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Iran is ominously missing any cases according to this data. I guess you could say Iran is a known unknown.
Iran isn't represented in this dataset. Neither is Africa or New Zealand. I'm not sure what's meant to be ominous about any of this.
We know the virus is widespread in Iran. We don't know if it is widespread in Africa or New Zealand.
No more so in Africa or in New Zealand [1] than in Finland, which is represented in this dataset. I'm not really seeing the basis for whatever conspiracy theory the original parent comment seems like it wants to point toward, is what I'm getting at here.

These are the early stages of what looks to be a pandemic of a disease at least an order of magnitude, possibly several orders of magnitude [2], more lethal than seasonal flu, which is no picnic already. Isn't that enough to be worrying about, all on its own?

[1] https://coronavirus.zone

[2] CDC headline numbers for the 2019-2020 flu season, vs. the commonly given 2% lethality guesstimate.

What do you mean "no more so than in Finland"? The link at [1] says Iran has 1501 cases and 66 deaths, while Finland has 6 cases and 0 deaths.
I mean it's no more widespread in Africa or New Zealand, which are not represented in the genomic dataset charted here, than in Finland, which is represented. I've edited the earlier comment to clarify that, since the surrounding context evidently does not suffice on its own to do so for everyone.
Estimates are dropping down from 2% as we discover lots of cases that were mild or asymptomatic.

The New England Journal of Medicine says it may likely be considerably less than 1%:

https://www.nejm.org/doi/full/10.1056/NEJMe2002387

People should remember the context of a respiratory disease in China. 2/3rds of men smoke, and air pollution is common. Things also spread faster there as it’s densely populated with lower hygiene standards than developed countries (for example: spitting is still common in some areas).

Suppose you're right about reasons why it spreads fast & lethally in China. How do you explain the fast spread and lethality outside China?
The two "fast"'s are relative. Epidemic dynamics are likely to differ in different countries for a bunch of reasons.

And, it does appear to be less lethal outside of China. That may be because healthcare systems are not yet overwhelmed, or it may be because of the smoking and pollution exposure in the different demographics. It is probably even both of those things.

The latest numbers from the WHO say that although CFR was much higher in January, a new case in China in March will have a CFR of 0.7%.

They are guessing this shift could be due to a combination of reduced transmission load and refining treatment protocols.

Algeria/Tunisia/Egypt all have declared cases coming from foreign countries.
Yes, but this dataset is essentially manually populated. Someone has to isolate coronavirus from a patient, sequence it, and then upload it to GISAID.

So the question is why is it ominous that no one in Iran has isolated and uploaded a sequence?

I believe they meant that it's scary that we don't have data in here from a place where we have heard the virus is both spreading quickly and having a high mortality rate.

Not ominous as in any way indicative of a conspiracy or otherwise.

Here in New Zealand we are at 3 confirmed cases, one of which was an individual who recently return from Iran. There is a case that there are more yet undetected cases, but I suspect we are currently talking about dozens of people rather than "widespread" outbreak.

Most of the initial testing was sent to Australia and I'm not sure what capability NZ medical labs have yet and I doubt they are sequencing much. There is a chance that the Iranian was sequenced, with media referred to a "deeper" testing protocol after initial tests where negative.

Has anyone tried to play the "movie" in the map. As I understand it, there has already been back-propagation of the virus from North America back to Asia. Can anyone confirm this is actually the case?

Edit: On a separate note, this tool is one of the best "web meets science" websites I've ever seen. Really nice work for those involved in its creation.

That backprop is most likely an artifact of a sample on a lineage being sequenced in North America, but the lineage also continues in Asia, where that lineage had not been sequenced yet. As in, someone in Asia spread COVID-19 to two people, one of whom traveled to North American and had their virus sequenced. The lineage also continued in Asia and was eventually sequenced days/weeks later, so the inferred tree includes a North American sample seeming to give rise to more Asian infections.
My father in law is a pilot (currently not showing any systems virus) has been back and forth between China, Korea, HK (Guangzou most recently) at least 3 times since January. His last trip he was one of only 30 people in the hotel, being monitored every 30 minutes or so for fever while on a layover. His company is still scheduling him trips there, so I have no doubt with companies still requiring similar travel that it could have easily gotten back to China from someone who has been in the US over the past few months, now that we know it has been in the wild here for at LEAST 6 weeks.
mmmrtl's explanation seems more parsimonious.
That’s a really good word.
So am I reading this correctly that for example the strain in Lombardy Italy/CDG1/2020 (GISAID EPI ISL 412973) from 20.02.2020, has its origin in the strain collected in Bavaria Germany/BavPat1/2020 (GISAID EPI ISL 406862) from 28.01.2020.

So the outbreak in Bavaria that was thought be contained somehow made its way to Italy? Or do these kind of interpretations not make any sense?

That seems like the right interpretation. The second case in Washington State appears to be a descendant of the first case on January 19, so we’ve also had about 6 weeks of undetected spread here from a case that was believed to be contained. It goes to show that “contained” doesn’t mean much when you only test people with symptoms but you know that the virus can spread asymptomatically.

Early on the official guidance was that asymptomatic spread while possible is not playing a major role in global transmissions. Now we’re seeing the results of that position.

Or people having just a mild variant which does not cause fever and airway problems. If they think it is something else, or don't care, it is just as well a transfer risk as asymptomatic individuals and in my opinion at least as likely.
This variant has killed two people already, so it's not too mild.
If it has only killed two (either one or both patients at a nursing home) after spreading undetected for 6 weeks, then there is reason to hope it is a less fatal variant.
It takes several weeks to kill. It just killed 4 more people overnight.
Well, what are you supposed to do?

If you have the snuffles, are you supposed to react like it's COVID, or react like it's just one of the million other colds and such going around every winter until things get bad enough that your symptoms concern you?

If you react like it's COVID, then what - go to a hospital or otherwise burden the health system? All they can tell you is to quarantine yourself, unless/until it gets bad enough that it's worth testing you.

Home quarantine is one of the best things right now, so you don’t infect others. Right now a lot of countries ask you to call your doctor, he will come do a swab.

Another one is risk factor, like any ties with people who are infected or people who came from high risk areas.

> If you have the snuffles

If you just have the sniffles you probably shouldn't panic and go to the ER, but you should stay the hell away from big conventions and not go to work, at least within reason.

I work for a company that has unmetered sick leave (that you can take without people judging you), great VPN/work from home policy, and will actively shun people who come to work sick (that is, no one is even remotely close to being pressured to come for butt in seat time).

And people still come to work sniffling and coughing. I keep having to kick them back home day after day. Like, wtf, seriously.

I agree 100% for myself - I always self quarantine and work remote when I have a cold. However, you gotta remember that the vast majority of people still need to be physically present and can't work remote; and most of them have far more limited sick leave policies, sometimes including only partial pay, etc.
For sure. I did add clarification that even some people with very generous sick leave policies and who can work from home still go to the office for no good reason.

Actually, as I'm typing this Im hearing someone coughing and sneezing a few rows from me, and yet again Ill have to talk to them and maybe even their manager, because here we're super privileged and there's exactly zero reason to come in sick.

I agree not everyone has that privilege, but if those who DO actually exercised it, it would at least have SOME impact on the spread.

Apparently 88% of people with COVID have fever (WHO study in China). If you have fever then be very careful. If you have fever and a dry cough be even more careful. If you have a stuffy nose and an itchy throat you're very likely negative but stay home in any case.
I think it's important to understand that while it's definitely not good that asymptomatic spread is a thing, it's worth considering what the real alternatives where.

For example in the USA, by only testing the highest risk categories, the positive rate is still only ~3%. Increases in the population screened will eventually lead to decreasing the positive rate. In that sense, broadening the criteria by which we do testing will lead to dilution of utility of resources. That's not to say that the choices we made were optimal, but rather to say that scaling our testing to the point where we are catching a significant portion of asymptomatic carriers may not have been the best choice.

Remember that both test consumables and testing capability are not unlimited.

You can model this out at home with different asymptomatic carrier rates and different transmission rates and find the optimal resource allocation for each case.

Am I reading the documentation correctly, that you have to register at GISAID to download the sequences, and that you can't publish any part of the sequences in subsequent papers? Would it be problematic in any way to just release them under a CC-BY-SA-NC license?
Could it be the case that the least symptomatic variants of the virus will be the winning ones in the long run? I suspect that variants that do the most damage will be the ones quarantined and the ones that do least amount of harm (least symptoms) will spread faster.

If so, will this virus just domesticate itself (or rather domesticated by humans filtering out those more deadly versions)? By domesticate I mean that it lives with us just like the common cold without causing a 10% dip in the stock market.

The common cold definitely destroys vast amounts of wealth day after day, we just don't see a dip because it's regular and predictable, that is, already priced in stock prices.

As to the question, yes, that can well happen.

Note that we could also argue that the common cold virus has domesticated us. We're its cattle.

i wish i could say yes, but i cant.

in the short term, if a virus can replicate itself and pass on to another host , that will in turn transmit the virus,,, that means a success.

if debilitating symptoms occur after transmission occurs then those symptoms dont influence selection, this is what happens with asymptomatic incubation and infectious states.

this type of virus uses RNA to carry its code, and a property of RNA is that it is much more error prone than DNA so accidental variations in the code occur quite frequently. A lot of these variants fizzle out but some of them will chance across an advantageous change in the code.

so we see a virus that passes through populations and shifts its codeing by being error prone. this can result in dynamic swings between dominance of strains over time, and lead to innovations such as high communicability, or asymptomatic transmission.

That's normal. Diseases act as parasites on their hosts and its not in the best interest of a parasite to kill its host, or at least not quickly. That's what tends to make zoonotic diseases so dangerous, they've calibrated themselves to exist in an equilibrium with a host animal population but when they transfer to humans that balance is out of whack and they either are immediately wiped out by the immune system or they tend to overdo it and kill the host. COVID-19 seems to have "gotten lucky" in that it found itself with, from its perspective, a thankfully low lethality allowing it to spread widely.

This can apply to bacteria even more than viruses, see https://aeon.co/essays/when-bacteria-kill-us-it-s-more-accid...

EDIT: I should say, though, that you shouldn't expect that to happen quickly. The selective pressure for COVID-19 to become less lethal is far less than it was for, say, MERS.

Had no idea that we could trace tiny differences so elaborately, this is amazing and gives me hope.