China’s first emperor banned Buddhism, claims expert

May 12, 2009 By Leave a Comment

New Delhi, May 12 (ANI): A researcher has said that the first emperor of a united China could go down in history not only for the Great Wall or the terra cotta army of guards and horses, but also for his attempt to crush Buddhism by banning it.

“China’s first and most influential history book, the Historical Records, stated clearly that Emperor Qin Shihuang (259 BC-210 BC) strictly banned Buddhism and Buddhist temples,” said Han Wei, a noted researcher with Shaanxi Provincial Institute of Archeology.

According to the Historical Records, the ban went alongside the emperor’s major military strategies including the deportation of the invading Huns, and applied far beyond the ancient capital Xianyang in today’s Xi’an to cover the whole country.

Though the book, written between 104 B.C. to 91 B.C., provided no evidence of temples destroyed or monks exiled, Han said he believed the ban had been very effective.

“Buddhism never appeared again in historical documents until 2 B.C.,” Han said.

Emperor Qin Shihuang’s ban on Buddhism indicated the religion was already popular in China’s interior regions in his reign, said Han, whose thesis on the subject was published rercently in Xi’an.

Han recommended that textbooks be changed to reflect his discovery.

Historians generally believed Buddhism was introduced into China around 67 A.D. in Han Dynasty that succeeded Qin.

But, Han held it must have spread to China from today’s Xinjiang Ugyur Autonomous Region and central Asian countries, along the ancient Silk Road, more than two centuries earlier.

Noted Silk Road archaeologist Wang Jianxin said that Han’s research finding, based on linguistic, historical as well as archeological studies, sounded “reasonable”.

“Another scholar raised the same hypothesis in the early 1900s,but couldn’t provide sufficient evidence,” Wang said. (ANI)

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Gullies on Mars show water ran on Red Planet as early as 1.25 mln yrs ago

March 4, 2009 By Leave a Comment

Washington, March 3 (ANI): Planetary geologists at Brown University, US, have found a gully fan system on Mars that formed about 1.25 million years ago, which shows tantalizing signs of recent water activity on the Red Planet.

The fan offers compelling evidence that it was formed by melt water that originated in nearby snow and ice deposits and may stand as the most recent period when water flowed on the planet.

Gullies are known to be young surface features on Mars. But, scientists studying the planet have struggled with locating gullies they can conclusively date.

In a research paper that appears on the cover of the March issue of Geology, the Brown geologists were able to date the gully system and hypothesize what water was doing there.

The gully system is located on the inside of a crater in Promethei Terra, an area of cratered highlands in the southern mid-latitudes.

The eastern and western channels of the gully each run less than a kilometer from their alcove sources to the fan deposit.

Viewed from afar, the fan appears as one entity several hundred meters wide. But, by zooming in with the HiRISE camera aboard the Mars Reconnaissance Orbiter, Schon was able to distinguish four individual lobes in the fan, and determine that each lobe was deposited separately.

“The gully system shows four intervals where water-borne sediments were carried down the steep slopes of nearby alcoves and deposited in alluvial fans,” said Samuel Schon, a Brown graduate student and the paper’s lead author.

However, the finding of a gully system, even an isolated one, that supported running water as recently as 1.25 million years ago greatly extends the time that water may have been active on Mars.

It also adds to evidence of a recent ice age on the planet when polar ice is believed to have been transported towards the equator and settled in mid-latitude deposits, according to James Head III, professor of geological sciences at Brown University, who first approximated the span of the Martian ice age in a Nature paper in 2003.

“We think there was recent water on Mars,” said Head, who with Brown postdoctoral researcher Caleb Fassett is a contributing author on the paper. “This is a big step in the direction to proving that,” he added.

The team determined that ice and snow deposits formed in the alcoves at a time when Mars had a high obliquity (its most recent ice age) and ice was accumulating in the mid-latitude regions. (ANI)

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Scientists find evidence of ancient hot springs on Mars

February 13, 2009 By Leave a Comment

Washington, Feb 13 (ANI): A new research has reported data from the Mars Reconnaissance Orbiter (MRO) that suggests the discovery of ancient hot springs in the Vernal Crater, sites where life forms may have evolved on Mars.

Hot springs have great astrobiological significance, as the closest relatives of many of the most ancient organisms on Earth can thrive in and around hydrothermal springs.

If life forms have ever been present on Mars, hot spring deposits would be ideal locations to search for physical or chemical evidence of these organisms and could be target areas for future exploratory missions.

In the research paper entitled, “A Case for Ancient Springs in Arabia Terra, Mars,” Carlton C. Allen and Dorothy Z. Oehler, from the Astromaterials Research and Exploration Science Directorate at the NASA Johnson Space Center, Houston, Texas, propose that new image data from the High Resolution Imaging Science Experiment (HiRISE) on MRO depict structures in Vernal Crater that appear to have arisen as part of a major area of ancient spring activity.

The data suggest that the southern part of Vernal Crater has experienced episodes of water flow from underground to the surface and may be a site where Martian life could have developed.

“Hot spring deposits are key target areas for future Mars missions,” said Sherry L. Cady, Associate Professor in the Department of Geology at Portland State University.

“Such deposits on Earth preserve evidence of the fossilized remains of the microbial communities that inhabited the hot springs over a wide range of spatial scales,” Sherry added.

The potential to find key evidence indicative of life-biofabrics, microbial remains, chemical fossils in minerals-is high when sedimentary deposits form from hydrothermal fluids.
Hot spring fluids are typically laden with dissolved mineral ions that, when they precipitate out and create the hydrothermal deposit, enhance fossilization of all types of biosignatures,” said Sherry. (ANI)

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Water has played large role in shaping Martian landscape

February 7, 2009 By Leave a Comment

Washington, Feb 6 (ANI): In a new research, scientists have determined that geologic features in Martian craters suggest deposition and flow of water and ice, which is further evidence for the large role that water has likely played in shaping the landscape of the Red Planet.

The research was done by scientists at the Tucson-based Planetary Science Institute (PSI) in the US.

Their results provide strong evidence that multiple wet and/or icy climate cycles have shaped the topography of the planet’s large craters.

“Studying crater degradation in potentially ice-rich environments is vital to understanding the geology of craters and their surroundings, as well as for determining whether the ice comes from the atmosphere or from below the ground,” said Daniel Berman, a PSI associate research scientist and lead author of the research paper.

Berman, along with PSI Senior Scientist David Crown and PSI Research Scientist Leslie Bleamaster III, surveyed the geologic features in two sets of mid-latitude craters.

Each set included about 100 craters, with the first set in the Arabia Terra region of the northern hemisphere and the second set in an area east of Hellas basin in the southern hemisphere.

The researchers selected craters that are greater than 20 km (about 12.5 miles) in diameter that have been completely or nearly completely photographed by cameras on various spacecraft, including the Mars Odyssey THEMIS VIS camera, the Mars Global Surveyor Mars Orbiter Camera, and the Viking Orbiter cameras.

They looked specifically for the following erosional or depositional features, the number and sizes of those features, and how the features are oriented.

Berman found that lobate flows, gullies, and arcuate ridges on the crater walls between latitudes of 30 to 45 degrees face the pole in their hemisphere, whereas equator-facing orientations are more common than pole-facing ones at latitudes between 45 and 60 degrees.

In the southern study area, narrow channels generally had pole-facing orientations, whereas wider valleys generally have equator-facing orientations.

The features’ pole-facing or equator-facing orientations could result from uneven heating of the crater walls.

Ice on walls that get more sunlight would melt faster, causing more water to flow and form the gullies and other features.

Further evidence for flowing ice is found on the crater floors, Berman observed. He found that the floors of small craters slope away from the walls that exhibit erosional/depositional features toward the more pristine ones.

These slopes have inclines of about 0.5 to 3 degrees. This suggests that ice-rich materials flowed from one crater wall to the other. (ANI)

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Ancient asteroid may have created biggest known landslide on Mars

January 7, 2009 By Leave a Comment

Washington, Jan 7 (ANI): Scientists have said that an asteroid may have triggered a landslide on Mars billions of years ago, which is the size of the entire United States, and the largest known anywhere.

The finding could help solve the origin mystery of Mars’s Arabia Terra region, a vast, midlevel plateau between the planet’s smooth northern lowlands and rugged southern highlands.

According to a report in National Geographic News, estimated at about 1,000 miles (1,600 kilometers) wide, the giant asteroid is believed to have struck Mars’s northern hemisphere billions of years ago.

The cataclysm is thought to have given the planet its topographical split personality — smooth in the north, but bumpy down south.

The impact site became the smooth, low-lying Borealis Basin, about 6,000 miles (10,000 kilometers) across. The southern part of the planet became highlands—in places several miles higher than the basin.

The border of the two regions is sharply defined, except for the Arabia Terra zone. This odd middle ground is neither highlands nor basin.

Until recently, the reason for the region had been unknown.

Arabia Terra is a relic of the giant asteroid impact, according to geophysicist Jeff Andrews-Hanna, of the Colorado School of Mines.

This unusual midland was created when a U.S.-size portion of the highlands broke free and slid 180 miles (300 kilometers) northward, down into the southern rim of the Borealis Basin, Andrews-Hanna said.

In other words, three of Mars’s largest geographic features — the Borealis Basin, the highlands, and Arabia Terra — were formed “virtually instantaneously, in a single catastrophic collision,” the geophysicist said

According to Andrews-Hanna, the first clue that Arabia Terra was formed via landslide is that the relatively flat region has steep slopes at both its northern and southern edges, which is like a giant step.

Similar features occur in other large impact craters, many of which have bull’s-eye patterns—concentric circles or ellipses of steep ridges separated by gently sloping plateaus.

The similarity of Arabia Terra to these other craters indicates that it too might have been created by an impact.

Another clue is that, at Arabia Terra, the inner rim of the Borealis Basin doesn’t line up with its inner rim elsewhere on the planet.

Instead, the rim juts northward by about 300 kilometers, as if a landslide had smudged the clean break seen in areas to the west and east. (ANI)

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