Monday, May 9, 2005

New Method For Dating Ancient Earthquakes Through Cave Evidence Developed By Israeli Researchers

Photo in the stalactite cave near Beit Shemesh, Israel,
shows a collapsed ceiling, evidence of an ancient
destructive earthquake. Note the stalactites that
were growing prior to the collapse, as well
as the stalagmites on top of the ceiling that
began to grow only after the collapse.
(Photo by Elisa Kagan)
A new method for dating destructive past earthquakes, based on evidence remaining in caves has been developed by scientists at the Hebrew University of Jerusalem and the Geological Survey of Israel.

Using this method, they discovered for the first time evidence of earthquakes that can be documented some distance from the Syrian-African rift that runs from Syria through Lebanon, Israel and Jordan and down into Africa. This rift caused great shifts in the topography of the region in prehistoric times.

An article on this subject was published this month in the journal Geology. The article is based on work carried out by graduate student Elisa J. Kagan of the Institute of Earth Sciences at the Hebrew University and on a report issued by the Geological Survey of Israel, a government research body.

Stalactite caves retain a record of environmental conditions, including climate and the seepage of water through cracks in the earth. The researchers examined the stalactite cave near Beit Shemesh and another nearby cave, which are located about 40 kilometers west of the Dead Sea. The Dead Sea itself is part of the Syrian-African rift.

Monday, May 9, 2005

New Method For Dating Ancient Earthquakes Through Cave Evidence Developed By Israeli Researchers

Photo in the stalactite cave near Beit Shemesh, Israel,
shows a collapsed ceiling, evidence of an ancient
destructive earthquake. Note the stalactites that
were growing prior to the collapse, as well
as the stalagmites on top of the ceiling that
began to grow only after the collapse.
(Photo by Elisa Kagan)
A new method for dating destructive past earthquakes, based on evidence remaining in caves has been developed by scientists at the Hebrew University of Jerusalem and the Geological Survey of Israel.

Using this method, they discovered for the first time evidence of earthquakes that can be documented some distance from the Syrian-African rift that runs from Syria through Lebanon, Israel and Jordan and down into Africa. This rift caused great shifts in the topography of the region in prehistoric times.

An article on this subject was published this month in the journal Geology. The article is based on work carried out by graduate student Elisa J. Kagan of the Institute of Earth Sciences at the Hebrew University and on a report issued by the Geological Survey of Israel, a government research body.

Stalactite caves retain a record of environmental conditions, including climate and the seepage of water through cracks in the earth. The researchers examined the stalactite cave near Beit Shemesh and another nearby cave, which are located about 40 kilometers west of the Dead Sea. The Dead Sea itself is part of the Syrian-African rift.