ADVERTISEMENT

Fossilized, 'Pompeii' Forest Discovered Under Ash

A preserved forest has given researchers the unusual opportunity to examine an ecosystem essentially frozen in place, including plant communities and the climate



Courtesy of Jun Wang / Painting: Ren Yugao

About 300 million years ago, volcanic ash buried a tropical forest located in what is now Inner Mongolia, much like it did the ancient Roman city of Pompeii.

This preserved forest has given researchers the unusual opportunity to examine an ecosystem essentially frozen in place by a natural disaster, giving them a detailed look at ancient plant communities and a glimpse at the ancient climate.

This ancient, tropical forest created peat, or moist, acidic, decaying plant matter. Over geologic time, the peat deposits were subjected to high pressure and became coal, which is found in the area.   

The volcano appears to have left a layer of ash that was originally 39 inches (100 centimeters) thick.

"This ash-fall buried and killed the plants, broke off twigs and leaves, toppled trees, and preserved the forest remains in place within the ash layer," the authors, led by Jun Wang of the Nanjing Institute of Geology and Palaeontology in China, wrote in an article published Monday (Feb. 20) in Proceedings of the National Academy of Sciences.  

The ash layer dated to about 298 million years ago, early in the Permian Period, when the supercontinent Pangea was coming together.

The researchers examined three sites with a total area of 10,764 square feet (1,000 square meters) near Wuda, China. At these sites, they counted and mapped the fossilized plants. The tallest trees that formed the upper canopy—species in the genera Sigillaria and Cordaites—grew to 82 feet (25 meters) or more. Lower down, tree ferns formed another canopy. A group of now-extinct, spore-producing trees called Noeggerathiales and palm-like cycads grew below these, they found. [Image Gallery: A Petrified Forest]

"It's marvelously preserved," University of Pennsylvania paleobotanist and study researcher Hermann Pfefferkorn said in a press release issued by the university. "We can stand there and find a branch with the leaves attached, and then we find the next branch and the next branch and the next branch. And then we find the stump from the same tree. That's really exciting."

Copyright 2012 LiveScience, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

Share this Article:

Comments

You must sign in or register as a ScientificAmerican.com member to submit a comment.
Scientific American Holiday Sale

Black Friday/Cyber Monday Blow-Out Sale

Enter code:
HOLIDAY 2014
at checkout

Get 20% off now! >

X

Email this Article

X