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NORTHERN
BOGS MAY HAVE HELPED KICK-START PAST GLOBAL WARMING But
the new information in no way lets human sources of
greenhouse gases off the hook for the present round of global warming,
warn the
team of researchers whose findings appear in the Oct. 13 issue of
Science. "If
anything, our findings show just how sensitive the
planet's environment is to change and just how complex the results of
these
changes may be," said Glen M. MacDonald, the lead author of the study
and
a UCLA climate change scholar. As
the incipient bogs were strong producers of methane, the
findings help solve a long-standing mystery about the source of a
massive
infusion of atmospheric methane that helped raise the Earth's surface
temperature following the ice age. "Scientists
have long known that the northern bogs
produce methane, but until now they were generally dismissed as the
source of
this change at the close of the last ice age because they were thought
to have
formed too slowly and too late to be a factor," said Laurence C. Smith,
a
UCLA professor of geography and study coauthor. "The initial
development
of the huge complex of northern bogs that now cover 1.54 million square
miles
occurred earlier than previously thought." With
funding from the National Science Foundation,
MacDonald, Smith and four other researchers cored 84 peat bogs in They
then compared the formation dates for these 1,516 bogs
with high-resolution ice core records of the Earth's atmosphere and
temperature
from two locations: Dome C, a half-mile ice core from Peat
bogs sequester vast amounts of carbon by preventing
plant material from decaying aerobically -- that is, with oxygen.
Today, these
peatlands are thought to hold about one-third of globe's store of
sequestered
soil carbon. But,
in addition to tying up carbon, the bogs release
methane gas as a byproduct of plant decomposition that takes place
without
oxygen. Like carbon dioxide, methane is a greenhouse gas. But, molecule
for
molecule, it is said to be up to 23 times more potent as a greenhouse
gas than
carbon dioxide. So while peatlands do sequester carbon, their methane
emissions
can offset any potential drop in greenhouse gases. Yet, the rate of
emissions
is not steady. "Newly
formed peatlands are often typified by systems
dominated by sedge plants -- systems that tend to produce a large
amount of
methane," said Dave W. Beilman, a UCLA post-doctoral researcher and
study
coauthor. "But over time, peat moss-dominated systems develop, and they
emit less of the gas." The
UCLA-Russian Academy of Sciences team found no peatland
dates earlier than about 16,500 years ago, suggesting that no large
northern
peatland complex existed before that time. At that time, methane levels
hovered
around 360 parts per billion by volume and the Earth was still in a
deep
freeze. But as surface temperatures and atmospheric methane levels
rose,
northern bogs appeared in lockstep, the team found. Over
the course of the next 2,500 years, atmospheric methane
levels doubled and temperatures in central Between
8,000 to 12,000 years ago, the area covered by
peatlands increased dramatically and methane levels rose to 750 parts
per
billion by volume -- a level they would not reach again until the
Industrial
Revolution. Temperatures over Greenland likewise jumped an additional 7
degrees
Fahrenheit, reflecting a period of warming which in turn thawed more
ice,
particularly in In
the past, scientists have attributed the
8,000-to-12,000-year-old methane release to wetlands in the tropics or
liquefied deposits of very cold methane buried deep in the ocean. What
-- if
any -- part was played by tropical wetlands is still unclear, but the
role of
ocean deposits has been disputed by two recent studies. "It
is now clear that the northern peatlands have to be
considered a major part of this prolonged early rise in methane," said
MacDonald, who is chair of the UCLA Geography Department and a
professor in the
UCLA Department of Ecology and Evolutionary Biology. In
addition to pinpointing a new source of methane that
helped end the ice age, the team's work has established a much earlier
date for
the formation of these bogs. Until a related discovery announced two
years ago
by the same researchers, scientists had thought that the northern
peatlands did
not start forming until 8,000 years ago. But the new research suggests
that by
that time, 50 percent of today's northern peatlands were already
formed. Over
the past 8,000 years, the rate of bog formation has
steadily declined, the new research shows. Meanwhile, starting 6,000
years ago
methane levels began to steadily increase before jumping dramatically
by
between 2.5 and 3.0 times following the start of the Industrial
Revolution
about 200 years ago. Some researchers have attributed the latter
increase to
human activities, including early rice cultivation, cattle
domestication and
biomass burning. Other researchers have suggested the increased growth
of
northern peatlands is responsible. The
human role in the increase 6,000 years ago remains
controversial, but major increased expansion of northern peatlands is
probably
not the culprit, MacDonald said. "The
rate of development of these peatlands has been
slowing down and they have been maturing into low-methane producing
moss bogs,
so they don't seem to be responsible for the steady growth of
atmospheric
methane that began 6,000 years ago," MacDonald said. "The source of
that methane -- human or otherwise -- remains an important question."
This text
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