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The Pyrenean ibex, an impressive mountain goat that lived in the central Pyrenees in Spain, went extinct in 2000. But a...
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Ebola is not a stranger to West Africa—an outbreak in the 1990s killed chimpanzees and sickened one researcher. But the...
In an as-yet-unpublished report, an international panel of geoscientists has concluded that a pair of deadly...
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Since 2002, researchers have reported that agricultural communities in the hot and humid Pacific Coast of Central...
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Could Tiny Bubbles Cool the Planet?
26 March 2010 11:33 am
PACIFIC GROVE, CALIFORNIA—In an effort to curb global warming, scientists have proposed everything from launching sunlight-blocking dust into the stratosphere to boosting the number of carbon-sucking algae in the oceans. Now, a Harvard University physicist has come up with a new way to cool parts of the planet: pump vast swarms of tiny bubbles into the sea to increase its reflectivity and lower water temperatures. “Since water covers most of the earth, don’t dim the sun,” says the scientist, Russell Seitz, speaking from an international meeting on geoengineering research here. “Brighten the water.”
Natural bubbles already brighten turbulent seas and provide a luster known as “undershine” below the ocean’s surface. But these bubbles only lightly brighten the planet, contributing less than one-tenth of 1% of Earth’s reflectivity, or albedo. What Seitz imagines is pumping even smaller bubbles, about one-five-hundredth of a millimeter in diameter, into the sea. Such "microbubbles" are essentially "mirrors made of air," says Seitz, and they might be created off boats by using devices that mix water supercharged with compressed air into swirling jets of water. “I’m emulating a natural ocean phenomenon and amplifying it just by changing the physics—the ingredients remain the same."
Computer simulations show that tiny bubbles could have a profound cooling effect. Using a model that simulates how light, water, and air interact, Seitz found that microbubbles could double the reflectivity of water at a concentration of only one part per million by volume. When Seitz plugged that data into a climate model, he found that the microbubble strategy could cool the planet by up to 3°C. He has submitted a paper on the concept he calls “Bright Water" to the journal Climatic Change.
In addition to helping curb global warming, the microbubble strategy could also help conserve water by reducing evaporation in rivers and lakes, says Seitz. That’s a problem that leads to the loss of billions of tons of freshwater each year in California alone.
Seitz says adding bubbles to a 1-square-kilometer patch of ocean is feasible, but scaling it up may be technically difficult. Energy is not the limiting factor, he says, estimating that the energy output of 1000 windmills might be sufficient to add bubbles to an entire ocean. The larger challenge to large-scale deployment, he says, would be ensuring that the bubbles last as long as possible. In nature, a bubble’s lifetime depends on the level of dissolved organic matter and nanoparticles, without which small bubbles rapidly shrink and disappear. If the water is too clean, the bubbles might not last long enough to be effectively spread over large areas, Seitz says.
One way to test the viability of the idea might be to study the impact of bubbles created in the wakes of ships, says oceanographer Peter Brewer of the Monterey Bay Aquarium Research Institute in Moss Landing, California. "It's something nobody's talked about," he says of Seitz’s technique.