Since Alexandria’s great library was ransacked 1600 years ago, astronomers have searched in vain for a copy of the Hipparchus star catalog, the earliest sky map known to have used a coordinate system. Now, an astrophysicist vacationing in Naples, Italy, believes he has found a copy sitting in plain view on a statue of Atlas, the Greek god sentenced to bear the weight of the heavens.
The two-meter-tall statue, called the Farnese Atlas, was unearthed in the 1400s and is in the National Archaeological Museum in Naples. It is believed to be a second-century-AD Roman copy of an earlier Greek original. For years historians had speculated that the globe on the giant’s shoulders, which is marked with 41 Greek constellations and with lines indicating the celestial equator, tropics, and ecliptic, contained an accurate sky map.
But no one with technical training had published anything about the Farnese Atlas until Bradley Schaefer of Louisiana State University, Baton Rouge, came along last year. “I have a nice fun result simply because I am the first astrophysicist to run an analysis,” he says. His research will appear in the Journal for the History of Astronomy next month. The sky map Schaefer identified will help astronomers and historians determine how much of Hipparchus’s work was used in later star catalogs. In addition to creating the sky map, the second-century-BC astronomer discovered the wobble of Earth’s axis, recorded the first observations of a nova, calculated the length of the year to within six minutes, and is said to have devised the magnitude scale for star brightness still used by astronomers today.
Schaefer dated the statue’s sky map by taking advantage of one of Hipparchus’s observations: Stars and constellations move slowly over time with respect to the celestial equator, tropics, and meridian lines. By digitizing high-precision photographs of the globe, Schaefer was able to mathematically match locations of constellations to a date. According to his calculations, the map rendered on the globe was created in 125 BC, give or take 55 years. The positions of the constellations on the globe are too accurate to be an artistic interpretation, says Schaefer. The date, plus the shapes of the constellations, clinch the mapmaker as Hipparchus, and rule out other potential sources, such as verbal descriptions of the night sky by Aratus (275 BC), Eudoxus (366 BC), or the Assyrian observer (1130 BC), and Ptolemy’s later catalog from about AD 128.
“Schaefer’s given a pretty convincing argument, and the real ingenuity here is working out the star positions just from the pictures,” says Owen Gingerich, a Harvard University astronomy historian. “Perhaps the most fascinating part of this discovery,” Schaefer says, “is simply that we have recovered one of the most famous known examples of ‘lost ancient wisdom.’ “
The Farnese Atlas (above). Compensating for the slow movement of stars across the sky was the key in dating the constellations on the globe (right) to 125 BC.
The Farnese Atlas (above). Compensating for the slow movement of stars across the sky was the key in dating the constellations on the globe (right) to 125 BC.
