Monday, July 28, 2008
China will soon set up its first annual deep sea sub-surface mooring system in Arctic Ocean to observe the long term changes in marine. The system will gather information on temperature, speed of currents and salinity at various depths in the coming years in the ocean, members of the country' third Arctic expedition team has said.
"It would facilitate studies of the impact of environmental changes in the Arctic Ocean on global climate, especially on China". A trap would catch marine lives on regular basis for scientific studies, they said aboard Xuelong ice breaker or "Snow Dragon", that left Shanghai on July 11 with 122 scientists and logistics staff for a 75 day expedition.
The team will study the polar regions, air quality, distinctive maritime resources and conduct comprehensive research on meteorological and geological conditions, it said. In 2003 China deployed a 40 day mooring system in the Bering Sea. The system will be installed in Chukchi Sea waters, where the currents from the Pacific Ocean and the Atlantic Ocean converge.
The area is considered is very importance for scientific research on water variation, Dr Chen Hong Xia, a member of the expedition team, said. The system would be set up by the 3rd expedition in due course and retrieved by Chinese researchers scheduled to enter the Arctic region in 2009.
"It would facilitate studies of the impact of environmental changes in the Arctic Ocean on global climate, especially on China". A trap would catch marine lives on regular basis for scientific studies, they said aboard Xuelong ice breaker or "Snow Dragon", that left Shanghai on July 11 with 122 scientists and logistics staff for a 75 day expedition.
The team will study the polar regions, air quality, distinctive maritime resources and conduct comprehensive research on meteorological and geological conditions, it said. In 2003 China deployed a 40 day mooring system in the Bering Sea. The system will be installed in Chukchi Sea waters, where the currents from the Pacific Ocean and the Atlantic Ocean converge.
The area is considered is very importance for scientific research on water variation, Dr Chen Hong Xia, a member of the expedition team, said. The system would be set up by the 3rd expedition in due course and retrieved by Chinese researchers scheduled to enter the Arctic region in 2009.
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by Deepsea Water @ 3:54 AM
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Tuesday, July 15, 2008
Every one of us know that the world has a carbon dioxide problem, and there are loads of suggestions on how to dealing it. Sequestration is a method, keeping off the gas out of the atmosphere through long-term storage. A great idea, if you can figure out where to put it. Lot of ideas has been proposed, like pumping it into old oil and gas fields or saline aquifers. At the Lamont-Doherty Earth Observatory of Columbia University, researchers propose injecting CO2 into deep sea basalt formations, specifically a large expanse of the rock below 8,000 feet of the ocean on the Juan de Fuca plate in the Pacific Northwest.
Taro Takahashi, David S. Goldberg and Angela L. Slagle suggest in 'The Proceedings of the National Academy of Sciences' that these porous deposits got many advantages. One is that minerals in the rock could react with CO2, forming stable carbonates. Another is that the deposits are blanketed by 1,000 feet of sediments which could block leaks. And the area is near the coast, so CO2 could be piped straight from power plants to injection sites. The researchers estimate there is enough basalt to store more than 120 years' worth of industrial and power-plant emissions by the United States.
Taro Takahashi, David S. Goldberg and Angela L. Slagle suggest in 'The Proceedings of the National Academy of Sciences' that these porous deposits got many advantages. One is that minerals in the rock could react with CO2, forming stable carbonates. Another is that the deposits are blanketed by 1,000 feet of sediments which could block leaks. And the area is near the coast, so CO2 could be piped straight from power plants to injection sites. The researchers estimate there is enough basalt to store more than 120 years' worth of industrial and power-plant emissions by the United States.
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by Deepsea Water @ 4:45 AM
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