The scientist emphasized that during the study of the fragment of the above meteorite more than four billion years old, the research team found, by analyzing the samples with the support of biochemistry and genetics, that a form of life extraterrestrial which existed several thousand years ago.
Dujovlinov also said that the finding came as they were trying to develop drugs for radiation and restoring the body after long flights.
in addition, one of the areas of research was to analyze meteorite fragments to search for chemical compounds and structures that indicate the presence of forms of life foreigners.
He also emphasized that for several years the scientists They couldn’t find out anything reliable until they found fragments of it meteorite Seymchan, which came from one of the ancient protoplanets that arose and fell at the begining of the formation of the Solar System.
Inside the olivine crystal meteoritelaboratory employee Evgeny Chirak discovered a structure that has a perfectly linear tubular shape and stands out among everything found so far because of its precise and uniform geometric shape, Dukhovlinov said.
This shape and size is probably not appropriate for any known biological species on Earth, and a technical basis cannot be ruled out, he noted.
Considering that the structure found is located within a crystal of meteoriteits terrestrial and modern origin is excluded,and also contamination of the sample,the scientist shared.
According to him,in future work it is planned to confirm the dating of the sample of meteorite and extract the discovered structure for analysis by electron microscopy and mass spectrometry.
“Maybe it’s a form of it life extraterrestrial or its traces were there several billion years ago,” concluded Dujovlinov.
Moscow, December 7, 2024
Digital Chronicle/PL
Interview with Dr. Dujovlinov: Exploring the Potential of Extraterrestrial Life through Meteorite Research
Editor at Time.news: Today, we have the privilege of speaking with dr. Dujovlinov, a leading expert in extraterrestrial life research. His recent findings on a 4 billion-year-old meteorite fragment have ignited conversations in the scientific community. Dr. Dujovlinov, thank you for joining us.
Dr. Dujovlinov: Thank you for having me.
Editor: Your team discovered evidence of a form of extraterrestrial life while analyzing a meteorite fragment from the Seymchan meteorite. Can you elaborate on how this discovery was made?
Dr. Dujovlinov: Certainly! During our study, we focused on analyzing samples using biochemistry and genetics. As we were investigating the meteorite’s composition, we found a remarkably structured object within an olivine crystal—a linear tubular shape that differs significantly from any known earthly biological forms. This structure’s geometric precision and uniformity raise intriguing questions about its origin.
Editor: That sounds captivating! What practical implications do you foresee from this discovery, particularly in the fields of biochemistry and space exploration?
Dr. Dujovlinov: Our findings may offer new avenues for developing drugs aimed at counteracting radiation and aiding recovery after long-duration spaceflights. Understanding extraterrestrial life forms—should they exist—could also provide insights into how life evolves in extreme environments, impacting our approach to astrobiology and future space missions.
Editor: You mentioned a potential technical origin for the structures found in the meteorite. What does this mean for the interpretation of your findings?
Dr. Dujovlinov: It indicates that we must remain open to the possibility that the origin of this structure could be either biological or artificial. The methodical approach we follow ensures that we exclude contamination, as the sample is isolated within a crystal of the meteorite. Our next steps involve confirming the dating through further analysis like electron microscopy and mass spectrometry.
Editor: For our readers interested in the quest for extraterrestrial life, what advice would you offer about engaging with scientific discoveries like yours?
Dr. Dujovlinov: I encourage an open mind and a willingness to explore the unknown. The universe is vast, and the potential for discovering life beyond Earth is one of the most rewarding scientific pursuits. Following scientific research, engaging with credible sources, and participating in community discussions about such findings can foster a deeper thankfulness for our place in the cosmos.
Editor: As we conclude, what do you hope for the future of this research, and what should we look out for next?
Dr. Dujovlinov: I am optimistic that our research will lead to meaningful breakthroughs.We are eager to publish our additional findings, which may provide clarity regarding the implications of this meteorite fragment on our understanding of life’s origins. Watch this space—more is yet to come!
Editor: Thank you, dr. Dujovlinov, for sharing your insights today. The exploration of extraterrestrial life is undoubtedly a captivating frontier, and we look forward to following your team’s progress.
Dr. Dujovlinov: Thank you for having me. It’s been a pleasure!
