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It’s spring 2021.
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The Alpha variant of the coronavirus
has spread rapidly,
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becoming the dominant variant worldwide.
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But another, more transmissible
variant is about to appear—
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Delta.
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What happens when two variants clash?
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Let’s do a thought experiment.
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Suppose that the variants reach
a hypothetical isolated city
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of 1 million people who are
completely susceptible to both viruses
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on the same day.
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When a person here is infected with Alpha,
they transmit it to,
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on average, 5 close contacts,
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then begin to feel sick
and immediately isolate themselves
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for the rest of the simulation.
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The same thing happens with Delta,
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except that an infected person transmits
it to, on average, 7.5 close contacts.
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What would you guess happens next?
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After six days,
Alpha will have infected 15,625 people.
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Delta will have infected
more than 10 times as many.
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Just 20 hours later, Delta will have
infected the rest of the population—
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all before Alpha could infect 6% of it.
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With no one left to infect,
Alpha dies out.
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This model is
drastically simplified,
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but it accurately reflects one thing
that did happen in real life:
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when both variants competed,
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Delta drove Alpha
towards extinction in a matter of weeks.
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Viruses are wildly successful organisms.
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There are about 100 million times
as many virus particles on Earth
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as there are stars
in the observable universe.
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Even so, viruses can and do go extinct.
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There are three main ways that can happen.
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First, a virus could run out of hosts.
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This might have happened in early 2020
to a flu lineage known as B/Yamagata.
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When much of the world shut down,
social distanced, and wore masks
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to slow the spread of COVID 19,
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that dramatically reduced the number of
hosts available for B/Yamagata to infect.
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It’ll take a few more flu seasons
to know for sure
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if it’s truly extinct or just
hiding out in an animal reservoir.
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Many viruses, as part of their life cycle,
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cause diseases severe enough
to kill their hosts.
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This can be a problem because
if a virus kills all its hosts,
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it could— in theory— run out of hosts
to infect and go extinct.
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This almost happened
back in 1950s Australia.
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At the time, Australia was overrun by the
European rabbit— an invasive species—
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so, in an attempt to control
the population,
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scientists released a virus
called myxoma,
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which had been previously shown to be
almost 100% lethal to European rabbits.
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During the initial outbreak,
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as planned, tens, perhaps hundreds,
of millions of European rabbits died.
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But as the virus spread,
it evolved a series of mutations
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that happened to make it less deadly,
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killing rabbits more slowly
and killing fewer rabbits overall.
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With more infected hosts hopping around,
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this strain of the virus was more likely
to spread than its deadlier cousin.
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And of course, rabbits evolved too,
to mount better immune responses.
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Overall, instead of killing
every single rabbit,
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the virus evolved,
the rabbit population bounced back,
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and both survived.
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The second way a virus could go extinct
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is if humans fight back
with an effective vaccine—
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and win.
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Vaccination campaigns have driven
two viruses essentially to extinction
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since vaccines were invented in the 1800s:
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smallpox and rinderpest,
which kills cattle.
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More on vaccination later.
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The third way a virus can go extinct
is if it’s outcompeted
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by another virus or strain,
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like we saw earlier with Delta and Alpha.
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By the way, viruses don't always
compete with each other.
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A viral species can carve
out its own distinct niche—
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for example, influenza infects
your respiratory tract,
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and norovirus infects cells
in your intestine,
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so both of these viruses can co-exist.
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A virus’ ecological niche can be tiny:
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hepatitis B and hepatitis C viruses
can infect the same cell—
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hep B occupies the nucleus,
and hep C occupies the cytoplasm.
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In fact, epidemiologists estimate that
2 to 10% of people with hep C
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are also infected with hep B.
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So, will SARS-CoV-2—
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the species of virus that causes COVID 19—
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ever go extinct?
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Variants within the species
will continue to arise.
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Those variants might drive prior
ones to extinction, or not.
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Regardless of how the variants compete
(or don’t),
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the species itself—
to which all the variants belong—
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is pretty firmly established among humans.
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If we managed to vaccinate enough people,
could we drive SARS-CoV-2 to extinction?
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Our vaccination campaign
against smallpox worked
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because the vaccine was highly protective
against infection
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and smallpox had no close animal reservoir
in which it could hide.
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But SARS-CoV-2 can hide out in animals,
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and our current vaccines—
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while they provide excellent protection
against severe illness and death—
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don't prevent all infections.
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So, conceivably there are two ways
that SARS-CoV-2—
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the entire species—
could go extinct:
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a cataclysmic disaster could kill us all.
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Or...
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We could invent a universal vaccine
that prevents all SARS-CoV-2 infections—
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those caused by all the variants
that currently exist and those that don’t.
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Let's work toward that second option.
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