High temperatures and possibly more atmospheric carbon dioxide caused forests to extend much closer to the poles and grow almost twice as fast as they do today.
The findings have implications for understanding the long-term effects of global warming.
Scientists at Royal Holloway, University of London, plotted the maps after creating a database of more than two thousand fossilised forest sites from the Cretaceous period, when dinosaurs were at their peak.
"Our research shows that weird monkey puzzle forests covered most of the planet, especially in the steamy tropics. At mid-latitudes there were dry cypress woodlands, and near the North Pole it was mostly pines," said Emiliano Peralta-Medina, who led the study.
At that time the humid tropics extended over a wider area than now, and temperate climates – like the UK's – reached much closer to the poles, which had more tree cover than ice.
It seems though, that just before the dinosaurs went extinct the forests changed as angiosperms – flowering plants – made an appearance.
"Flowering trees similar to present-day magnolias took off, bringing color and scent to the world for the first time," says Peralta-Medina.
The angiosperms gradually took over habitats previously dominated by the conifers, until by the end of the Cretaceous they are the most common tree species.
As well as mapping the fossil forests, the team gathered measurements of tree rings – which indicate annual growth rate – from samples of fossil trees and from earlier studies.
They found that Cretaceous trees grew twice as fast as their modern counterparts, particularly nearer to the poles.
"Some fossil trees from Antarctica had rings more than two millimetres wide on average. Such a rate of growth is usually only seen in trees growing in temperate climates. It tells us that, during the age of the dinosaurs, polar regions had a climate similar to Britain today," explains co-author Dr. Howard Falcon-Lang.
The reason for this baking hot climate seems to have been extremely high levels of carbon dioxide in the atmosphere - at least 1000 parts per million (ppm) compared to 393 ppm today.
"If carbon dioxide concentrations continue to rise unabated, we will hit Cretaceous levels in less than 250 years," explains Falcon-Lang. "If that happens, we could see forests return to Antarctica."
"It's unlikely that dinosaurs will be making a comeback," he added.
The findings are published today in Geology.
More information: Peralta-Medina, E, Falcon-Lang, HJ, 2012. Cretaceous forest composition and productivity inferred from a global fossil wood database. Geology 40(3) doi: 10.1130/G32733.1
Provided by PlanetEarth Online (news : web)
This story is republished courtesy of Planet Earth online, a free, companion website to the award-winning magazine Planet Earth published and funded by the Natural Environment Research Council (NERC).
Thursday, March 1, 2012
Dinosaur forests mapped
From PhyOrg: Dinosaur forests mapped
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