Campo del Cielo

Campo del Cielo
Campo del Cielo iron meteorite with natural hole, 576 grams
Type Iron
Group IAB
Structural classification Octahedrite
Composition 92.9% Fe, 6.7% Ni, 0.4% Co
Country Argentina
Region Chaco Province and Santiago del Estero Province
Observed fall No
Fall date 4,000–5,000 years ago
Found date <1576
TKW >100 tonnes

The Campo del Cielo refers to a group of iron meteorites or to the area where they were found situated on the border between the provinces of Chaco and Santiago del Estero, 1,000 kilometers (620 mi) northwest of Buenos Aires, Argentina. The crater field covers an area of 3×20 kilometers and contains at least 26 craters, the largest being 115×91 meters. The craters' age is estimated as 4,000–5,000 years. The craters, containing iron masses, were reported in 1576, but were already well known to the aboriginal inhabitants of the area. The craters and the area around contain numerous fragments of an iron meteorite. The total weight of the pieces so far recovered exceeds 100 tonnes, making the meteorite the heaviest one ever recovered on Earth. The largest fragment, consisting of 37 tonnes, is the second heaviest single-piece meteorite recovered on Earth, after the Hoba meteorite.[1]

Contents

History

In 1576, the governor of a province in Northern Argentina commissioned the military to search for a huge mass of iron, which he had heard that Indians used for their weapons. The Indians claimed that the mass had fallen from the sky in a place they called Piguem Nonralta which the Spanish translated as Campo del Cielo ("Field of the Sky"). The expedition found a large mass of metal protruding out of the soil. They assumed it was an iron mine and brought back a few samples, which were described as being of unusual purity. The governor documented the expedition and deposited the report in the Archivo General de Indias in Seville, but it was quickly forgotten and later reports on that area merely repeated the Indian legends. Following the legends, in 1774 don Bartolome Francisco de Maguna rediscovered the iron mass which he called el Meson de Fierro ("the Table of Iron"). Maguna thought the mass was the tip of an iron vein. The next expedition, led by Rubin de Celis in 1783, used explosives to clear the ground around the mass and found that it was probably a single stone. Celis estimated its mass as 15 tonnes and abandoned it as worthless. He himself did not believe that the stone had fallen from the sky and assumed that it had formed by a volcanic eruption. However, he sent the samples to the Royal Society of London and published his report in the Philosophical Transactions of the Royal Society.[2] Those samples were later analyzed and found to contain 90% iron and 10% nickel and assigned to a meteoritic origin.[3]

Campo del Cielo
Location of Campo del Cielo craters

Later, many iron pieces were found in the area weighing from a few milligrams to 34 tonnes. A mass of about 1 tonne known as Otumpa was located in 1803. Its 634 kg part was brought in 1813 to Buenos Aires and later donated to the British Museum. Other large fragments are summarized in the table below. The mass called el Taco was originally 3070 kg, but the largest remaining fragment weighs 1998 kg.[4]

The largest mass of 37 tonnes was located in 1969 at a depth of 5 m using a metal detector.[3] This stone, named El Chaco, is the second heaviest single-piece meteorite after the Hoba meteorite (Namibia) which weighs 60 tonnes. However, the total mass of the Campo del Cielo fragments found so far exceeds 60 tonnes, making it the heaviest meteorite ever recovered on Earth.[5]

In 1990 a local Argentinean highway police officer foiled a plot by Robert Haag to steal El Chaco. The stone had already been moved out of the country, but was returned to Campo del Cielo and is now protected by a provincial law.[6]

The meteorite impact, age and composition

A crater field of at least 26 craters was found in the area, with the largest being 115×91 meters. The field covered an area of 3×19 kilometers with an associated strewn area of smaller meteorites extending farther by about 60 km. At least two of the craters contained thousands of small iron pieces. Such an unusual distribution suggests that a large body entered the Earth's atmosphere and broke into pieces which fell to the ground. The size of the main body is estimated as larger than 4 meters in diameter. The fragments contain an unusually high density of inclusions for an iron meteorite, which might have facilitated the disintegration of the original meteorite. Samples of charred wood were taken from beneath the meteorite fragments and analyzed for carbon-14 composition. The results indicate the date of the fall to be around 4,200–4,700 years ago, or 2,200–2,700 years BC.[3][7]

The average composition of the Campo del Cielo meteorites is 6.67% Ni, 0.43% Co, 0.25% P, 87 ppm Ga, 407 ppm Ge, and 3.6 ppm Ir, with the rest being iron.[3][8]

Major fragments of the Campo del Cielo meteorite[8][9][10][11]
Mass (tonnes) Name Year of discovery
>15 el Meson de Fierro or Otumpa (missing) 1576
>0.8 Runa Pocito or Otumpa 1803
4.21 el Toba 1923
0.025 el Hacha 1924
0.732 el Mocovi 1925
0.85 el Tonocote 1931
0.46 el Abipon 1936
1 el Mataco 1937
2 el Taco 1962
1.53 la Perdida 1967
3.12 Las Viboras 1967
37 el Chaco 1969 (extracted in 1980)
>10 Tañigó II (missing) 1997
15 la Sopresa 2005
7.85 el Wichí or Meteorito Santiagueño 2006

References

  1. ^ "Campo del Cielo". Earth Impact Database. University of New Brunswick. http://www.passc.net/EarthImpactDatabase/campo.html. Retrieved 2009-08-12. 
  2. ^ M. R. Celis (1788). "An account of a mass of native iron found in South America". Philosphical Transactions of the Royal Society 78: 183–189. 
  3. ^ a b c d Gerald Joseph Home McCall, A. J. Bowden, Richard John Howarth (2006). The history of meteoritics and key meteorite collections. Geological Society. pp. 28–30. ISBN 9781862391949. http://books.google.com/?id=7SvtVoa1W-cC&pg=PA28. 
  4. ^ S. R. Giménez Benítez et al.. "Meteoritos de Campo del Cielo: Impactos en la cultura aborigen". http://www.fcaglp.unlp.edu.ar/~sixto/arqueo/meteoritos.htm. 
  5. ^ "Campo del Cielo". Planetarium de Montreal. http://www.planetarium.montreal.qc.ca/Information/Expo_Meteorites/Vedettes/campodelcielo_a.html. Retrieved 2009-07-07. 
  6. ^ Danny Aeberhard, Andrew Benson, Rough Guides, Lucy Phillips (2000). The Rough Guide to Argentina. Rough Guides. p. 370. ISBN 1858285690. http://books.google.com/?id=0A73TpHct94C&pg=RA2-PA370. 
  7. ^ Peter T. Bobrowsky, Hans Rickman (2007). Comet/asteroid impacts and human society: an interdisciplinary approach. Springer. pp. 30–31. ISBN 3540327096. http://books.google.com/?id=Gpwgm022ltMC&pg=PA31. 
  8. ^ a b Vagn F. Buchwald (1975). The Handbook of Iron Meteorites, Their History, Distribution, Composition and Structure. 2. Berkeley: University of California Press. ISBN 0520029348. http://www.campometeorites.com/history.htm. 
  9. ^ Monica M. Grady, A. L. Graham, Natural History Museum (London, England) (2000). Catalogue of meteorites. Cambridge University Press. p. 126. ISBN 0521663032. http://books.google.com/?id=mkdHJR35Q_8C&pg=PA126. 
  10. ^ S.P. Wright et al. (2006). "Revisiting the Campo del Cielo, Argentina crater field: A new data point from a natural laboratory of multiple low velocity, oblique impacts". Lunar and Planetary Science XXXVII: 1102. http://www.lpi.usra.edu/meetings/lpsc2006/pdf/1102.pdf. 
  11. ^ M. C. L. Rocca et al. (2006). "A catalogue of large meteorite specimens from Campo del Cielo meteorite shower, Chaco province, Argentina". 69th Annual Meteoritical Society Meeting: 5501. http://www.lpi.usra.edu/meetings/metsoc2006/pdf/5001.pdf. 

External links