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Tighter Timeline menegaskan vulkanik kuno selaras dengan
kepunahan dinosaurus '
Sebuah geologi
timeline definitif menunjukkan bahwa serangkaian ledakan vulkanik besar 66 juta
tahun yang lalu memainkan peran dalam peristiwa kepunahan yang diklaim
untuk dinosaurus non-unggas /earths non
avian dinosaurs , dan menantang teori dominan tentang dampak meteorit adalah satu-satunya penyebab
kepunahan......read more
...........................
New, tighter
timeline confirms ancient volcanism aligned with dinosaurs' extinction
Date:
December 18, 2014
Source:
Princeton University
Summary:
A definitive
geological timeline shows that a series of massive volcanic explosions 66
million years ago played a role in the extinction event that claimed Earth's
non-avian dinosaurs, and challenges the dominant theory that a meteorite impact
was the sole cause of the extinction.
,,,,,,,,,,,,,,
A definitive geological
timeline shows that a series of massive volcanic explosions 66 million years
ago spewed enormous amounts of climate-altering gases into the atmosphere
immediately before and during the extinction event that claimed Earth's
non-avian dinosaurs, according to new research from Princeton University.
A primeval volcanic range in western India known as the Deccan Traps, which
were once three times larger than France, began its main phase of eruptions
roughly 250,000 years before the Cretaceous-Paleogene, or K-Pg, extinction
event, the researchers report in the journal Science. For the next
750,000 years, the volcanoes unleashed more than 1.1 million cubic kilometers
(264,000 cubic miles) of lava. The main phase of eruptions comprised about
80-90 percent of the total volume of the Deccan Traps' lava flow and followed a
substantially weaker first phase that began about 1 million years earlier.
The results support the idea that the Deccan Traps played a role in the
K-Pg extinction, and challenge the dominant theory that a meteorite impact near
present-day Chicxulub, Mexico, was the sole cause of the extinction. The
researchers suggest that the Deccan Traps eruptions and the Chicxulub impact
need to be considered together when studying and modeling the K-Pg extinction
event.
The Deccan Traps' part in the K-Pg extinction is consistent with the rest
of Earth history, explained lead author Blair Schoene, a Princeton assistant
professor of geosciences who specializes in geochronology. Four of the five
largest extinction events in the last 500 million years coincided with large
volcanic eruptions similar to the Deccan Traps. The K-Pg extinction is the only
one that coincides with an asteroid impact, he said.
"The precedent is there in Earth history that significant climate
change and biotic turnover can result from massive volcanic eruptions, and
therefore the effect of the Deccan Traps on late-Cretaceous ecosystems should
be considered," Schoene said.
The researchers used a precise rock-dating technique to narrow
significantly the timeline for the start of the main eruption, which until now
was only known to have occurred within 1 million years of the K-Pg extinction,
Schoene said. The Princeton group will return to India in January to collect
more samples with the purpose of further constraining eruption rates during the
750,000-year volcanic episode.
Schoene and his co-authors gauged the age of petrified lava flows known as
basalt by comparing the existing ratio of uranium to lead given the known rate
at which uranium decays over time. The uranium and lead were found in tiny
grains -- less than a half-millimeter in size -- of the mineral zircon. Zircon
is widely considered Earth's best "time capsule" because it contains
a lot of uranium and no lead when it crystallizes, but it is scarce in basalts
that cooled quickly. The researchers took the unusual approach of looking for
zircon in volcanic ash that had been trapped between lava flows, as well as
within thick basalt flows where lava would have cooled more slowly.
The zircon dated from these layers showed that 80-90 percent of the Deccan
Traps eruptions occurred in less than a million years, and began very shortly
-- in geological terms -- before the K-Pg extinction. To produce useful models
for events such as the K-Pg extinction, scientists want to know the sequence of
events to within tens of thousands of years or better, not millions, Schoene
said. Margins of millions of years are akin to "a history book with events
that have no dates and are not written in chronological order," he said.
"We need to know which events happened first and how long before other
events, such as when did the Deccan eruptions happen in relation to the K-Pg
extinction," Schoene said. "We're now able to place a higher
resolution timeframe on these eruptions and are one step closer to finding out
what the individual effects of the Deccan Traps eruptions were relative to the
Chicxulub meteorite."
Vincent Courtillot, a geophysicist and professor at Paris University
Diderot, said that the paper is important and "provides a significant
improvement on the absolute dating of the Deccan Traps." Courtillot, who
is familiar with the Princeton work but had no role in it, led a team that
reported in the Journal of Geophysical Research in 2009 that Deccan volcanism
occurred in three phases, the second and largest of which coincides with the
K-Pg mass extinction. Numerous other papers from his research groups are
considered essential to the development of the Deccan Traps hypothesis. (The
Princeton researchers also plan to test the three-phases hypothesis, Schoene
said. Their data already suggests that the second and third phase might be a
single period of eruptions bridged by smaller, "pulse" eruptions, he
said.)
The latest work builds on the long-time work by co-author Gerta Keller, a
Princeton professor of geosciences, to establish the Deccan Traps as a main
cause of the K-Pg extinction. Virginia Tech geologist Dewey McLean first
championed the theory 30 years ago and Keller has since become a prominent
voice among a large group of scientists who advocate the idea. In 2011, Keller
published two papers that together proposed a one-two punch of Deccan volcanism
and meteorite strikes that ended life for more than half of Earth's plants and
animals.
Existing models of the environmental effects of the Deccan eruptions used
timelines two to three times longer than what the researchers found, which
underestimated the eruptions' ecological fallout, Keller explained. The amount
of carbon dioxide and sulfur dioxide the volcanoes poured out would have
produced, respectively, a long-term warming and short-term cooling of the
oceans and land, and resulted in highly acidic bodies of water, she said.
Because these gases dissipate somewhat quickly, however, a timeline of
millions of years understates the volcanoes' environmental repercussions, while
a timeframe of hundreds of thousands of years -- particularly if the eruptions
never truly stopped -- provides a stronger correlation. The new work confirms
past work by placing the largest Deccan eruptions nearer the K-Pg extinction,
but shows a much shorter time frame of just 250,000 years, Keller said.
"These results have significantly strengthened the case for volcanism
as the primary cause for the mass extinction, as well as for the observed rapid
climate changes and ocean acidification," Keller said.
"The Deccan Traps mass extinction hypothesis has already enjoyed wide
acceptance based on our earlier work and a number of studies have independently
confirmed the global effects of Deccan volcanism just prior to the mass
extinction," she said. "The current results will go a long way to
strengthen the earlier results as well as further challenge the dominance of
the Chicxulub hypothesis."
Story Source:
The above story is based on materials provided by Princeton University. The original article was written by
Morgan Kelly. Note: Materials may be edited for content and length.
Journal Reference:
1. B. Schoene, K. M. Samperton, M. P. Eddy,
G. Keller, T. Adatte, S. A. Bowring, S. F. R. Khadri, B. Gertsch. U-Pb
geochronology of the Deccan Traps and relation to the end-Cretaceous mass
extinction. Science, 2014; DOI:10.1126/science.aaa0118
