> The herd immunity threshold
(HIT) defines the percentage of the population that needs to be immune to reverse epidemic
15 growth and prevent future waves. Figure 3 shows the expected downward trends in the HIT for
SARS-CoV-2 as the coefficients of variation of the gamma distributed susceptibility or exposure
are increased between 0 and 4 (to assess robustness to changing the type of distribution see
Figure S22 for equivalent plots with lognormal distributions). While herd immunity is expected
to require 60-70% of a homogeneous population to be immune given an R0 between 2.5 and 3,
20 these percentages drop to the range 10-20% for CVs between 2 and 4.
Curvefitting from COVID-19 incident waves, past SARS experiences, surveying of contact tracing data, pre-epidemic mobility data in the population, etc, all point to CVs around 3 which corresponds to a herd immunity threshold of 15% or so (hence the paper's 10-20% range). I think this is optimistic and a threshold of more like 30-35% is likely, which with durable aspects of behavior change might really end up being ~25%.
I don't think that that inferred CV from the quote says anything about the "herd immunity" in the sense which most of people would like it to be. If you have an outbreak where people start to suffer, people react, they stop behaving in a way they would do without he outbreak running. The "curve fitting" you quote, the way I see it, therefore doesn't say anything about the inherent resistance of human body or something like that, but about when different communities resort to locking themselves down or taking some other drastic action as the response to the "rising wave", even without any official ban of some activity.
Just reading, in one meat processing plant in Germany, from 3000 workers tested they have 1000 PCR positives (Rheda-Wiedenbrück meat processing plant, 1,029 cases so far (1)). It's already 30% of the tested and almost sure an "infection in one wave" (after some weeks a lot of people are PCR negative again). If it stays at 1000 (they will maybe test more: "On Friday morning, addresses of around 30% of the workers were still missing") it wouldn't mean it would have stayed at 1000 hadn't they closed the whole plant.
The whole point of the paper is that coefficient of variation affects the herd immunity threshold. And it obviously does, if you read the paper. The problem is, we don't know for sure what the CV is-- we can only guess based on history and observations.
> Just reading, in one meat processing plant in Germany, from 3000 workers tested they have 1000 PCR positives
This makes me think you don't understand any of the argument. A) CV includes things like contact network structure. OK, meat plants are an unfavorable contact network structure: this proves the point! If we have an observed R0 of 2.5 or 3.0, it includes (disproportionately) people who spend time in places with unfavorable conditions and contact others with unfavorable network structure. If there's a CV, what that means is that in some subgroups of contact structure and individual susceptibility (e.g. meat plants) we have an R0 much higher than 3, and in the bulk of the population we have an R0 much lower than 3.
B) Even ignoring this, there's nothing to say you won't overshoot a herd immunity threshold. The herd immunity threshold is just the threshold where each infection results in less than 1 new infection, on average: it isn't a place where infection magically stops, but instead where the number infected can be expected to naturally decrease. Obviously it's advantageous to have the infected count as low as possible when this happens, because it's only a slow decay from that point.
I simply can't imagine that anybody who even basically understands the related topics could believe the facebook post you posted (I'm referring to the graph). If I'm wrong and they do exist I'm very, very sad, and even scared imagining having to deal with such people.
Also update from yesterday: in Germany's plant today's score is "more than 1500"
You need nothing but Excel/LibreOffice and a few simple formulas to get this picture.
Germany has a heavy 7 day rhythm, because they're doing their reporting in a very strange way. Using 7 day averages helps a lot to get rid of the reporting-noise.
You need:
Daily death (averages over 7 days)
Total death (Sum) (averages over 7 days)
> The herd immunity threshold (HIT) defines the percentage of the population that needs to be immune to reverse epidemic 15 growth and prevent future waves. Figure 3 shows the expected downward trends in the HIT for SARS-CoV-2 as the coefficients of variation of the gamma distributed susceptibility or exposure are increased between 0 and 4 (to assess robustness to changing the type of distribution see Figure S22 for equivalent plots with lognormal distributions). While herd immunity is expected to require 60-70% of a homogeneous population to be immune given an R0 between 2.5 and 3, 20 these percentages drop to the range 10-20% for CVs between 2 and 4.
Curvefitting from COVID-19 incident waves, past SARS experiences, surveying of contact tracing data, pre-epidemic mobility data in the population, etc, all point to CVs around 3 which corresponds to a herd immunity threshold of 15% or so (hence the paper's 10-20% range). I think this is optimistic and a threshold of more like 30-35% is likely, which with durable aspects of behavior change might really end up being ~25%.