> Much potentially vital genetic information can be found in the Congo, but also more “attack vectors” for novel pathogens
I don't think it quite works that way. At least, I only ever hear about a lack of genetic diversity being a threat in the context of diseases and immunity (usually in the context of domesticated animals and cloned plants, like bananas). And there the argument is that once a virus has way in, it can spread to everyone else genetically similar enough.
So I think this is mixing up two views: one takes all genetic variation out there, and asks "if I were to unleash this novel virus on all of them, would any of them be infected?" The higher the diversity, the higher the chance that at least one happens to have the genetic make-up that is accessible by a virus.
But the actual questions are closer to "how many would be infected? How easy would the virus spread?" In that case I would expect higher genetic diversity to result in lower numbers. Like a kind of soft herd-immunity in diversity.
I'm not an expert though, so if anyone who does know their stuff in this matter could weight in that would be appreciated.
Also, as far as I understand the problem for bats is that they share (predigested) food with their fellow bats in their colonies. So if one is sick with anything, all of them will be exposed.
I know almost nothing about genetics or virology, but perhaps GP is saying the close proximity of genetic similarity allows viruses to mutate and infect people it otherwise wouldn’t. For example, say Person A had a virus, and under no circumstances would Person A ever infect Person C due to Person C being just barely genetically different enough from A. Then we put Person B into the mix who is “halfway between A and C” (quotes because that’s probably not precisely how genetics works, but I don’t know). The virus infects B, then mutates and infects C.
I don't think it quite works that way. At least, I only ever hear about a lack of genetic diversity being a threat in the context of diseases and immunity (usually in the context of domesticated animals and cloned plants, like bananas). And there the argument is that once a virus has way in, it can spread to everyone else genetically similar enough.
So I think this is mixing up two views: one takes all genetic variation out there, and asks "if I were to unleash this novel virus on all of them, would any of them be infected?" The higher the diversity, the higher the chance that at least one happens to have the genetic make-up that is accessible by a virus.
But the actual questions are closer to "how many would be infected? How easy would the virus spread?" In that case I would expect higher genetic diversity to result in lower numbers. Like a kind of soft herd-immunity in diversity.
I'm not an expert though, so if anyone who does know their stuff in this matter could weight in that would be appreciated.
Also, as far as I understand the problem for bats is that they share (predigested) food with their fellow bats in their colonies. So if one is sick with anything, all of them will be exposed.