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The Sun is Just a Secret Earthquake Machine with switch: Reveals Japan Study

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On January 1, 2024, something weird occurred. The most powerful solar flare ever recorded hit the Earth and just less than 24 hours after, the Noto Peninsula in Japan suffered a devastating earthquake, claiming the lives of more than 700 and destroying almost 205,000 homes. Scientists referred to it as a coincidence. But a startling new model has been proposed by scientists in Kyoto University indicating that solar flares, which are giant bursts of charged particles of the sun, could be able to trigger earthquakes on earth.

The paper introduces a theoretical process in which the changes in ionospheric charge due to intense solar activity like a solar flare may cause collision with already existing weak structures within the crust of the earth and therefore play a role in the fracture process.

In simple words: the Sun throws a burst of energy towards the earth, it destabilizes the upper atmosphere, and that instability can, in the right circumstances, cause an already stressed fault to slip over the edge into a disastrous failure.
The senior author of the study, Ken Umeno of Kyoto University was careful in his framing: “We are not saying that solar flares produce tectonic stress. We are talking of timing, not energy. With a fault that is already near failure, a minor perturbation can change upon rupture.”

Earth Is a Giant Leaky Battery, and Sun Has the Switch

The process suggested by the Kyoto team is as beautiful as it is terrifying. The researchers developed a model that considered the crust of the earth and the ionosphere; a charged layer 250 miles above the earth as two poles of a battery. Upon entering the Earth when the electrically charged particles of a solar flare collide, the particles move the electrons downwards in the ionosphere resulting in an accumulation of electrons at lower altitudes forming a negative charge layer. The charge, in its turn, adds electrostatic force acting in the crust of the earth, namely, in the microscopic openings filled with water in the fracture areas of the rocks.

The resulting electrostatic pressure within those voids can rise to a number of megapascals – magnitudes that are equal to and in certain cases surpass the levels of pressure known to affect brittle failure in rock.

‘Hiding data’ pitch surfaces again

As can be expected, the research has sparked a firestorm on X, the Reddit, and Telegram earthquake-watching groups. The fact that the anomalies in the ionosphere can be repeatedly observed before significant earthquakes, and that this anomaly was noticed during the 2011 disaster in Tohoku, the 2016 earthquake in Kumamoto, and the 2024 Noto Peninsula earthquake, is being pointed out by conspiracy theorists who believe that governments and space agencies have long known about this phenomenon but suppressed it so as to prevent panic around the world.

There is another one that an earthquake of December 2025 that Umeno mentioned which came after an X-class solar flare by hours. Seismology chat rooms are already recording all the big solar events with a view to cross-checking them with future quakes, they are known as solar seismic watchers.

Not Everyone Is Convinced

The establishment is scratching its way back. According to a geophysicist, Nicholas Schmerr of the University of Maryland, the study was highly speculative and the paper lacks an in-depth analysis or well-founded evidence that the activity under discussion does in fact connect solar flares and earthquakes. The research itself admits that it is not intended to forecast earthquakes, just to trace a physical way that may potentially be used in further research. A causal relationship may not be established until several years of statistical work through the records of seismic activities across the world are undertaken.

This is where it becomes very disturbing. It was observed by scientists that the visible disk of the Sun has never been fully devoid of sunspots before June 2022, which marks the second indication that the ongoing solar cycle might be approaching a quieter period. But solar cycles do not decline evenly they tend to result in strong, bursting out bursts of activity during the wind-down. And in case even the Kyoto model is partially true, the question is: what stressed fault zone of the world is currently sitting at its breaking point, and which is the solar storm that will be the one to get it to break?

The scientists indicate that the future work will involve a combination of the high-resolution atmospheric monitoring and underground sensors. Until now, the next time a solar flare warning lights up, it will seem to you as though you are staring at the ground under your feet.

Japan, India scientists develop new approach to lessen severity of malaria

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A new approach focusing on a critical stage in the life cycle of one of the most common malaria parasites was developed by scientists at Kyoto University’s Institute for Integrated Cell-Material Sciences (iCeMS) in Japan, in collaboration with India and Swiss scientists.

“The Plasmodium vivax malaria parasite can stay dormant in a person’s liver cells up to years following infection, leading to clinical relapses once the parasite is reactivated,” says Kouichi Hasegawa, an iCeMS stem cell biologist and one of the study’s corresponding authors of the paper published in the Malaria Journal.

P. vivax is responsible for around 7.5 million malaria cases, half of which are in India. Currently, there is only one licensed drug to treat the liver stage of the parasite’s life cycle, but with many side effects and cannot be used in pregnant women and infants. The liver stage is also difficult to study in the lab.

Study liver infection

Hasegawa and his colleagues in Japan, India and Switzerland developed a successful system for breeding mature malaria parasites, culturing human liver cells, and infecting the cells with P. vivax. While it doesn’t solve the high infection rate problem, still it provides new insight into the parasite’s liver stage.

“Our study provides a proof-of-concept for detecting P. vivax infection in liver cells and provides the first characterization of this infectious stage that we know of in an endemic region in India, home to the highest burden of vivax malaria worldwide,” says Hasegawa.

The researchers bred Anopheles stephensi mosquitos in India. Female mosquitos were fed with blood specifically from Indian patients with P. vivax infection and two weeks later, mature sporozoites, the infective stage of the malaria parasite, were extracted from the mosquitos’ salivary glands and added to liver cells cultured in a petri dish.

The scientists tested different types of cultured liver cells to try to find cells that would be infected by lots of parasites like in the human body. Researchers have already tried using cells taken liver biopsies and of various liver cancer cell lines. So far, none have led to large infections.

Resistance in liver cells

Hasegawa and his colleagues tried using three types of stem cells that were turned into liver cells in the lab. Notably, they took blood cells from malaria-infected patients, coaxed them into pluripotent stem cells, and then guided those to become liver cells. The researchers wondered if these cells would be genetically more susceptible to malaria infection. However, the cells were only mildly infected when exposed to the parasite sporozoites.

A low infection rate means the liver cells cannot be used for testing many different anti-malaria compounds at once. But the researchers found the cells could test if a specific anti-malaria compound would work for a specific patient’s infection. This could improve individualized treatment for patients.

The scientists were also able to study one of the many aspects of parasite liver infection. They observed the malaria protein UIS4 interacting with the human protein LC3, which protected the parasite from destruction. This demonstrates their approach can be used to further investigate this important stage in the P. vivax life cycle.

Japan-India scientists claim Ayurvedic medicine Ashwagandha helpful in Covid-19 cure

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Japan’s National Institute of Advanced Industrial Science and Technology (AIST) and IIT-Delhi joint research on Indian ayurvedic component Ashwagandha in combinaton with propolis, an actve ingredent from New Zealand can be developed as possible drug treatment to cure Coronavirus or COVID-19.

The research by IIT-D was led by Professor D Sundar from DAILAB (DBT-AIST International Laboratory for Advanced Biomedicine) discovered that Withanone (Wi-N), a natural compound derived from Ashwagandha (Withania somnifera) and Caffeic Acid Phenethyl Ester (CAPE), an active ingredient of New Zealand propolis, have the potential to block the activity of Mpro, responsible for COVID-19 infection in the human body. Japan’s AIST has not made any such claim so far and either removed the relevant sections and pages from its website or put them Under Construction mode.

The study to be published in Journal of Biomolecular Structure and Dynamics soon, claimed that properties of the ayurvedic herb Ashwagandha have “therapeutic and preventive value” against COVID-19 infection. “SARS-CoV-2 virus genome and structure have been recently published triggering drug designing, devising and development using informatics and experimental tools, worldwide.

DAILAB and AIST Japan, working on natural compounds from Ashwagandha and propolis for last several years, explored the possibility of some of their bio-actives to interact with SARS-CoV-2,” IIT-D said in a statement. The journal JBSD ranks 57 out of 286 in the category of journals in biochemistry and molecular biology, 12 out of 73 in the category of journals in biophysics.

“The researchers targeted the main SARS-CoV-2’s enzyme for splitting proteins, known as the Main protease or Mpro that plays a key role in mediating viral replication. This is an attractive drug target for this virus… They discovered that Withanone (Wi-N), a natural compound derived from Ashwagandha (Withania somnifera) and Caffeic Acid Phenethyl Ester (CAPE), an active ingredient of New Zealand propolis, have the potential to interact with and block the activity of Mpro,” the statement said.

Sundar said, “While the reputation of Ashwagandha as an immunity enhancer forms a basis of the recent initiative of the Indian government in forming an interdisciplinary task force to launch its clinical research studies related to SARS-CoV-2 and the Covid-19 disease, the current research report of this team provide hints on its direct anti-viral activities.”

However, Japan’s AIST has not made any such claim so far and either removed the relevant sections and pages from its website or put them Under Construction mode.