Silicates relatively uncommon deep within the Earth, finds study

May 11, 2010 By Leave a Comment

Washington, May 11 (ANI): Using quantum mechanics, scientists have discovered that silicates, the most common minerals on Earth, are relatively uncommon deep within the planet.

Researchers, led by a team of physicists led by Ohio State University, have been able to simulate the behaviour of silica in a high-temperature, high-pressure form that is particularly difficult to study firsthand in the lab.

Silica makes up two-thirds of the Earth”s crust, and we use it to form products ranging from glass and ceramics to computer chips and fibre optic cables.

Ohio State doctoral student Kevin Driver, who led this project for his doctoral thesis, said: “Silica is all around us.

“But we still don”t understand everything about it. A better understanding of silica on a quantum-mechanical level would be useful to earth science, and potentially to industry as well.”

Silica takes many different forms at different temperatures and pressures — not all of which are easy to study, Driver pointed out.

He said: “As you might imagine, experiments performed at pressures near those of Earth”s core can be very challenging. By using highly accurate quantum mechanical simulations, we can offer reliable insight that goes beyond the scope of the laboratory.”

Over the past century, seismology and high-pressure laboratory experiments have revealed a great deal about the general structure and composition of the earth.

For example, such work has shown that the planet”s interior structure exists in three layers called the crust, mantle, and core.

The outer two layers – the mantle and the crust – are largely made up of silicates, minerals containing silicon and oxygen.

Still, the detailed structure and composition of the deepest parts of the mantle remain unclear.

These details are important for geodynamical modelling, which may one day predict complex geological processes such as earthquakes and volcanic eruptions.

Even the role that the simplest silicate – silica – plays in Earth”s mantle is not well understood.

Driver said: “Say you”re standing on a beach, looking out over the ocean. The sand under your feet is made of quartz, a form of silica containing one silicon atom surrounded by four oxygen atoms. But in millions of years, as the oceanic plate below becomes subducted and sinks beneath the Earth”s crust, the structure of the silica changes dramatically.”

Driver, his advisor John Wilkins, and their team used a quantum mechanical method to design computer algorithms that would simulate the silica structures.

When they did, they found that the behaviour of the dense, alpha-lead oxide form of silica did not match up with any global seismic signal detected in the lower mantle.

This result indicates that the lower mantle is relatively devoid of silica, except perhaps in localized areas where oceanic plates have subducted, Driver explained.

The physicists used a method called quantum Monte Carlo (QMC), which was developed during atomic bomb research in World War II.

To earn his doctorate, Driver worked to show that the method could be applied to studying minerals in the planet”s deep interior.

Wilkins said: “This work demonstrates both the superb contributions a single graduate student can make, and that the quantum Monte Carlo method can compute nearly every property of a mineral over a wide range of pressure and temperatures.”

He added that the study will “stimulate a broader use of quantum Monte Carlo worldwide to address vital problems.”

The study has appeared in the early online edition of the Proceedings of the National Academy of Sciences (PNAS). (ANI)

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Scientists find meteorite that came from innermost asteroid belt between Mars and Jupiter

September 19, 2009 By Leave a Comment

Washington, September 18 (ANI): In a very rare finding, scientists have discovered an unusual kind of meteorite in the Western Australian desert and have uncovered that it came from the innermost main asteroid belt between Mars and Jupiter.

Meteorites are the only surviving physical record of the formation of our Solar System.

However, information about where individual meteorites originated, and how they were moving around the Solar System prior to falling to Earth, is available for only a dozen of around 1100 documented meteorite falls over the past two hundred years.

According to Dr Phil Bland from the Department of Earth Science and Engineering at Imperial College London, the lead author of the study, “We are incredibly excited about our new finding. Meteorites are the most analysed rocks on Earth, but it’s really rare for us to be able to tell where they came from.”

The new meteorite, which is about the size of cricket ball, is the first to be retrieved since researchers from Imperial College London, Ondrejov Observatory in the Czech Republic, and the Western Australian Museum, set up a trial network of cameras in the Nullarbor Desert in Western Australia in 2006.

The researchers aim to use these cameras to find new meteorites, and work out where in the Solar System they came from, by tracking the fireballs that they form in the sky.

The new meteorite was found on the first day of searching using the new network, by the first search expedition, within 100m of the predicted site of the fall.

The meteorite appears to have been following an unusual orbit, or path around the Sun, prior to falling to Earth in July 2007, according to the researchers’ calculations.

The team believes that it started out as part of an asteroid in the innermost main asteroid belt between Mars and Jupiter.

It then gradually evolved into an orbit around the Sun that was very similar to Earth’s.

The new meteorite is also unusual because it is composed of a rare type of basaltic igneous rock.

According to the researchers, its composition, together with the data about where the meteorite comes from, fits with a recent theory about how the building blocks for the terrestrial planets were formed.

This theory suggests that the igneous parent asteroids for meteorites like today’s formed deep in the inner Solar System, before being scattered out into the main asteroid belt.

Asteroids are widely believed to be the building blocks for planets like the Earth, so the new finding provides another clue about the origins of the Solar System. (ANI)

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Scientists propose Antarctic location for ice sheet that went missing 34 mln yrs ago

August 26, 2009 By Leave a Comment

Washington, August 26 (ANI): A new research by scientists at UC (University of California) Santa Barbara indicates a possible Antarctic location for ice that seemed to be missing at a key point in climate history 34 million years ago.

“Using data from prior geological studies, we have constructed a model for the topography of West Antarctic bedrock at the time of the start of the global climate transition from warm ‘greenhouse’ earth to the current cool ‘icehouse’ earth some 34 million years ago,” explained Douglas S. Wilson, first author and an associate research geophysicist with UCSB’s Department of Earth Science and Marine Science Institute.

Wilson and his co-author, Bruce Luyendyk, a professor in the Department of Earth Science, discovered that, contrary to most current models for bedrock elevations of West Antarctica, the bedrock in the past was of much higher elevation and covered a much larger area than today.

Current models assume that an archipelago of large islands existed under the ice at the start of the climate transition, similar to today, but Wilson and Luyendyk found that does not fit their new model.

In fact, the authors state that the land area above sea level of West Antarctica was about 25 percent greater in the past.

The existing theory leaves West Antarctica in a minor role in terms of the ice accumulation beginning 34 million years ago.

Ice sheet growth on earth is believed to have developed on the higher and larger East Antarctic subcontinent while West Antarctica joined the process later around 14 million years ago.

“But a problem exists with leaving West Antarctica out of the early ice history,” said Wilson.

“From other evidence, it is believed that the amount of ice that grew on earth at the 34 million year climate transition was too large to be accounted for by formation on East Antarctica alone, the most obvious location for ice sheet growth. Another site is needed to host the extra missing ice,” he said.

The new study, by showing that West Antarctica had a higher elevation 34 million years ago than previously thought, reveals a possible site for the accumulation of the early ice that is unaccounted for.

“Preliminary climate modeling by researchers at Pennsylvania State University demonstrates that this new model of higher elevation West Antarctica bedrock topography can indeed host the missing ice,” said Luyendyk.

“Our results, therefore, have opened up a new paradigm for the history of the growth of the great global ice sheets. Both East and West Antarctica hosted the growing ice,” he added. (ANI)

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Ocean-drilling expedition cites new evidence related to origin and evolution of quakes

August 18, 2009 By Leave a Comment

Washington, August 18 (ANI): An ocean-drilling expedition in Japan has come across new evidence related to the origin and evolution of earthquakes.

The expedition is being conducted as part of the Nankai Trough Seismogenic Zone Experiment (NanTroSEIZE), which is long-term scientific ocean-drilling project conducted by the Integrated Ocean Drilling Program (IODP).

Since September 2007, rotating teams of scientists have spent months aboard Japan’s drilling vessel, CHIKYU, investigating the Nankai Trough, a seismogenic zone located beneath the ocean off the southwest coast of Japan.

Drilling operations, managed by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) through its Center for Deep Earth Exploration, have resulted in a collection of cored samples from the sea floor, which have provided scientists with deeper insights into the geologic past of the area.

This area is one of the most active earthquake zones on the planet. While being subducted, sediments are scraped off the oceanic plate and added to the overriding continental plate.

Due to the movement of the plates, these so-called accretionary wedges are exposed to enormous stress that form large faults.

The landward wedge in the Nankai Trough is completely intersected by such a prominent fault which extends laterally over more than 120 km.

Scientists refer to this structure as “the megasplay.”

Movements along such megasplay faults during large magnitude earthquakes generated at depth may rupture the ocean floor and generate tsunamis.

“Our knowledge of megasplay faults up till now has been based on seismic or modelling experiments accomplished over the last twenty years,” said Michael Strasser, a Post-Doc Fellow of the Center for Marine Environmental Sciences (MARUM) at University of Bremen.

“For the first time, with cored samples brought onto the CHIKYU, it has become possible to reconstruct the geological history of a fault in great detail,” he added.

With his associates, Dr. Strasser found that the fault in the Nankai Trough originated about two million years ago.

From the information recorded in the cores, the research team can draw conclusions on the mechanics of the accretionary wedge.

They also can infer in which geological time periods the fault was most active.

According to Strasser, after an initial period of high activity, the movement along the fault slowed down. Since about 1.55 million years ago, this fault has been reactivated, favoring ongoing megasplay slip along it.

“Ultimately, we hope to detect signals occurring just before an earthquake to get a better understanding of the processes leading to earthquakes and tsunamis,” Strasser explained. (ANI)

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Sea ice formed in the Arctic before it did in Antarctica

July 16, 2009 By Leave a Comment

Washington, July 16 (ANI): A new study has concluded that significant sea ice formation occurred in the Arctic earlier than previously thought, which suggests that sea ice formed in the Arctic before it did in Antarctica.

“The results are also especially exciting because they suggest that sea ice formed in the Arctic before it did in Antarctica, which goes against scientific expectation,” said scientific team member Dr Richard Pearce of the University of Southampton’s School of Ocean and Earth Science based at the National Oceanography Centre, Southampton (NOCS).

The international collaborative research team, led by Dr Catherine Stickley and Professor Nalan Koc of the University of Tromso and Norwegian Polar Insitute, analyzed oceanic sediment cores collected from the Lomonosov ridge in the central Arctic by Integrated Ocean Drilling Program Expedition 302 (“ACEX”).

Previous analyses of cores drilled in this region revealed ice-rafted debris dating back to the middle Eocene epoch, prompting suggestions that ice appeared in the Arctic about 46 million years ago.

But, records of ice-rafted debris do not differentiate sea ice from glacial (continental) ice, which is important because sea ice influences climate by directly affecting ocean-atmosphere exchanges, whereas land-based ice affects sea level and consequently ocean acidity.

Instead of focusing solely on ice-rafted debris, Stickley and her colleagues also garner information about ancient climate by analyzing fossilized remains of tiny single-celled plants called diatoms in the sediment cores.

Coincident with ice-rafted debris in the cores, the researchers found high abundances of delicately silicified diatoms belong to the genus Synedropsis.

“Weakly silicified diatoms are preserved only under exceptional circumstances, so to find fossilized Synedropsis species so well preserved and in such abundance is truly remarkable,” said team member Richard Pearce of NOCS.

Synedropsis species probably over-wintered within the sea ice and then bloomed there in the spring when there was enough sunlight.

They would have been released into stratified surface waters as the ice melted, rapidly sinking to the sea bottom as aggregates, leaving other diatom species to dominate summer production. And, indeed, these seasonal changes can be discerned in the sediment cores.

The researchers conclude from their analysis, which cover a two-million year period, that episodic sea ice formation in marginal shelf areas of the Arctic started around 47.5 million years ago, about a million years earlier than previous estimates based on ice-raft debris evidence only.

This appears to have been followed half a million years later by the onset of seasonal sea-ice formation in offshore areas of the central Arctic, and about 24 million years before major ice-sheet expansion in the region. (ANI)

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Glaciers cause quakes in Iceland

July 4, 2009 By Leave a Comment

Washington, July 4 (ANI): A new study has determined that glaciers are the reason behind seismic activity and earthquakes in Iceland.

The study was carried out by Kristin Jonsdottir, Roland Roberts, Veijo Pohjola, Bjorn Lund, Zaher Hossein Shomali, Ari Tryggvason, and Reynir Boovarsson from the Department of Earth Science, Uppsala University, Uppsala, Sweden.

In volcanic regions, repeating long-period (lp) earthquakes occur often and are sometimes thought to signal an imminent eruption.

Recently, however, some of these earthquake events have been found to be associated with ice movement rather than with volcanic activity.

To accurately assess volcanic hazards, scientists need to correctly identify the source of earthquake activity.

For their study, Jonsdottir and his colleagues analyzed climatic and seismic data from Katla volcano, Iceland.

Their study, covering more than 13,000 lp events since 2000, indicates that earthquake activity was seasonal and clearly correlated with climatic changes associated with increased ice movement.

They also note that the seismic activity has been continuous for years, with no sign of volcanic eruption.

They conclude that the lp events recorded in the region were caused by glacial movements, not volcanic activity, as previously thought.

Although the results are specific to the Katla volcano region, the researchers suggest that global warming could lead to increasing glacier-induced earthquake activity at other glacier-covered volcanoes. (ANI)

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Scientists solve mystery of Earth’s leaky mantle

May 28, 2009 By Leave a Comment

Washington, May 28 (ANI): Researchers at Rice University and Harvard University, US, have developed a new model to explain how noble gases – elements like helium, neon and argon – are lost from the Earth’s interior during mantle convection.

The research takes aim at a question that has vexed geoscientists for years: how to reconcile leading theories about the convection of Earth’s mantle with observations of ancient noble gases in volcanic rocks.

“Most existing models find that convection should have left the mantle extensively depleted in ancient noble gases, unless part or all of the lower mantle has been somehow isolated,” said study co-author Helge Gonnermann, assistant professor of Earth science at Rice.

“We set out to see if there was a mechanism that could both preserve ancient noble gases in the lower mantle and still be consistent with the existing framework for whole mantle convection,” he added.

In the new research, Gonnermann and longtime collaborator Sujoy Mukhopadhyay, a Harvard geochemist, developed a model that could reconcile convection involving the lower mantle with the helium-3 measurements found in ocean island basalts.

The model suggests that both the upper and lower mantle are involved in convection, but it affects them in different ways.

Whereas the upper mantle has been extensively degassed through repeated tectonic cycling, the lower mantle has been recycling approximately once during the past 4.5 billion years.

Continuous mixing of subducted plates into the lower mantle has been diluting the concentrations of ancient noble gases there.

Instead of extracting ancient noble gases at their original concentrations, progressively smaller amounts are extracted at any given rate of tectonic cycling.

Consequently, about 40 percent of the ancient helium-3 can still be present in the lower mantle, even though it may have undergone one complete tectonic cycling over the past 4.5 billion years.

“Contrary to the conventional view that tectonic cycling of the lower mantle should result in extensive mixing between the lower and upper mantle, thereby erasing any differences in helium-3, we find that much of the tectonic cycling of the lower mantle essentially bypasses the upper mantle,” Mukhopadhyay said.

“What goes down must come up: Slabs that subduct and mix into the lower mantle are balanced by mantle plumes, rich in helium-3, which rise from the lower mantle to the Earth’s surface without mixing significantly as they traverse the upper mantle,” he added. (ANI)

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“Snowball Earth” may not be responsible for mass extinction of early life on Earth

May 27, 2009 By Leave a Comment

Washington, May 27 (ANI): New fossil findings discovered by scientists have challenged the prevailing views about the effects of “Snowball Earth” glaciations on life, which is presumed to be responsible for widespread die-off of early life on Earth.

By analyzing microfossils in rocks from the bottom of the Grand Canyon, the scientists from UC (University of California) Santa Barbara have challenged the view that has been generally assumed to be correct for the massive extinction of early life on Earth.

“Snowball Earth” is the popular term for glaciations that occurred between approximately 726 and 635 million years ago and are hypothesized to have entombed the planet in ice, explained co-author Susannah Porter, assistant professor of earth science at UCSB.

It has long been noted that these glaciations are associated with a big drop in the fossil diversity, suggesting a mass die-off at this time, perhaps due to the severity of the glaciations.

However, the research team found evidence suggesting that this drop in diversity occurred some 16 million or more years before the glaciations.

They offer an alternative reason for the drop.

A location called the Chuar Group in the Grand Canyon serves as “one of the premier archives of mid-Neoproterozoic time,” according to the research.

This time period, before Snowball Earth, is preserved as a sort of “snapshot” in the canyon walls.

The scientists found that diverse assemblages of microscopic organic-walled fossils called acritarchs, which dominate the fossil record of this time, are present in lower rocks of the Chuar Group, but are absent from higher strata.

In their place, there is evidence for the bacterial blooms that, the researchers hypothesize, most likely appeared because of an increase in nutrients in the surface waters.

This process is known as eutrophication, and occurs today in coastal areas and lakes that receive abundant runoff from fertilizers used in farming.

“One or a few species of phytoplankton monopolizes nutrients at the expense of others,” said Porter, explaining the die-off of diverse acritarchs.

“In addition, the algal blooms result in high levels of organic matter production, which we see evidence of in the high organic carbon content in upper Chuar Group rocks. As a result of high levels of organic matter, oxygen levels in the water can become depleted, resulting in widespread “dead zones”,” she added.

Porter and colleagues also found evidence for extreme anoxia in association with the bacterial blooms. (ANI)

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Indian origin scientist finds active African volcano to have most fluid lava in world

March 15, 2009 By Leave a Comment

Washington, March 15 (ANI): A geochemist of Indian origin has determined that an active African volcano possesses the most fluid lava in the world, which points toward its source being a mantle plume that is in complete pristine condition.

The lava composition indicates that a mantle plume-an upwelling of intense heat from near the core of the Earth-may be bubbling to life beneath Nyiragongo, an active African volcano, in the emocratic Republic of the Congo.

“This is the most fluid lava anyone has seen in the world,” said Asish Basu, professor of earth science at the University of Rochester, the geochemist who conducted the research.

“It’s unlike anything coming out of any other volcano. We believe we’re seeing the beginning of a plume that is pushing up the entire area and contributing to volcanism and earthquakes,” he added.

Basu analyzed the lava, which resides in the world’s largest lava lake-more than 600 feet wide inside the summit of Nyiragongo-and found that the isotopic compositions of neodymium and strontium are identical to ancient asteroids.

“This suggests that the lava is coming from a place deep inside the Earth where the source of molten rock is in its pristine condition,” said Basu.

“Because the Earth’s crust is undergoing constant change via tectonic motion, weathering, and resurfacing, its chemical composition has been dramatically altered over its 4-billion-year lifespan, but the Nyiragongo magma source in the deep mantle has not,” he added.

That magma source is thought to retain some of the solar system’s original make-up of elements, and this is what Basu and his colleagues believe they have detected in Nyiragongo’s lava lake.

Scientists believe mantle plumes can last hundreds of millions of years, and that their heat can create phenomena such as Yellowstone National Park or the string of Hawaiian Islands.

According to Basu, Nyiragongo’s frequent eruptions may be the birthing pains of a similar plume and the possible beginning of new large-scale geological formations in the region.

Basu said that other well known features of the region also point toward the idea of a growing plume.

“This is a very troubled region of the world, and we hope to be able to help better understand the conditions under which the people of that area must live,” said Basu.

Nyiragongo last erupted in 2002, sending its super-fluid lava down its slopes at more than 60 miles per hour toward the nearby town of Goma, destroying 4,500 buildings and leaving 120,000 homeless. (ANI)

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Government presents National Mineral Awards 2007 to 17 achievers

February 14, 2009 By Leave a Comment

New Delhi, Feb 13 (ANI): Seventeen geologists, engineers and technologists were honoured on Friday with the National Mineral Awards-2007.

The awards are given for outstanding contributions in the fields of mineral discovery and explorations, fundamental and applied geosciences and mining and allied disciplines.

Presenting the awards, Union Minister of Mines Sis Ram Ola called for additional capital investment in exploring concealed mineral deposits by using an environment friendly extraction technology.

He confessed that a more comprehensive resource inventory is the need of the hour for the nation.

Secretary in Ministry of Mines Shantanu Consul informed the gathering that the National Mineral Award Scheme covers sixteen earth science related fields with a total nineteen National Mineral Awards. So far, 550 geosciences and six geo-scientists have been given National Mineral Award.

He said that systematic and planned efforts in mineral exploration through the years have resulted in building up a strong mineral resource database.

Consul further declared that India ranks high position in the production of barytes, coal and lignite, iron ore, kyanite/sillimanite and talc/steatite/pyrophyllite, bauxite, manganese ore and steel (crude), and aluminum and copper (refined).

Minister of State for Mines B.K. Handique was also present on the occasion. (ANI)

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