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UNIVERSITY PARK, Pa. -- The Maya are famous for their complex, intertwined calendric systems, and now one calendar, the Maya Long Count, is empirically calibrated to the modern European calendar, according to an international team of researchers."The Long Count calendar fell into disuse before European contact in the Maya area," said Douglas J. Kennett, professor of environmental archaeology, Penn State.
"Methods of tying the Long Count to the modern European calendar used known historical and astronomical events, but when looking at how climate affects the rise and fall of the Maya, I began to question how accurately the two calendars correlated using those methods."The researchers found that the new measurements mirrored the most popular method in use, the Goodman-Martinez-Thompson (GMT) correlation, initially put forth by Joseph Goodman in 1905 and subsequently modified by others. In the 1950s scientists tested this correlation using early radiocarbon dating, but the large error range left open the validity of GMT.
"With only a few dissenting voices, the GMT correlation is widely accepted and used, but it must remain provisional without some form of independent corroboration," the researchers report in today's (April 11) issue of Scientific Reports.
A combination of high-resolution accelerator mass spectrometry carbon-14 dates and a calibration using tree growth rates showed the GMT correlation is correct.
The Long Count counts days from a mythological starting point. The date is comprised of five components that combine a multiplier times 144,000 days – Bak'tun, 7,200 days – K'atun, 360 days – Tun, 20 days – Winal, and 1 day – K'in separated, in standard notation, by dots.
The samples came from an elaborately carved wooden lintel or ceiling from a temple in the ancient Maya city of Tikal, Guatemala, that carries a carving and dedication date in the Maya calendar. This same lintel was one of three analyzed in the previous carbon-14 study.
Researchers measured tree growth by tracking annual changes in calcium uptake by the trees, which is greater during the rainy season.
The amount of carbon-14 in the atmosphere is incorporated into a tree's incremental growth. Atmospheric carbon-14 changes through time, and during the Classic Maya period oscillated up and down.
These calculations were further complicated by known differences in the atmospheric radiocarbon content between northern and southern hemisphere.
"The complication is that radiocarbon concentrations differ between the southern and northern hemisphere," said Kennett. "The Maya area lies on the boundary, and the atmosphere is a mixture of the southern and northern hemispheres that changes seasonally. We had to factor that into the analysis."
The researchers results mirror the GMT European date correlations indicating that the GMT was on the right track for linking the Long Count and European calendars.
Events recorded in various Maya locations "can now be harmonized with greater assurance to other environmental, climatic and archaeological datasets from this and adjacent regions and suggest that climate change played an important role in the development and demise of this complex civilization," the researchers wrote.
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Other Penn State researchers on this project were Brendan J. Culleton, post doctoral fellow in anthropology; Soumaya Belmecheri, research associate, meteorology; Heather V. Graham, graduate student in geosciences; Katherine H. Freeman, professor of geosciences; and Lee Newsom, associate professor of anthropology.Other researchers were Irka Hajdas and Gerald H. Haug, Swiss Federal Institute of Technology; Simon Martin, University of Pennsylvania Museum; Hector Neff, California State University Long Beach; Jaime Awe, Institute of Archaeology, Belize; David L. Lentz, University of Cincinnati; Flavio S. Anselmetti, University of Bern; Mark Robinson, Louisiana State University; Norbert Marwan, Potsdam Institute for Climate Impact Research, Germany; John Southon, University of California Irvine; and David A. Hodell, University of Cambridge, UK.
The National Science Foundation
and the German Science Foundation supported this work.
http://www.eurekalert.org/pub_releases/2013-04/ps-mlc041113.php
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