Gasoline from Thin Air?

An enzyme found in the roots of soybeans could be the key to cars that run on air.

Vanadium nitrogenase, an enzyme that normally produces ammonia from nitrogen gas, can also convert carbon monoxide (CO), a common industrial byproduct, into propane, the blue-flamed gas found on stoves across America.

While scientists caution the research is still at an early stage, they say that this study could eventually lead to new, environmentally friendly ways to produce fuel -- and eventually gasoline -- from thin air.

"This organism is a very common soil bacteria that is very well understood and has been studied for a long time," said Markus Ribbe, a scientist at the University of California, Irvine, and a co-author of the new paper that appears in the journal Science.

"But while we were studying it, we realized that the enzyme has some unusual behavior," he added.

The organism that the researchers studied was Azotobacter vinelandii, an economically important bacteria. A. vinelandii is usually found in the soil around the roots of nitrogen-fixing plants like soybeans.

Farmers like plants that contain A. vinelandii because the bacteria use a suite of enzymes to turn unusable atmospheric nitrogen into vital ammonia and other chemicals. Other plants can then take up those chemicals and use them to grow.

Ribbe and his co-authors isolated one particular enzyme, vanadium nitrogenase, to convert nitrogen into ammonia. Then the California scientists removed the nitrogen and oxygen the enzyme is used to and filled the remaining space with CO.

Without oxygen and nitrogen, the enzyme began to to turn the CO into short chains of carbon two and three atoms long. A three-carbon chain is more commonly referred to as propane, the blue-flamed gas used in kitchens across America.

Scientifically, the new function of vanadium nitrogenase is a "profound discovery," said Jonas Peters, a scientist at Cal Tech who said he nearly leapt from his chair when the results were announced at a recent conference.

The new research could have some very important industrial applications, Peters said.

"Obviously this could lead to new ways to create synthetic liquid fuels if we can make longer carbon-carbon chains," said Ribbe.

The new enzyme can only make two and three carbon chains, not the longer strands that make up liquid gasoline. However, Ribbe thinks he can modify the enzyme so it could produce gasoline.

If perfected, the technique could lead to cars partially powered on their own fumes. Even further into the future, vehicles could even draw fuel from the air itself.

That perfection won't happen anytime soon, say both Ribbe and Peters.

"It's very, very difficult," to extract the vanadium nitrogenase, said Ribbe.

Scientists have known about this enzyme for a long time because of its importance in agriculture. They even isolated the genes that encode for vanadium nitrogenase more than 20 years ago, which opens the door to genetic engineers and synthetic biologists.

But the technology to extract, grow and store large quantities of the enzyme has only developed within the last few years, which made this new research possible.

Further advances will be necessary before air and bacteria cars rule the road.

Source <news.discovery.com>

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World's largest flower

The flower with the world's largest bloom is the Rafflesia arnoldii. This rare flower is found in the rainforests of Indonesia. It can grow to be 3 feet across and weigh up to 15 pounds! It is a parasitic plant, with no visible leaves, roots, or stem. It attaches itself to a host plant to obtain water and nutrients. When in bloom, the Rafflesia emits a repulsive odor, similar to that of rotting meat. This odor attracts insects that pollinate the plant.

Source <www.loc.gov>

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Clownfish Change Size And Sex To Move Up The Ranks

What the movie "Finding Nemo" doesn't tell you about clownfish is that they're all transsexuals. In a study published in the journal Nature, evolutionary biologist Peter Buston and colleagues report that clownfish in Papua New Guinea reefs can change their sex at will for social reasons. Clownfish live in strict hierarchical communities. Each neighborhood is dominated by a top-ranking female breeder. Her male partner is next, followed by up to four progressively smaller, non-breeding fish. When the dominant female dies, her mate changes sex and becomes female. The top-ranking non-breeder becomes a sexually active male, and all the other fish shift up a rank. Clownfish also appear to regulate their size in order to remain part of the group. Each fish keeps its body mass 20 percent smaller than the fish directly above it in social rank, probably to avoid conflict. Fish who disrespectfully outgrow their rank are rejected by the clan.

Source <www.flmnh.ufl.edu>

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World's smallest flowering plant

The world's smallest fruit is naturally created by the world's smallest flowering plant, genus Wolffia, a part of the duckweed family., the smallest of which are the Australian Wolffia angusta and the Asian/African Wolffia globosa.

The plant itself measures about 1 mm long and the fruit is no bigger than a grain of salt.

A Bouquet on the Head of a Pin!

I can't overemphasize how tiny these little guys are, as a dozen Wolffia blooms could be arranged tastefully on the head of a pin. While they are flowering plants capable of producing seeds, Wolffia reproduces most commonly by vegetative means. A mature plant will produce a bud which will grow into an individual plant and separate off from the parent. Their capacity for vegetative reproduction is incredible, as the Indian species Wolffia microscopica can produce a smaller daughter plant every 30 to 36 hours. At this rate of reproduction, one plant could give rise to about 1 nonillion (a one followed by 30 zeros) in a period of only 4 months. Fortunately, these plants are edible and are similar to soybeans in their protein content. In fact, Wolffia is eaten by people in Thailand. It is known there as "water-eggs" or khai-nam.
A Large Future for such a Small Plant

Wolffia have the potential to help solve some of the world's most pressing problems, from bioremediation of polluted waters to serving as a food source for humans and animals, to even providing biofuel to lessen our dependence on oil. Such amazing possibilities for such a diminutive plant, and incurably cute, too!

Source <http://davesgarden.com>

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Lipstick Contains fish scales

The ingredient under discussion is called pearl essence. (Some sources give this as "pearlescence.") It's the silvery stuff found in fish scales that's used in some lipsticks, nail polishes, ceramic glazes, etc., to make them shimmery. Pearl essence is obtained primarily from herring and is one of many by-products of large-scale commercial fish processing. Synthetic versions have been developed, but to what extent they've supplanted the natural variety I hesitate to say. The cosmetics companies were not forthcoming and I got contrary stories from different industry observers. Fishermen still collect the stuff, though, and one presumes it's being put to good use.

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Huge Diamond in Space

When choosing a Valentine's Day gift for a wife or girlfriend, you can't go wrong with diamonds. If you really want to impress your favorite lady this Valentine's Day, get her the galaxy's largest diamond. But you'd better carry a deep wallet, because this 10 billion trillion trillion carat monster has a cost that's literally astronomical!

"You would need a jeweler's loupe the size of the Sun to grade this diamond!" says astronomer Travis Metcalfe (Harvard-Smithsonian Center for Astrophysics), who leads a team of researchers that discovered the giant gem. "Bill Gates and Donald Trump together couldn't begin to afford it."

When asked to estimate the value of the cosmic jewel, Ronald Winston, CEO of Harry Winston Inc., indicated that such a large diamond probably would depress the value of the market, stating, "Who knows? It may be a self-deflating prophecy because there is so much of it." He added, "It is definitely too big to wear!"

The newly discovered cosmic diamond is a chunk of crystallized carbon 50 light-years from the Earth in the constellation Centaurus. (A light-year is the distance light travels in a year, or about 6 trillion miles.) It is 2,500 miles across and weighs 5 million trillion trillion pounds, which translates to approximately 10 billion trillion trillion carats, or a one followed by 34 zeros.

"It's the mother of all diamonds!" says Metcalfe. "Some people refer to it as 'Lucy' in a tribute to the Beatles song 'Lucy In The Sky With Diamonds.'"

The diamond star completely outclasses the largest diamond on Earth, the 530-carat Star of Africa which resides in the Crown Jewels of England. The Star of Africa was cut from the largest diamond ever found on Earth, a 3,100-carat gem.

The huge cosmic gem (technically known as BPM 37093) is actually a crystallized white dwarf. A white dwarf is the hot core of a star, left over after the star uses up its nuclear fuel and dies. It is made mostly of carbon and is coated by a thin layer of hydrogen and helium gases.

For more than four decades, astronomers have thought that the interiors of white dwarfs crystallized, but obtaining direct evidence became possible only recently.

"The hunt for the crystal core of this white dwarf has been like the search for the Lost Dutchman's Mine. It was thought to exist for decades, but only now has it been located," says co-author Michael Montgomery (University of Cambridge).

The white dwarf studied by Metcalfe, Montgomery, and Antonio Kanaan (UFSC Brazil), is not only radiant but also harmonious. It rings like a gigantic gong, undergoing constant pulsations.

"By measuring those pulsations, we were able to study the hidden interior of the white dwarf, just like seismograph measurements of earthquakes allow geologists to study the interior of the Earth. We figured out that the carbon interior of this white dwarf has solidified to form the galaxy's largest diamond," says Metcalfe.

Our Sun will become a white dwarf when it dies 5 billion years from now. Some two billion years after that, the Sun's ember core will crystallize as well, leaving a giant diamond in the center of our solar system.

"Our Sun will become a diamond that truly is forever," says Metcalfe.

A paper announcing this discovery has been submitted to The Astrophysical Journal Letters for publication.

Source <www.universetoday.com>

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Bermuda Triangle Mystery Solved

Computer studies of ocean floors around the world, particularly the area known as The Bermuda Triangle, reveal evidence of massive methane explosions in the past. For years, believers in the paranormal, aliens, and other outlandish theories pointed to the the disappearance of ships and aircraft as an indicator of mysterious forces at work in the “Devil’s triangle.” Scientists have finally pointed the rest of us to a more plausible cause.

The presence of methane hydrates indicates enormous eruptions of methane bubbles that would swamp a ship, and projected high into the air- take out flying airplanes, as well.

Any ships caught within the methane mega-bubble immediately lose all buoyancy and sink to the bottom of the ocean. If the bubbles are big enough and possess a high enough density they can also knock aircraft out of the sky with little or no warning. Aircraft falling victim to these methane bubbles will lose their engines-perhaps igniting the methane surrounding them-and immediately lose their lift as well, ending their flights by diving into the ocean and swiftly plummeting.

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