SETI bioastro: FW: Changes In Sun's Intensity Tied To Recurrent Droughts In Maya Region

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From: Larry Klaes (larry.klaes@incent.com)
Date: Fri May 18 2001 - 09:36:55 PDT


-----Original Message-----
From: History of Astronomy Discussion Group
[mailto:HASTRO-L@WVNVM.WVNET.EDU]On Behalf Of Ron Baalke
Sent: Thursday, May 17, 2001 7:48 PM
To: HASTRO-L@WVNVM.WVNET.EDU
Subject: Changes In Sun's Intensity Tied To Recurrent Droughts In Maya
Region

News & Public Affairs
University of Florida

Contact Information:
Mark Brenner, (352) 392-2231, brenner@ufl.edu

Writer: Aaron Hoover, ahoover@ufl.edu

Sources: David Hodell, (352) 219-8873, dhodell@geology.ufl.edu

May 17, 2001

CHANGES IN SUN'S INTENSITY TIED TO RECURRENT DROUGHTS IN MAYA REGION

GAINESVILLE, Fla. -- The Maya were talented astronomers, religiously intense
in their observations of the sun, moon and planets. Now, new research shows
something in the heavens may have influenced their culture and ultimately
helped bring about their demise.

In an article set to appear in Friday's issue of the journal Science, a team
of researchers led by a University of Florida geologist reports finding that
the Yucatan Peninsula, seat of the ancient Maya civilization, was buffeted
by recurrent droughts. More importantly, the research shows, the droughts --
one of which is thought to have contributed to the collapse of the Maya
civilization -- appear to have been caused by a cyclical brightening of the
sun.

"It looks like changes in the sun's energy output are having a direct effect
on the climate of the Yucatan and causing the recurrence of drought, which
is in turn influencing the Maya evolution," said David Hodell, a UF
professor of geology and the paper's lead author.

In 1995, Hodell and two colleagues at UF published results in the journal
Nature suggesting that the ninth-century collapse of the Maya civilization
may have been influenced by a severe drought that lasted for more than 150
years. The paper, co-authored by Mark Brenner, a UF assistant professor of
geology and director of UF's Land Use and Environmental Change Institute,
and Jason Curtis, a UF geology researcher, was based on analysis of a
sediment "core" from Lake Chichancanab on the north central Yucatan
Peninsula in Mexico.

Cores are samples of lake sediment retrieved by driving a hollow tube into
the lake bottom. The sediments are deposited layer by layer, like a wedding
cake, with the oldest layer at the bottom. Such cores provide a timeline
that allows researchers to obtain a continuous record of changes in climate,
vegetation and land use.

For the latest research, Hodell, Brenner and Curtis returned to the lake
and collected a new series of cores. The researchers discovered layers of
calcium sulfate, or gypsum, concentrated at certain levels in the cores.
Lake Chichancanab's water is nearly saturated with gypsum. During dry
periods, lake water evaporates and the gypsum falls to the lake bottom.
The layers therefore represent drought episodes. The researchers found
the recurrence of the deposits is remarkably cyclical, occurring every
208 years, although they varied in intensity.

The 208-year cycle caught the researchers' attention because it is nearly
identical to a known 206-year cycle in solar intensity, Hodell said. As
part of that cycle, the sun is most intense every 206 years, something
that can be tracked through measuring the production of certain
radioactive substances such as carbon-14. The researchers found the
drought episodes occurred during the most intense part of the sun's cycle.

Not only that, the researchers found the droughts occurred at times when
archeological evidence reflects downturns in the Maya culture, including
the 900 A.D. collapse. Such evidence includes abandonment of cities or
slowing of building and carving activity.

As Hodell said, the energy received by the Earth at the peak of the solar
cycle increases less than one-tenth of 1 percent, so it's likely that
some mechanism in the climate is amplifying the impact in the Yucatan.

Archaeologists know the Maya were capable of precisely measuring the
movements of the sun, moon and planets, including Venus. Hodell said he
is unaware, however, of any evidence the Maya knew about the bicentenary
cycle that ultimately may have played a role in their downfall. "It's
ironic that a culture so obsessed with keeping track of celestial
movements may have met their demise because of a 206-year cycle," he said.

The cycle continues to the present, which happens to fall into about the
middle of the 206-year period, Hodell said. Even a severe drought today,
however, isn't likely to have the same impact on the culture as in ancient
times. Brenner noted North Korea currently is suffering an extreme drought,
but the country has the benefit of international aid.

"Nobody stepped in to help the Maya out," he said, "and as conditions
worsened, it probably created a lot of stress among various Maya cities
competing for resources."

Thomas Guilderson, of the Lawrence Livermore National Laboratory, assisted
the UF scientists in the research, which was funded by the National
Science Foundation Paleoclimate Program. The cores were collected for a
BBC program on climate and Maya culture collapse.


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