fuel mix, there is a risk of a mismatch between what is done for adaptation and mitigation, with increased emissions as a result. The rush to buy new air conditioners in the residential sector and the resulting increased use of electricity associated will characterize both relatively richer but more temperate European countries, and relatively poorer but warmer Indian states. The study estimates that by 2050, under a +2/-3 °C warming forecast, air-conditioning uptake could double in Europe and grow fourfold in India, reaching about 40% of homes in both regions. On the one hand, more air conditioning will bring benefits to the population by reducing the heat exposure connected to global warming. Researchers have estimated that cooling technologies will lead the population being exposed to 40% less heat in Europe and 35% less in India by 2050.

On the other hand, this will have a strong impact on emissions. Between now and 2050 the energy production required by the increased use of air conditioners will cause a rise in annual CO₂ emissions between 7 and 17 million tons in Europe, and between 38 and 160 million tons in India.

Francesco Pietro Colelli et al, Air-conditioning adoption and electricity demand highlight climate change mitigation–adaptation tradeoffs, Scientific Reports (2023). DOI: 10.1038/s41598-023-31469-z

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