Recent News \| Archives \| Tags \| About \| Newsletter \| Submit News \| Links \| Subscribe

New Articles

Volcanoes cool the tropics, say researchers 1/7/2009

Stronger coastal winds due to climate change may have far-reaching effects 1/3/2009

Trapped water cause of regular tremors under Vancouver Island 1/2/2009

6 North American sites hold 12,900-year-old nanodiamond-rich soil 1/2/2009

Climate change could dramatically affect water supplies 12/31/2008

Some climate impacts happening faster than anticipated 12/30/2008

Lifecycles of tropical cyclones predicted in global computer model 12/29/2008

To improve forecasting earthquakes, mathematician studies grains 12/26/2008

New 'seawater' -- the way ahead for ocean science 12/25/2008

Abrupt climate change: United States report findings 12/24/2008

CAT scan reveals inner workings of volcano island 12/23/2008

No quick or easy technological fix for climate change, researchers say 12/23/2008

Abrupt climate shifts may move faster than thought 12/22/2008

Professor 'follows the elements' to understand evolution in ancient oceans 12/22/2008

The year of the Alaska volcano: Eruptions keep observatory busy 12/21/2008

Researchers confirm discovery of Earth's inner, innermost core (3/11/2008)

Tags:
seismic waves, seismic anisotropy, core

3D illustrations of the Earth's inner core structure and the texturing of its iron crystals. The transparent outer surface is the inner core boundary (at radius 1220 km). The opaque inner sphere is the inner inner core (slightly less than half of the inner core radius) found in this study. The sticks represent the alignments of iron crystals in the outer part of the inner core. The longer the stick is, the higher the degree of alignment is and the stronger the seismic anisotropy is. The fast direction is parallel to the spin axis. The illustration A is a 3D view. The illustrations B, C, and D are cut-away views along the longitudes as labeled. The labels NP and SP stands for the North Pole and the South Pole, respectively. The anisotropy at the top 100 km is weak. The anisotropy at greater depth is stronger in the western part than in the eastern part. The form of anisotropy in the inner inner core is different from that in the outer part.

Geologists at the University of Illinois have confirmed the discovery of Earth's inner, innermost core, and have created a three-dimensional model that describes the seismic anisotropy and texturing of iron crystals within the inner core.

"For many years, we have been like blind men touching different parts of an elephant," said U. of I. geologist Xiaodong Song. "Now, for the fist time, we have a sense of the entire elephant, and see what the inner core of Earth really looks like."

Using both newly acquired data and legacy data collected around the world, Song and postdoctoral research associate Xinlei Sun painstakingly probed the shape of Earth's core. The researchers report their findings in a paper accepted for publication in the journal Earth and Planetary Science Letters, and posted on its Web site.

Composed mainly of iron, Earth's core consists of a solid inner core about 2,400 kilometers in diameter and a fluid outer core about 7,000 kilometers in diameter. The inner core plays an important role in the geodynamo that generates Earth's magnetic field.

The solid inner core is elastically anisotropic; that is, seismic waves have different speeds along different directions. The anisotropy has been found to change with hemisphere and with radius. In the latest work, Sun and Song describe another anomaly - a global structure - found within the inner core.

"To constrain the shape of the inner core anisotropy, we needed a uniform distribution of seismic waves traveling in all directions through the core," Sun said. "Since the seismic waves we studied were generated by earthquakes, one challenge was acquiring enough seismic waves recorded at enough stations."

In their analysis, Sun and Song used a three-dimensional tomography technique to invert the anisotropy of the inner core. They parameterized the anisotropy of the inner core in both radial and longitudinal directions. The researchers then used a three-dimensional ray tracing method to trace and retrace the seismic waves through the inner core iteratively.

What they found was a distinct change in the inner core anisotropy, clearly marking the presence of an inner inner core with a diameter of about 1,180 kilometers, slightly less than half the diameter of the inner core.

The layering of the core is interpreted as different texturing, or crystalline phase, of iron in the inner core, the researchers say.

"Our results suggest the outer inner core is composed of iron crystals of a single phase with different degrees of preferred alignment along Earth's spin axis," Sun said. "The inner inner core may be composed of a different phase of crystalline iron or have a different pattern of alignment."

Although the anisotropy of the inner core was proposed 20 years ago, "this is the first time we have been able to piece everything together to create a three-dimensional view," Song said. "This view should help us better understand the character, mineral properties and evolution of Earth's inner core."

The work was funded by the National Science Foundation.

Note: This story has been adapted from a news release issued by the University of Illinois

Bankruptcy Certification - Credit Cards - Arizona Landscaping - Guitar Books

Post Comments:

Search

Archives \| Submit News \| Advertise With Us \| Contact Us \| Links