Campo de Cielo’s bounty of meteorites is deemed by scientists to be unique. For the majority of impacts on Earth, it’s impossible to recover the entire intact mass of the meteorite, says Bill Cassidy, a researcher who studied the site for NASA in the 1960s and 2000s. So scientists often are unable to determine a meteorite’s total mass, its angle of impact and other characteristic details. Campo del Cielo, however, underwent impacts from objects of various masses coming in at roughly the same angle and speed as the original impactor broke up. This diversity allows meteoriticists to perform calculations to help them determine details about the impactor and its orbit, which can serve as models to improve the understanding of meteorite impacts elsewhere on Earth. Cassidy lately has moved on to study impacts in Antarctica but he barely scratched the surface at the site in Argentina. “They should keep studying Campo del Cielo,” he says.
NASA first abandoned research at Campo del Cielo in 1969 after Neil Armstrong and Buzz Aldrin walked on the moon. There, the agency decided, it could study well-preserved lunar craters that had undergone no human or climatic impact. In 2005, however, NASA returned to Campo del Cielo to collect more data.
Mario Vesconi of the Chaqueña Astronomy Association currently works at the site. He also advocates for further research there, noting predictions for future major meteorite impacts on Earth as well as a spectacular meteor entry captured by cameras in Chelyabinsk, Russia, in 2013. “If an impact like Camp del Cielo occurred in a city, we’re talking about a disaster,” he says. Studying the region’s craters could enable analyses of the incoming rock’s power, energy, speed and also help scientists better predict the consequences of any future major impact in a populated area.
The crater Rubín de Celis is 60 meters across and 4.5 meters deep. Photo by Mario Vesconi
Examining the site
The craters gouged out of the landscape by the impactor at Campo del Cielo are distributed across two provinces, with 14 in the Chaco and 26 in Santiago del Estero. The former have been analyzed but those in Santiago del Estero have not. The craters particularly intrigue Vesconi. “In no other place in the world has there been a meteorite shower with angles of impact so low,” he says. “The craters are nearly impossible.” Vesconi and his team began the archaeological work. “We’ve only analyzed about 40 to 50 percent of the [Campo del Cielo] site,” he says. “If we want to calculate the orbital parameters and the complete mass of the asteroid, we need to work in Santiago del Estero.”
By some estimates, before entering the atmosphere the asteroid probably weighed 600 tons. Half that mass likely burned up on entry. Of the 300 tons that impacted, one third has been recovered. “There’s much more buried material and dispersed elements,” Vesconi says.
The meteorites left two types of craters: so-called explosions and funnel penetrations. There are four of the former type, with the biggest measuring 80 meters wide and 14 meters deep. “Upon impact, the whole mass of the asteroid spread throughout the area,” he says. “If you walk through the site you’ll find meteorites.” The other type of crater resembles a tunnel. They can measure up to 25 meters long and eight meters deep, in the case of one punched by a 14-ton meteorite. Some are estimated to have struck the surface at 14,400 kilometers an hour.
Vulnerability to development
Vesconi says the region has always had crater conservation problems. “It’s no-man's-land,” he notes. “Despite the expropriation of the craters by the province, it never took real ownership of the land. The people still don’t value the site.” Locals at times have taken possession of its meteorites or filled its craters or built roads over them.
Alejandro López, an astronomer and researcher at the University of Buenos Aires and the National Scientific and Technological Research Council (Conicet), says many of the larger fragments end up in private collections or in collections at museums and scientific institutions around the world. Small and large meteorites alike from Campo del Cielo that were taken illegally are sold online. “In the ‘90s someone even tried to take El Chaco,” López says. Although the situation has improved in the past decade with a national law and tighter control on meteorite trafficking, the site continues to be at risk and requires more protection.
The meteorites and the people
Using ethnoastronomy, López analyzes the worldviews and astronomical knowledge of different cultures. To the pre-Columbian people, he says, the meteorites were an important part of the landscape. “They were linked to power,” he adds, “and the people knew they came from the sky, even though they did not witness their impact.” In fact, the indigenous population understood the origins of the meteorites better than the conquistadors did. “European scientists in the colonial age denied that these object could have fallen from the sky,” López says. “They looked for other explanations, like the meteorites were an outcrop of silver from Potosí or volcanic rocks.”
The Spanish conquistadors learned about Campo del Cielo from the natives. They believed the legend surrounding the Mesón de Hierro, a huge meteorite that was never found, despite several adventurers claiming to have seen it. The Criollos, South American colonists born to Spanish parents, viewed the meteorites as a source of wealth—rocks to mine for iron or silver or to serve as a tourist attraction. “They were always seen as landmarks that branded the region as a chosen land,” López says. In Gancedo, the closest town to the site, residents hold an annual National Meteorite Festival.
López thinks that the site could serve as an excellent tourist attraction, provided it was well operated and involved local residents. Today the only area open to visitors is the Provincial Park of the Meteorites, which hold El Chaco and a few other objects. But Vesconi, with approval from Chaco Province, is moving things along a bit further. He is performing measurements that could be used at least to create a tourist route around some craters close to the park.
Quelle: Scientific American