海洋酸化不利于甲壳类动物生长
Increasing acidification(酸化) in coastal waters could compromise the ability of oysters and other marine creatures to form and keep their shells, according to a new study led by University of Georgia researchers. Their findings will be published in the November 2011 issue of Nature Geoscience. The researchers determined the combined effects of fertilizer runoff(径流) carried by the Mississippi River to the northern Gulf of Mexico and excess atmospheric carbon dioxide from burning fossil fuels result in an unexpected increase in the acidity of Gulf waters.
"Before, scientists only worried about low oxygen in waters along the coast," said Wei-Jun Cai, a professor of marine sciences in the UGA Franklin College of Arts and Sciences. "Our paper basically says not only do we need to worry about low oxygen, we also need to worry about acidification."
When plumes of river water rich with nutrients from fertilizer run into coastal waters, phytoplankton(浮游植物) thrives. When these algae die, they sink to the sea floor and decompose, releasing carbon dioxide and decreasing the amount of oxygen in the water. The dissolved carbon dioxide reacts with water, forming an acid.
Ocean acidity also increases when excess carbon dioxide released by burning fossil fuels is absorbed from the air at the ocean's surface. The combination of these two sources of carbon dioxide decreases the ocean's ability to neutralize acid, increasing acidity beyond what would be expected from the sum of the individual processes.
As the water becomes more acidic, sea creatures that form carbonate shells or skeletons -- from single-celled amoebae to oysters to corals -- are less able to produce and maintain these structures. If the acidity of coastal waters continues to increase, Cai and his co-workers predict that by the end of the century these creatures won't be able to form shells.
"Many of our fisheries resources, especially shellfish(甲壳类动物) , are concentrated in areas where rivers discharge onto the coast, like the northern Gulf and the East China Sea, and thus are at risk," said James T. Hollibaugh, UGA Distinguished Research Professor of marine sciences. "And of course there are likely ramifications for fish and animals further up the food chain that depend on these same shellfish for food."
Hollibaugh collaborated with Cai on the project, along with UGA post-doctoral researcher Xinping Hu, graduate students Wei-Jen Huang and Yongchen Wang and doctoral graduate Pingsan Zhao. Additional authors on the paper include Michael C. Murrell and John C. Lehrter of the Environmental Protection Agency Gulf Ecology Division; Steven Lohrenz of University of Massachusetts-Dartmouth; Wen-Chen Chou and Gwo-Ching Gong of the National Taiwan Ocean University; Weidong Zhai, Minhan Dai and Xianghu Guo of Xiamen University; and Kjell Gundersen of the University of Southern Mississippi.
Although their research focused on Gulf of Mexico coastal waters, they extended their findings globally by making the same measurements on the Changjaing (Yangtze) River, the largest river in Asia, where they found similar results.
To minimize future damage to the coastal ocean, Cai and his colleagues recommend that farmers better manage fertilizer use and societies limit fossil fuel use. Their future research will explore seasonal patterns of acidification and its influence on the coastal ecosystem.
Cai's research on the Mississippi River was funded by grants from the U.S. Environmental Protection Agency, the National Science Foundation and the National Aeronautics and Space Administration. Research on the East China Sea was funded by the National Natural Science Foundation of China, the National Basic Research Program of China and the National Science Council of the Republic of China.