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/ Technology News / 2010 / February 2010 / February 9, 2010 |
Flowering plants may be older than previously thought
Kiwi woman runs over husband - twice
Oz Indian community urged to remain calm after death of Gurshan Singh
Technology to control turbulence in water pipes could also keep arteries clear
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Soon, designer nanomaterials on-demand
A team of scientists has shown how it is possible to make designer nanomaterials on-demand. ANI
Now, cat fur to help police nab criminals
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In a new research, scientists have solved the mystery of how tropical grasses originated around 30 to 40 million years ago.
Washington, Feb 9 : In a new research, scientists have solved the mystery of how tropical grasses originated around 30 to 40 million years ago.
The research was carried out by Edwards and Stephen Smith, a postdoctoral researcher at the National Evolutionary Synthesis Center in North Carolina.
They found that rainfall - not temperature - was the primary trigger for C4 grasses' evolutionary beginnings.
Moreover, the pair said that C4 grasses were already in tropical forests before moving out of the shade of the taller trees and into drier, sunnier environments.
To arrive at their findings, the biologists compiled a database of roughly 1.1 million specimens of grasses collected by botanists worldwide.
They mapped the locations for these species and then added global precipitation and temperature charts.
"By combining all these data, we could get individual climate profiles for each grass species," Edwards said.
The pair then went a step further.
They whittled the list to approximately 1,230 species for which the plants' genes had been sequenced and from there built a phylogenetic profile for the collection, the most comprehensive evolutionary tree to date for grasses.
The reason for building the phylogeny, Edwards said, was to tease out the junctures at which C3 and C4 grasses diverged over time.
The scientists zeroed in on 21 such "transition nodes" and examined the climatic conditions during those branching periods.
They found that in 18 of the 21 instances, precipitation, rather than temperature, had changed. "That was the clincher," Edwards said.
Looking more closely at the differences in rainfall, Edwards and Smith noticed the shifts in the amount of rainfall between C3 and C4 grasses in the tropics dictated in sharp relief how the different lineages evolved.
Generally speaking, C3 grasses flourished in areas that received, on average, 1,800 millimeters (71 inches) of rain annually.
C4 grasses took root in areas that received, on average, 1,200 millimeters (47 inches) of rain annually.
"When you start looking at climate profiles, these closely related C3 and C4 lineages are straddling this transition zone between tropical forests and tropical woodlands and savanna," said Edwards.
So, did C4 grasses evolve in the tropical forest and then move out from the canopy or did they move out first and then adopt a different photosynthetic pathway?
According to Edwards, the pathway may have begun to form with C3 grasses on the forest margins, where those plants would have been subjected to greater fluctuations in precipitation, sunlight, temperature and other environmental stresses, spurring the photosynthetic innovation.
ANI
