Read Everything Is Going to Kill Everybody Online
Authors: Robert Brockway
Tags: #Technology & Engineering, #Sociology, #Humor, #Social Science, #Nature, #Science, #Disasters & Disaster Relief, #General, #Environmental, #Natural Disasters, #Ecology, #System failures (Engineering), #Hazardous substances, #Engineering (General), #Death & Dying
If there’s one thing we don’t want communicating and coordinating with one another, it’s rodents. Disease-spreading creatures that have already, at least once in history, participated in the near total destruction of the human race, thanks to their role in spreading the Black Death. And that was without boosted language skills and human sperm! Now they can not only jizz disease on your face, but ask you who your daddy is while doing it.
Isn’t progress wonderful?
17.
BIOTECH LETHALITY
SOME OF THE WORLD’S
most devastating diseases, from the H1N1 “swine flu” to SARS, have made the jump from animal to man naturally. Though transspecies diseases have fortunately been relatively low mortality in recent years, new variants of the flu have historically been potential extinction-level events. Consider the Spanish flu of
1918, whose total estimated death count varies from 30 to 50 million. That’s more fatalities within a year than in most of America’s major wars of the last century. It actually was a kind of swine flu; it jumped from pigs to humans and eventually wiped out the equivalent of a large country. Talk about your rags-to-riches story! We’re now more reliant on livestock than ever, and it’s all conglomerated—roughly 80 percent of America’s beef is currently processed by less than half a dozen companies, and a full third of the entire country’s milk comes from one single solitary company. You can easily see why an outbreak in a food processing factory, in today’s world, could kill on a much larger scale than it could’ve a century ago. Thanks to corporate rule, we not only wear the same brand of T-shirts, buy the same brand of coffee, and watch the same TV shows, but we also share a common pool of food products. And that’s where we drink all of our milk from!
Out of the contagion pool!
Less Disturbing Pools Than the “Contagion Pool”
Unchlorinated swingers’ hot tub
Disused hobo bathhouse
Office pool on estimated time of coworker’s newborn baby suffering crib death.
According to the above numbers, if a major dairy supply were to be contaminated, there’s a one in three chance that you’d end up drinking it. So here’s a worrying thought: We have security measures at airports and train stations … but how well-protected and monitored are the dairies? Terrorists got pilots’ licenses; I’m betting that they can get jobs as milk skimmers at the competitive rate of three fifty an hour and half a pound of free cheese per meal break.
To make matters worse, not only is there contamination in our food distribution, the actual livestock themselves aren’t much better. Thanks to the overuse of antibiotics in feed animals, superresistant diseases are rapidly on the rise. That cow whose sole purpose in life is to turn its ass into delicious cheeseburgers isn’t exactly going to get primary care; farmers have chosen to mass dose their herds with antibiotics and hope to catch what they can. This not only leads to a reduced efficiency in the cows’ immune systems, but in our species’ as well. That cow’s last meal probably contains those same antibiotics (I mean, what’s he gonna order, steak?) and that makes it
your
current meal, if you then eat said cow. So human antibiotics have an overall reduction in efficiency because of mass-medicated cattle, and that sucks (fuck you, cows—no wonder we eat you), but Dr. Arjun Srinivasan, an epidemiologist with the CDC, actually thinks that, just considering the sheer amount of antibiotics dumped into the food supply, antibiotic overdose in animals may actually endanger the human race more than any potential overdose in the humans themselves.
But this is all so nebulous: Biotech “affecting the immune systems of cattle” isn’t exactly a sexy apocalypse. So let’s consider the actual effects one of these animal-spread pathogens could take. For example,
Toxoplasma gondii
. It lives most of its life in rats, but can only mature to adulthood in the belly of a feline. When it’s ready, it causes the host rat to seek out and loiter around cat urine—because where there’s cat piss, there are cats—and, when the rat is inevitably eaten, the parasite is successfully transferred to the feline host.
Toxoplasma gondii
is an organism that possesses its host and fosters a death wish, because it can thrive only if the host dies. But fuck those rats, anyway. That couldn’t possibly affect you, right?
Well, actually, half of the entire human population is infected with
Toxoplasma gondii
. Not “throughout history.” Not just “at risk.” But literally and presently fully infected.
Right.
Fucking.
Now.
Arguments Against Owning a Cat
They pee on everything.
They don’t really do tricks.
They don’t really like you.
They’re infested with things that infect your brain and drive you insane.
This is particularly bad, because severe cases of toxoplasmosis manifest as full-blown paranoid schizophrenia: voices, delusions, hysteria—the works. Toxoplasmosis is the reason that pregnant women aren’t supposed to handle cat litter, why newborn babies aren’t supposed to be around cats, and though there’s no actual basis to believe it, it certainly goes a long way toward explaining crazy cat-collecting ladies if they’re actually infected by mind-controlling parasites harbored within the cats themselves. Even in minor cases in people whose immune systems aren’t compromised (fifty/fifty chance says that’s you), the majority of infected males suffer from neuroses, guilt, and nervousness from even mild cases, while infected females are more aggressive and outgoing … and have drastically heightened sex drives. That explains why those cat ladies put out so easy, am I right, fellas? Hell yeah! Maybe our parasites can get together and high-five later.
It’s basically a viral parasite that transforms women into ballcrushers and men into pussies. That’s a little unsettling, but hey, gender roles are different in modern times anyway. No harm, no foul. Until you consider that these side effects could be dangerously exploited, because—like it or not—the modern military remains primarily male. Not hard to see the appeal of a biologically engineered toxoplasma used as a weapon—an army of butch Jack Dempsey hard-asses instantly emasculated into nebbish, Woody Allen-style timidity, too insecure about their manhood to order a steak correctly, much less fire eighteen bullets into the face of a rampaging RoboNazi (hey, it’s the future, right? I’m just assuming we’ll fight enemies a little cooler and less ambiguous than “brown people who don’t live on this continent” by then).
And remember, those are mild cases. In addition to schizophrenia, severe cases manifest side effects like blindness, cerebral palsy, severely diminished coordination, and even death. Toxoplasma infections are mostly kept in check by our immune systems, so severe cases are rare. But then, there are any number of reasons why our immune systems might not be up to snuff, from the serious—such as AIDS or chemotherapy—to something as mundane as the flu. With half of the population already harboring
gondii
parasites, any immune-suppressing assistance at all, and
gondii
could start wiping us all out.
But as terrible as the severe cases can be, we’re still alive. If we catch it in time, it might not be an apocalyptic-level event, even
if
superstrains were engineered. But keep in mind that it takes only one mutation for the host roles to change.
If that happens, we could very well become the rats, gestating the parasite until it decides it’s time to move on to something better. So maybe tomorrow’s the day you wake up loving the distinct musk of lion piss, and it’s some lion’s turn to get uncontrollably horny and schizo. Don’t outright dismiss the likelihood of this kind of mutation, either. Consider that with military funding and advances in modern science, it would be a snap to modify a few strands of DNA and let a modified
gondii
loose. It sure would make the army’s job a lot easier, after all, if all of their enemies inexplicably began loving the smell of recently plucked hand grenades.
But hey, guys, look at the bright side: If there’s a death wish–inspiring parasite living in all of our brains, at least it’s paying the rent in skanks.
So far, we’ve talked about how biotechnology has not only elevated the threat level of the viruses themselves, but also, through our extensive use of agricultural biotechnology, created a mass contaminate pool larger than any in the history of the human race; we all drink from the same watering hole (technically it’s a milk hole, but that’s just pornographic), so let’s move on from the general dangers and really home in on sweet, sweet genocide: In August 2000, a bacterium named
Klebsiella pneumoniae
(that’s right, in the same genus as that
other
world-destroying bacteria) was discovered in New York University’s Tisch Hospital. Dr. Roger Wetherbee, a physician there, describes it most succinctly in this excerpt from a
New Yorker
article:
“It was literally resistant to every meaningful antibiotic that we had.” The microbe was sensitive only to a drug called colistin, which had been developed decades earlier and largely abandoned as a systemic treatment, because it can severely damage the kidneys. “So we had this report, and I looked at it and said to myself, ‘My God, this is an organism that basically we can’t treat.’”
That sounds like dialogue from a bad action movie. Did he dramatically remove his glasses after saying “my God”? Did motherfucking lightning strike when he said “this is an organism that basically we can’t treat”? Thankfully, this episode in New York was the only major outbreak of this strain in the United States. But unfortunately, this particular strain of
Klebsiella
had refined itself so extensively in the clinical environment—thriving on weak patients, immunizing itself to antibiotics—that it couldn’t even be killed with
industrial disinfectants
.
Industrial disinfectants are hard core; I think that’s what finally killed John Wayne; I think that’s what finally toppled Communism—hell, that’s probably what killed disco! Though a form of bleach
did
eventually kill
Klebsiella pneumoniae
, it was eventually proven resistant to everything from ammonia to phenol. This sounds unkillable, like the goddamn Highlander of bacterium. I think disease just found its first superhero.
If You Liked That
Murphy Brown
Reference, You May Also Enjoy
Lattes
Khaki
Your grandchildren
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Paisley
Huge precautions were taken, and hospital staff basically donned biohazard suits and flamethrowers to burn the infected before they could be turned. That hospital should have been more sterile than a
Murphy Brown
episode, and yet still the bacteria thrived. Patients started getting bloodstream infections from the bacterium, which is the most lethal infection one can get, before hospital staff eventually contained it. By that time, nearly half of all those infected had died. This was in a space as confined as a university hospital, with strict containment procedures and experience in combating the spread of disease. Imagine if this outbreak had occurred anywhere else? With this high a mortality rate, it could have halved the world’s population practically overnight.
Thank God our dairies are so well protected!
But hey, why even develop new microscopic murderers when the classics never go out of style? Scientists found they were recently able to synthesize the polio virus from scratch, presumably in an effort to give us all tiny T-rex arms so we can’t fight back when the government Thought Clerics come a-calling. It’s been theorized that the same process, a rather simple one by all indications, could also be used to synthetically manufacture similar viruses. But any contender would have to have a simple cell structure like polio, so they still can’t do anything
too
complicated, and at least that’s somewhat consoling … if you stop reading this chapter right now.
Other “simple” viruses in this category include both Ebola and that superlethal Spanish flu from 1918.
That’s already happened, actually. Researchers have already synthesized Ebola. They used something called “reverse genetics” (which is presumably just like regular genetics but practiced only on Opposite Day), and presto!
You’ve done it, scientists!
You’ve re-created one of the scariest viruses on Earth! Now just hand it over to your boss—the unsettling fellow in the iron face mask and velvet cloak who commutes to the job site every day in a floating castle—and I’m sure he’ll be quite responsible with it. He might even promote you!