Important: Please read this sequence of quotations
Earth passed harmlessly through the dust tail of Halley’s Comet in 1910 . . . Google AI Overview
The 1918-1920 flu pandemic, also known as the Great Influenza epidemic . . . was an exceptionally deadly global influenza pandemic caused by the H1N1 subtype of the influenza A virus . . . Wikipedia Source
Small particles may . . . remain in the stratosphere for time-scales of the order of five to ten years. This is known from the persistence there of fine dust thrown up high in the violent explosions of volcanoes. Diseases From Space, Hoyle & Wickramasinghe, (Harper & Row, 1979) p. 16
The interval of 75 to 80 years for both H2N2 and H3N2 suggests a connection with Halley’s comet . . . Ibid. p. 61
Cometary debris in space could be nearly self-shielding . . . damaged virus particles . . . can also pool their undamaged portions to produce a single new viable particle. When this happens, the new particle is different in its detailed structure from the old particles before they were damaged. Furthermore, restored particles never are quite the same, a fact which might well explain why the isolates of H1N1 (1977) were different from one influenza to another. Ibid. p. 161
[A] process called reassortment (antigenic shift) allows influenza viruses to exchange genetic material, which could theoretically lead to novel combinations including a return of H1N1 from H2N2 components . . . Antigenic Shift: This is a major, abrupt change caused by reassortment, where gene segments from different viruses combine to form a new virus subtype. This is how pandemics start. Google AI Overview
Are You Ready for a Surprise?
Stefan Burns has picked up on the suggestion offered in our last installment (#8) that Earth will soon begin to enter the dust trail left by Comet 3I/ATLAS and that it has bio-hazard potential (see more below).
Analysts are wrangling – and complaining – over NASA obfuscations. NASA boasts about the images and data it has offered to the general public . . . but it is all crap. Don’t waste your time dumpster-diving. If you follow NASA, you will live in a continuous state of “surprise” because their models are wrong. Private astronomers and analysts are doing a far better job. Let them sort through NASA’s garbage.
What We Know So Far
The Comet’s closest approach to Earth – just passed – resulted in measurable and observable effects on Earth’s electromagnetic shielding. From such a vast distance, it is proof that the Comet is a magnetar fragment, although a small one. Normal comets do not have such a strong magnetic field, if any at all. Most observers concern themselves with the effects of a cometary tail, physical collisions, or if the comet is big enough, tidal effects. None of these factors come into play with Comet 3I/ATLAS.
[N.B. YouTube and other internet platforms are awash in AI generated fake podcasts containing egregious errors. An example of this can be found here purporting to be a report from Avi Loeb. The researcher must use care and get confirmation. The Google AI generated quotes at the beginning of this article are not what I am talking about. AI Search functions are valid research tools as they access and summarize vast data bases.]
The reader must remember that this Comet is not observable to the naked eye. So, if we were living at an earlier time – say in the time of Jesus Christ – and we were instructed to look up into the heavens for a “sign,” Comet 3I/ATLAS would not exist, unless . . .
It Will Cause Jupiter to Nova?
With its fast rotational spin, Comet 3I/ATLAS has produced multiple sun-ward facing “spikes” (cf. McCanney). Its powerful magnetic core has produced a large electromagnetic field. Consequently, McCanney’s doctrine of “action at a distance” comes into play here. Unlike the much smaller Comet Shumaker-Levy (circa. 1994) and its nuclear encounter with Jupiter, Comet 3I/ATLAS, when it approaches the control of Jupiter’s electromagnetic field, a collision should not be necessary to see some fireworks. The “sunward” spikes will transfer from the Sun toward Jupiter and become “Jovian” spikes. Comet 3I/ATLAS was able to produce spectacular flaring on the Sun; we should expect the same from Jupiter: Jovian atmospheric storms or even an acceleration of its fusion process. Protons dominate the Jupiter winds. If the Comet should encounter them, with a net negative charge, we should expect both bodies to experience a mass precipitation event of protons combining with the Comet’s electron stream. Pop!!! Either, Jupiter or Comet 3I/ATLAS will glow much brighter. Whether it causes Jupiter to nova, only time will tell. The Comet is probably too small to impact such a large planet that way, but it will certainly become a “sign in the heavens” observable to the naked eye for us on Earth and a sign of things to come.
Comet B-B is still on its way.
Once again, Mr. Burns helps us here with an analysis comparing Comet 3I/ATLAS with Comet Bernardinelli-Bernstein (or UN271) discussed extensively elsewhere on this website. Look at the size comparison in the image below. If Comet B-B is a different but vastly much larger fragment of a magnetar, then more fireworks should be anticipated as we close out this decade:
Prepare for the New Pandemic
In March, as Earth approaches the debris trail left behind by Comet 3I/ATLAS, we should encounter whatever toxins or viruses which might have been left behind trapped in its dust particles. Because Earth’s electromagnetic shielding has declined, the negative bio-impacts should be worse and more rapid than Earth’s past experiences with Comet Halley cited above.
Earth’s organisms have largely adapted to the bio-hazards posed by encounters with Comet Halley. Comet 3I/ATLAS, on the other hand, is an intergalactic object, from which entirely new pathogens may have been left behind in its debris trail . . . pathogens for which no immunity against may be forthcoming.
An Alert will be prepared and published in February with an analysis of this new development.
Stay tuned.
JWS, 1/10/26
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