Alpha, beta, gamma, delta — there have been four COVID-19 variants of concern that have altered the course of the pandemic at different points in the past year and a half. First came the alpha variant, first detected in the United Kingdom, that was more transmissible and caused the surges behind the winter wave of the pandemic. The beta variant came next, triggering outbreaks in South Africa, along with gamma, the variant that took hold of Brazil in January. Now we have delta ― definitely more transmissible, potentially more virulent (though it’s hard to know for sure), and a huge problem for those who remain unvaccinated. Every day brings new concerning headlines about this variant or that mutation, which brings up the natural question: What’s next? To better understand what the next round of variants might look like, we need to take a look at what we’ve learned so far about how this coronavirus changes. Each time the virus infects a new cell, it starts to makes copies of itself — and as it copies, it makes random changes (known as mutations) all over the place. Most mutations aren’t useful and die out, but some can be tolerated and passed on, said Ben Neuman, chief virologist at Texas A&M University’s Global Health Research Complex. Coronaviruses are typically slow changers — they mutate, as any virus does, but they don’t evolve at an alarming rate.
What shocked scientists is the rate of evolution, or how quickly these variants of concern acquired new mutations, according to Nathan Grubaugh, an evolutionary virologist and associate professor of epidemiology at the Yale School of Public Health.
In general, the coronavirus acquires about one or two mutations a month. But the variants of concern have acquired many more mutations much more quickly. Alpha, for example, didn’t just acquire one or two mutations, it picked up 17. The leading hypothesis is that it took a prolonged infection ― probably in an immunocompromised person whose body had a tough time clearing out the virus ― to collect this many mutations so rapidly. From there, the virus spread to somebody else before taking off and shooting through entire communities. According to Grubaugh, the same sort of rapid increase in mutations was identified with the beta variant detected in South Africa and the gamma variant that popped up in Brazil. “This phenomenon that we’re watching, of these variants that arise very quickly, I think caught a lot of us off guard,” Grubaugh said. It’s impossible to predict exactly what future variants will look like, but it’s pretty undeniable that we are going to see new variants emerge. “We haven’t seen the end of variants and we certainly haven’t seen the end of variants that are more transmissible,” Grubaugh said. The development of new variants that rise to the level of concern is actually extremely rare. There have probably been hundreds of thousands of events where a host of new mutations have occurred, but those versions of the virus weren’t very fit so they died out before becoming a variant of concern. Just because the virus evolves, doesn’t mean it’s going to become a variant of concern.