|
|
And here I thought this was Europe's biggest mushroom... |
Posted on 09/28/2004 4:53:07 AM PDT by alnitak
Swiss scientists have found what they say may be Europe's biggest mushroom - covering an area about the size of 35 football pitches.
The fungus was discovered in a national park near the eastern town of Ofenpass, said the Federal Institute for Forest, Snow and Countryside Research (WSL).
Spanning 35 hectares (86 acres), the mostly underground fungus is believed to be 1,000 years old, the WSL added.
The Honey Mushroom (Armillaria ostoyae) is edible, but it can kill trees.
"The majority of the fungus is an underground network that looks a bit like shoelaces," WSL's spokeswoman Muriel Bendel said.
"The surface mushrooms look like the normal type you would pick, and are brown to yellow," the spokeswoman added.
Although harmless to humans, certain species of the vast underground organism can colonise trees, gradually strangling them, scientists say.
The fungus is only visible in autumn, when its mushrooms break through the earth and grow around the roots of trees, the WSL said.
The Swiss fungus is considerably smaller than another Honey Mushroom growing in the US.
Found in the Malheur national forest in Oregon, that fungus covers 890 hectares (2,200 acres) - making it the largest living organism ever discovered.
http://news.bbc.co.uk/1/hi/sci/tech/869808.stm
Researchers in the US have found what is probably the largest living organism on Earth.
It is a fungus that is growing through the earth and roots of trees in the Malheur National Forest in the Blue Mountains of eastern Oregon.
Scientists say it covers 890 hectares (2,200 acres) of land - an area equivalent to about 1,220 football pitches.
The fungus is called Armillaria ostoyae, but is more popularly known as the honey mushroom. This particular specimen is calculated to be about 2,400 years old, although it could be two to three times this age.
"This fungus lives in a below-ground habitat, spreading very slowly outward from tree to tree along roots or by growth through the soil using special shoestring-like structures called rhizomorphs," said Dr Catherine Parks, from the US Department of Agriculture Forest Service's Pacific Northwest Research Station.
"The fungus is visible in the clusters of golden-coloured mushrooms occasionally seen in the fall on the forest floor that represent just the tip of the iceberg in regard to its true size and impact upon the forest."
Culture studies
The fungus will attack the roots of a range of tree species. When foresters cut into an infected tree they find spreading white filaments, mycelia, which draw water and carbohydrates from the tree to feed the fungus.
This interferes with the tree's own absorption of water and nutrients and eventually leads to death.
Until now, the largest known organism was another Armillaria ostoyae found infecting ponderosa pine in eastern Washington State in 1992. It covered 600 hectares (1,500 acres) near Mount Adams.
Co-researcher Dr Tina Dreisbach said lab studies had shown the fungus to be a single individual.
"We took hundreds of samples and compared them to each other in the culture plate," she told the BBC.
"If they grow together in the culture plate they are determined to be the same individual; if they form a gap between each other or ignore each other, they are determined to be different individuals. And we had hundreds of these pairings that showed this was indeed one huge individual."
Nutrient recycling
The fungus is important to forest ecosystem processes. By killing trees, it opens up gaps in the forest that allow different species to move in.
"The fungus encourages nutrient recycling, so if a tree dies it goes back into the soil and provides nutrients for the trees that come up in its place," Dr Dreisbach said.
"It also provides habitats for animals. For example, dead trees that are still standing will rot out in the middle and animals such as woodpeckers can come and make their homes there."
The huge size of this fungus may be related to the dry climate in eastern Oregon, Dr Dreisbach said. Spores have a hard time establishing new organisms, making room for the old-timers to spread.
To minimise tree mortality near the fungus, forest managers looking to protect their timber production will plant less susceptible tree species such as western larch and ponderosa pine, and harvest susceptible hosts such as Douglas fir and true fir during thinning.
Ah...the fungus among us! :)
Stein-piltzen bump.
Fungus... The ultimate socialist organism!
It grows underground, popping up in various places. It sucks the life out of individual organisms on its land. What it touches, eventually dies, is already dead, and was fine before the fungus moved in.
Can we fry this baby?
Was this an X-File?
|
|
And here I thought this was Europe's biggest mushroom... |
He he!
DU.com members are swarming to the mushroom as we speak to pay homage to the great 'shroom of honey and hope to get a buzz trip from a mere wiff.
Holy shitake!
If you would like more information about what’s happening in Oregon, please FReepmail me. Please send me your name by FReepmail if you want to be on this list.
Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.
