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Only 340 Craters Left

Researchers calculate amount of undiscovered meteorite impact sites on Earth’s surface

Freiburg, Jun 30, 2015

Only 340 Craters Left

The meteor crater in Arizona, USA, with a diameter of 1.2 kilometers, is the most well-known impact crater. There must still be many undiscovered craters in this size category – but they are older and much less well preserved. Photo: Thomas Kenkmann

The geologists Prof. Dr. Stefan Hergarten and Prof. Dr. Thomas Kenkmann from the Institute of Earth and Environmental Sciences of the University of Freiburg have published the world’s first study on the question of how many meteorite craters there should be on the Earth’s surface. A total of 188 have been confirmed so far, and 340 are still awaiting discovery according to the results of a probability calculation presented by the two researchers in the journal Earth and Planetary Science Letters.

Meteorite impacts have shaped the development of the Earth and life repeatedly in the past. The extinction of the dinosaurs, for instance, is thought to have been brought on by a mega-collision at the end of the Cretaceous period. But how many traces of large and small impacts have survived the test of time? In comparison to the more than 300,000 impact craters on Mars, the mere 188 confirmed craters on Earth seem almost negligible. Moreover, 60 of them are buried under sediments. Advances in remote sensing have not led to the expected boom in crater discoveries: An average of only one to two meteorite craters are discovered per year, most of them already heavily eroded.

The probability of a meteorite impact on Earth is not fundamentally different than on Mars. However, the Earth’s surface changes much more quickly. As a result, the craters remain visible for a much shorter period of time, meaning that many less of them are detectible today. “The main challenge of the study was to estimate the long-term effect of erosion, which causes craters to disappear over time,” says Hergarten. The life span of a crater depends on the rate of erosion and its size. Large craters can achieve a life span of several 100 million years, depending on the region in which they are located. On the other hand, large impacts are much rarer than small impacts. The solution was to compare the amount of confirmed craters of different sizes, calculate the expected frequency of the impacts on the basis of the known probabilities, and combine this information to infer the rates of erosion.

“A surprising, initially sobering finding we made was that there are not many craters of above six kilometers in diameter left to discover on the Earth’s surface,” reports Hergarten. In the case of smaller craters, on the other hand, the scientists found the current list to be far from complete: Around 90 craters with a diameter of one to six kilometers and a further 250 with a diameter of 250 to 1000 meters are still awaiting discovery. While there are undoubtedly still a number undiscovered large craters buried deep under sediments, they are much more difficult to detect and confirm.

Freiburg students have been involved in the research since 2011: The course “Screening Earth – a Student (Re)search Project” is held each year for master’s students in Geology. The course enables aspiring young geologists to participate in the search for undiscovered craters. “The students will have to decide for themselves whether to focus on looking for small craters – or whether it might yet be possible to pull off the coup of discovering one of the last remaining large meteorite craters,” says Kenkmann, who received the Baden-Württemberg State Teaching Award for the course in 2012.

Original publication:
S. Hergarten & T. Kenkmann (2015) The number of impact craters on Earth: Any room for further discoveries? Earth Planet. Sci. Lett., 425: 187-192.
doi 10.1016/j.epsl.2015.06.009
www.sciencedirect.com/science/article/pii/S0012821X15003659


Article in the magazine uni’lernen:

www.pr2.uni-freiburg.de/publikationen/unilernen/unilernen-2013/page1.html#/32


Contact:

Prof. Dr. Stefan Hergarten
Institute of Earth and Environmental Sciences
University of Freiburg
Phone: +49 (0)761/203-6471
E-Mail: stefan.hergarten@geologie.uni-freiburg.de

Prof. Dr. Thomas Kenkmann
Institute of Earth and Environmental Sciences
University of Freiburg
Phone: +49 (0)761/203-6495
E-Mail: thomas.kenkmann@geologie.uni-freiburg.de


Printable version (pdf) of the press release.