Forget the Mayan nonsense. Goofy prophecies and Mesoamerican calendars won’t bring about the end of civilization, but there are at least a dozen scientifically valid ways the apocalypse could arrive before 2012 is out.
Predicting the end of the world is both a sure bet and a fool’s errand. Eventually, the total destruction of civilization, the human race, and, indeed, the world is a near certainty. The tricky part about predicting the apocalypse is the timing. But that hasn’t stopped people from forecasting impending doom throughout human history. Holy men, ancient astronomers, and even modern computer scientists have all occasionally read the leaves in their occupational cups of tea and concluded that the end is nigh. And, without exception, they have all been wrong.
But maybe this year is going to be different. On Dec. 21, 2012, the Mayan calendar will reach the end of a 394-year cycle called a b’ak’tun, which has sent end-time aficionados into a frenzy. (About the movie based on the 2012 theory, the less said the better.) Archaeologists laugh off that doomsday scenario, explaining that the Mayan calendar cycle is no more momentous than our own calendar ticking over from 1999 to 2000. So that’s a relief.
Still, just because the Mayans didn’t predict the end of the world this particular year doesn’t mean our safety is assured. There are plenty of other risks to life on earth that scientists do take seriously. These might range from disasters that threaten millions or billions of people to an all-out “extinction-level event” that wipes out the majority of life on the planet.
Could one of these global bummers strike us this year? Not likely. But not completely impossible. To understand the infinitesimally small—but nonetheless real—risk of planetary disaster, it helps to travel back in time. Because such events have happened before. And the results weren’t pretty.
To see the evidence, let’s take a trip. Start with a visit to the American Museum of Natural History in New York City. On the fourth floor, just inside the entrance to the Hall of Saurischian Dinosaurs, you’ll find a chunk of Montana dirt with dark and light bands layered like Neapolitan ice cream. Not very exciting compared to the huge creatures on display nearby. But one thin, grayish-beige layer might explain what exterminated these great beasts: It’s the impact residue of a 6-mile-wide asteroid that struck the Yucatán 65 million years ago. “In its aftermath we see extinctions of everything from single-celled organisms to the largest dinosaurs,” says Mark Norell, chairman of the museum’s paleontology division. Could another one seal our own fate? Or could some other extraterrestrial catastrophe bring us death from above?
Or maybe it could come from below. Twenty-two hundred miles west, in Yellowstone National Park, one of America’s most popular tourist attractions, is another ominous harbinger of destruction. About once every hour, the pool around the Old Faithful geyser explodes in a fountain of spray 145 feet tall. It’s a cool effect, until you consider what powers it: geothermal energy radiating up from a subterranean plug of magma. Every 500,000 years or so, the Yellowstone supervolcano erupts and rains lava and ash for hundreds of miles. An eruption 250 million years ago in Siberia may have released enough carbon into the atmosphere to cause the largest mass extinction in earth’s history, the Permian-Triassic, which wiped out 96 percent of all sea life.
In the cruelest of ironies, the gravest threat to human life on earth may be other life on earth—the microbial kind. Let’s turn our tour of all things apocalyptic to the Netherlands, where virologist Ron Fouchier at the Erasmus Medical Center recently synthesized an airborne version of the H5N1 avian flu. The lethality and frequent mutations of H5N1 make it a serious pandemic threat. The last big influenza pandemic, the Spanish flu of 1918, is estimated to have killed more than five times as many people as World War I. The possibility of a naturally occurring global outbreak is ever present, but the threat from labs is becoming more frightening. “The cost of synthesizing a new organism goes down every year,” says Dr. Ali Khan, head of the Office of Public Health Preparedness and Response at the Centers for Disease Control and Prevention. “A bad guy could make his own smallpox.”
Although imminent destruction seems all around us, the probability of extinction in any one year is vanishingly small. Our long-term prognosis, however, is far darker. Very few species survive through the eons like the alligator and the coelacanth. “The safe bet is that we won’t make it, because 99.9 percent of things don’t,” says Timothy Spahr, director of the Minor Planet Center in Cambridge, Mass., an asteroid- and comet-tracking organization.
We’ve got some time, though. On average, vertebrate species stick around 4 to 6 million years, and modern humans are only about 200,000 years old. And we’re not your typical vertebrates. Our science and technology might ultimately migrate off this little planet altogether. So maybe we’re just getting started.