The Soviet Luna-16 space probe returned to Earth with lunar soil containing evidence of e̳x̳t̳r̳a̳t̳e̳r̳r̳e̳s̳t̳r̳i̳a̳l̳ life.
During the Cold War, both the United States and the Soviet Union faced enormous pressure to win the space race. The Soviet Union was the first to land its spacecraft on the moon and, of course, the first to launch a satellite into space. On September 13, 1959, the Luna 2 spacecraft became the first unmanned vehicle to land on the moon.

In 1966, the Soviet Union made its first successful landing and took the first photo of the lunar surface during the Luna-9 and Luna-13 flights. The United States then made five successful unmanned landings aboard the Surveyor.

In addition, the Soviet Luna-16 space probe returned to Earth with lunar soil containing evidence of e̳x̳t̳r̳a̳t̳e̳r̳r̳e̳s̳t̳r̳i̳a̳l̳ life, allowing scientists to answer many questions about the origin and evolution of the solar system.

On September 24, 1970, an unmanned spacecraft brought a sample of lunar “soil” to Earth for the first time. The Soviet Union\’s Luna-16 spacecraft returned from the lunar Fertility Sea with 101 grams of lunar regolith in a hermetically sealed container.

In February 1972, just 120 kilometers from the Luna 16 landing site, Luna 20 used a drill with a 25-centimeter bit to collect another regolith sample that was also sealed on the Moon.

In the Soviet Union, airtight containers obtained during lunar flights were quickly transported to research laboratories.

But even after hundreds of images were published in the atlas in 1979, the biological properties of some particles remained unrecognizable.

Reference: “Luna-16” was created by the NPO design group named after SA Lavochkin under the leadership of George Nikolaevich Babakin. On November 17, 1970, Soviet scientists prepared a report on the preliminary results of a study of the physical properties of the lunar soil.

On December 21, the order of the USSR Minister of General Machine Building was published, according to which bonuses were given to developers and manufacturers of ground-based space infrastructure facilities. (Documents related to the lunar program of the USSR were made public in 2020)

The images were further studied by biologists from the Russian Academy of Sciences, Stanislav Zhmur from the Institute of Marginal Marine Lithosphere, and Lyudmila Gerasimenko from the Biological Research Institute.

The scientists noticed that some of the particles in the photo were nearly identical to fossils of known species on Earth. In particular, they noted some spherical regolith grains in which the material brought back by Luna 20 closely resembled spheroid fossils of bacteria such as Ironcoccus or Sulfolobacillus in size, distribution, shape, and spheroid deformation that occurred during petrifaction.

Organic fossils on the lunar surface

The Luna 16 regolith contains a fossil whose striking shape was not lost in the 1979 edition of the atlas. They thought it was a small crater because of its concentric shape and large radius.

But Zhmur and Gerasimenko saw an unmistakable similarity between fossil and modern coiled-filament microorganisms, such as Phormidium frigidum, found in growing stromatolites in Shark Bay, Australia, and with the coiled-filament microorganisms of early Proterozoic shiungites from Karelia.

The results of their new analysis of these particles were published at the astrobiology conferences in Denver in 1994 and 1999.

At the same meeting in Denver, Zhmur and Gerasimenko also announced the discovery of biomicrofossils in several carbonaceous meteorites found beyond the moon.

“We think the fossils in the meteorites are their most interesting finds.” Although no one questioned the biological nature of these microfossils, scientists subsequently developed a negative stereotype due to the rejection of these facts by the scientific community.
In March 2000, at the Lunar and Planetary Science Conference in Houston, signs of contamination in all Martian and carbonaceous meteorites were announced and their presence examined.

Because microbes from soil and human hands can easily colonize meteorites before they can be examined, and because petrifaction can occur in just a few days, microbial fossils in meteorites are now widely suspected to be remains. from recent land contamination.

Microfossils from the Moon are different. Each sample from the moon was encapsulated on the moon and only opened in the laboratory, and they immediately began to study it.

These fossils are solid evidence of A̳n̳c̳i̳e̳n̳t̳ space life, but for some reason mainstream science refuses to admit it.

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