Yes, the sun has its own magical tune and if you want to hear it, click below. Even more interesting, the earth dances in rhythm.

David Thomson and Louis Lanzerotti, team members of the HISCALE experiment on board Ulysses, together with colleagues Frank Vernon, Marc Lessard and Lindsay Smith have proven that sounds generated deep inside the Sun cause the Earth to shake and vibrate in sympathy. They show that distinct, isolated tones, predicted to be generated by pressure and gravity waves in the Sun, are present in a wide variety of terrestrial systems.

Using statistical analysis they have discovered the same distinct tones emitted by the Sun in seismic data here on Earth.

Researchers have found native gold, silver and platinum salts in the dust of decayed stumps. A ton of their ashes contains 3 kilograms of silver, nearly 200 milligrams of gold and 5 grams of platinum.

These biogeochemical anomalies in complex ore deposit regions were formed by microbes and trees, which act as "gold-diggers" and draw soluble salts out of the soil and then die off, leaving behind the concentrate with “enormous” precious metals content.

The oxidation zone of some ore bodies is very close to the ground surface, within reach of tree roots. That is why, the researchers believe, the soil contains almost as much noble elements as the ore does. For centuries, trees and microorganisms gradually sucked them out of the depth and laid in the soil.

Researchers have determined that 97.9 percent of all white rice is derived from a mutation (a deletion of DNA) in a single gene originating in the Japonica subspecies of rice.

Their report, published in the journal PloS Genetics, suggests that early farmers favored, bred and spread white rice around the world.

The researchers report that this predominant mutation is also found in the Indica subspecies of white rice. They have found a second independent mutation (a single DNA substitution) in the same gene in several Aus varieties of rice in Bangladesh, accounting for the remaining 2.1 percent of white rice varieties. Neither of these two mutations is found in any wild red rice species.

Exploring life in the North Atlantic Ocean at various depths of 800 to 3,500 metres, a team of 31 scientists are returning from a five-week scientific expedition which has surfaced a wealth of new information and insights, stunning images and marine life specimens, with one species thought to be new to science.

Professor Monty Priede, Director of the University’s highly-acclaimed Oceanlab, along with colleague Dr Nicola King, and students Jessica Craig, Claudia Alt and James Hawkins, are part of the science team on board the ship.

Professor Priede said: “It is like surveying a new continent half way between America and Europe. We can recognise the creatures, but familiar ones are absent and unusual ones are common.

The chemical fingerprint of a burned-out star indicates that Earth-like planets may not be rare in the universe and could give clues to what our solar system will look like when our sun dies and becomes a white dwarf star some five billion years from now.

Astronomers from UCLA report that a white dwarf star known as GD 362, which is surrounded by dusty rings similar to those of Saturn, has been contaminated by a large asteroid that left more than a dozen observable chemical elements in the white dwarf's atmosphere. Such an observation is unprecedented in astronomy.

Some materials change their electrical resistance in the presence of an external electromagnetic field. This concept is fundamental to data storage. Understanding large resistance changes, known as colossal magnetoresistance, could lead to new devices with increased data density and reduced power requirements.

"This is an extremely important piece of work with broad potential application in developing the next generation of electronic and data-storage devices," said Brookhaven physicist Yimei Zhu.

The Brookhaven scientists were studying crystalline perovskite manganites that had been doped with extra charge carriers - electrons or "holes" (the absence of electrons) - using various state-of-the-art electron microscopy techniques.