2017 and 2019 did indeed have the same prevalence in Europe: 0%.
Epidemics come and go in waves. They always did. They don't grow until everyone has been sick, they exhibit far more complex patterns than that, hence why the term endemic is now coming up so often. It doesn't seem impossible that there were waves of COVID before 2020 and they just didn't get detected as such, given the large number of asymptomatic people, the vague symptoms that can be easily confused with other diseases, etc. I don't personally think it's likely, but continuous exponential growth is definitely not a safe assumption.
Re: phylogenetic analysis. Well, the phylogenetic tree they are building classifies something as COV2 if it can be linked into the phylogenetic tree that is rooted at the samples taken in Sept 2019, and was detected after that point. If it can't be, then it's not COV2 by definition. There's a risk of circularity there.
And then you'd still need to explain how the actual spread of Covid, after it was discovered, was a gradual process rather than being found to be massively prevalent all over the world the moment it was discovered.
I don't really understand your point about phylogenetics being inaccurate here. Are you claiming that samples of Covid have been artificially dropped from the tree to make it build with such a recent common ancenstor? Or that we've got a huge proportion of Covid cases that were incorrectly never diagnosed as such because nobody was considering some earlier. The latter is total nonsense.
Your theory just doesn't fit any of the facts.
To play the devil's advocate:
- "a cluster of dozens of undiagnosed pneumonia cases was enough to trigger a deeper investigation and rapidly pinpoint the new virus"
A cluster of undiagnosed pneumonia cases ... that occurred right next to a large coronavirus research lab. Which presumably the hospital staff knew all about. If I worked at the local hospital of a vast virus lab then I'd be quick off the mark to test people showing weird symptoms for novel viruses too.
- "Either it would have to be the case that the progenitors did not cause these symptoms (and if it didn't, well, how was it Covid?)"
That's easy. COVID isn't defined by symptoms, is it? The definition of COVID being used by governments is "tested positive on a SARS-CoV-2 PCR test". The clinical symptoms of COVID include all possible symptoms of any respiratory illness including no symptoms at all, which is useless.
- "you'd still need to explain how the actual spread of Covid, after it was discovered, was a gradual process rather than being found to be massively prevalent all over the world the moment it was discovered"
It comes and goes in waves. If the start of testing was triggered not by the actual new emergence of the virus but by the proximity of some cases to a massive lab with hyper-vigilant doctors, then as test capacity ramped up we'd be able to observe the next seasonal wave and we'd think it was the first (incorrectly).
- "Are you claiming that samples of Covid have been artificially dropped from the tree to make it build with such a recent common ancenstor?"
COVID is literally defined as "the presence of a viral RNA sequence that can be fitted into this phylogenetic tree". Anything else isn't SARS-CoV-2 and thus not COVID, by definition. Consider that the tree has two roots! It has to have two roots because right at the very start COVID did have a clinical definition and the viruses they were finding didn't trace to a common ancestor. The re-definition of COVID as testing positive only came later with the introduction of mass testing.
September 16, 2019? It's easy: blast at BSL4 lab «Vector».
«On September 16th, 2019, an explosion occurred at the State Research Centre of Virology and Biotechnology building (Vector) in the city of Koltsovo, in the Novosiberisk region of Siberia, Russia (1). The affected building was a BSL 4 virology research centre, and one of only two known sites housing variola virus, the cause of smallpox. The facility has one of the largest collections of dangerous pathogens in the world. Whilst laboratory safety breaches are common and do not usually result in epidemics, explosions are rare. Unlike a needlestick injury or an accidental shipping of live anthrax, an explosion of this magnitude is likely to lead to a physical breach of the integrity of the laboratory, possibly affecting multiple parts of the structure and equipment within. An explosion is sudden, uncontrolled and unpredictable, and involves force which may result in pathogen release into the surrounding environment. An epidemic which arises in close proximity to the explosion could spread beyond the affected region or even globally, which makes this event a concern for global public health.»
