[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index][Subject Index][Author Index]

GLOBAL WILDFIRES 65 MILLION YEARS AGO



The latest Impact Info from NASA and check out the movie!
    --Patti

http://ali.opi.arizona.edu/cgi-bin/WebObjects/UANews.woa/1/wa/SRStoryDetails
?ArticleID=5767&wosid=G1Qx2jcSGUlM5fXNis6GWw

EARTH SUFFERED PULSES OF MISERY IN GLOBAL WILDFIRES 65 MILLION YEARS AGO
>From Lori Stiles, UA News Services, 520-621-1877
September 3, 2002

Global wildfires ignited by high-velocity debris from the catastrophic
impact of an asteroid or comet with Earth 65 million years ago spread over
southern North America, the Indian subcontinent and most of the equatorial
part of the world one to three days after impact, according to a new study.

But northern Asia, Europe, Antarctica and possibly much of Australia may
have been spared, David A. Kring of the University of Arizona and Daniel D.
Durda of the Southwest Research Institute report in the Journal of
Geophysical Research ­ Planets.

UA planetary scientist H. Jay Melosh in 1990 and others modeled global
wildfire scenarios from the horrific impact that is thought to have led to
one of the greatest mass extinctions in Earth history, including dinosaur
extinction. The impact that blasted the immense Chicxulub crater near
Yucatan, Mexico, marked the end of the Age of Reptiles, the Mesozoic, and
heralded the Age of Mammals, the Cenozoic.

"We've added more detail in re-evaluating the extent of the wildfires,"
Kring said. "Our new calculations show that the fires were not ignited in a
single pulse, but in multiple pulses at different times around the world. We
also explored how the trajectory of the impacting object, which is still
unknown, may affect the distribution of these fires."

Their more detailed modeling suggests pulses of misery for life on Earth
during days after impact. More than 75 percent of the planet's plant and
animal species did not survive to see the Cenozoic.

"The fires were generated after debris ejected from the crater was lofted
far above the Earth's atmosphere and then rained back down over a period of
about four days. Like countless trillions of meteors, the debris heated the
atmosphere and surface temperatures so intensely that ground vegetation
spontaneously ignited."

The collision was so energetic -- 10 billion times more energetic than the
nuclear bombs that flattened Hiroshima and Nagasaki in 1945 ­ that 12
percent of the impact debris was launched beyond Earth into the solar
system, Kring said.

About 25 percent of the debris rained back through the atmosphere within two
hours of impact. Fifty-five percent fell back to Earth within 8 hours of
impact, and 85 percent showered down within 72 hours of impact, according to
Kring's and Durda's calculations.

Both physics and Earth's rotation determined the global wildfire pattern.
High-energy debris would have concentrated both around the Chicxulub crater
in Mexico and its global antipode ­ which corresponded to India and the
Indian Ocean 65 million years ago. "The way to think of this is, the
material was launched around Earth and headed on a return trajectory to its
launch point," he explained.

"Then, because the Earth rotates, it turned beneath this returning plume of
debris, and the fires migrated to the west. That's what causes the wildfire
pattern."

Durda has turned the simulations into a movie that can be viewed at the
Lunar and Planetary Lab Space Imagery Center Web site,
http://www.lpl.Arizona.edu/SIC/news/chicxulub2.html

Kring and Durda noted not in this paper, but in an unrefereed abstract, that
post-impact wildfires generated as much carbon dioxide, and perhaps more
carbon dioxide, than limestone vaporized at the impact site. Wildfires
played at least as big a role as the limestone target site in disrupting the
carbon cycle and in greenhouse warming.

The team proposes to model other impact events using the code they developed
for these simulations.

------------------------------------------------------------------------
Contact Information

David A. Kring
520-621-2024 kring@lpl.arizona.edu

Daniel D. Durda
303-546-9670 durda@boulder.swri.edu

The Chicxulub wildfire movie is on the web at:,
http://www.lpl.arizona.edu/SIC/news/chicxulub2.html

------------------------------------------------------------------------


Patricia Kane-Vanni, Esq.
pkv1@erols.com  or  pkvanni@sas.upenn.edu
http://groups.msn.com/DinosaurandFossilDigs