Model may predict El Nino up to 2 years in advance.A refined model can foresee the onset of the climate-altering phenomenon known as El Nino as much as 2 years ahead of time, scientists say. Because a strong El Nino can wreak damage costing billions of dollars, such advance notice could prove extremely valuable. Under normal circumstances, winds carry warm surface waters westward across the tropical Pacific. During an El Nino, however, these winds diminish or reverse direction, and the warm waters of the western Pacific spill eastward. During a strong El Nino, sea-surface temperatures along the equator then remain abnormally warm for several months, and weather patterns shift. The southwestern United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. and Peru, for example, get more precipitation than normal, but Australia and Indonesia receive lower-than-average rainfall. Worldwide damage attributable to the 1997 El Nino, the strongest yet recorded, probably exceeded $20 billion, says David Anderson David Anderson may refer to:
The objectives of the ECMWF are: El Ninos occur at irregular intervals that tend to range between 2 and 7 years, but during some periods, the phenomenon is rarer. Only one El Nino occurred between 1936 and 1955, says Alexey Kaplan, a climatologist cli·ma·tol·o·gy n. The meteorological study of climates and their phenomena. cli  ma·to·log at Lamont-Doherty Earth Observatory Lamont-Doherty Earth Observatory (LDEO) is a world-class research institution specializing in the Earth sciences and is part of Columbia University. The current director of Lamont is G. Michael Purdy. in Palisades Palisades, cliffs along the west bank of the Hudson River, NE N.J. and SE N.Y., extending from N of Jersey City, N.J., to the vicinity of Piermont, N.Y., with a general altitude of from 350 ft to 550 ft (107–168 m). , N.Y. Since 1856, sea-surface temperatures across a large region of the equatorial Pacific have on 24 occasions shown the mark of an El Nino--a rise of more than 1[degrees]C above normal for an extended period. Using wind and ocean-temperature 5g measurements in climate models, scientists can predict El Ninos 6 to 8 months before they arrive. Kaplan and his colleagues modified one of those models to better assimilate ocean-temperature data, and they calibrated cal·i·brate tr.v. cal·i·brat·ed, cal·i·brat·ing, cal·i·brates 1. To check, adjust, or determine by comparison with a standard (the graduations of a quantitative measuring instrument): it using temperature trends between 1980 and 2000. Then, they checked whether their model could foretell fore·tell tr.v. fore·told , fore·tell·ing, fore·tells To tell of or indicate beforehand; predict. fore·tell El Ninos on the basis of Pacific sea-surface temperature measurements collected since 1856. For six of the strongest El Nino events during that 148-year period, the model predicted as early as 2 years in advance when the warmer-than-average sea-surface temperatures would appear, says Kaplan. The model wasn't as successful in foretelling mild El Ninos. Kaplan and his colleagues describe their model in the April 15 Nature. If the new simulation proves reliable for predicting El Ninos years in advance, many regions could benefit. Consider Indonesia, a western Pacific archipelago that suffers droughts during El Ninos. Those dry spells can significantly affect the nation's rice production, says Walter P. Falcon, an economist at Stanford University. He and his colleagues estimate that when sea-surface temperatures in the equatorial Pacific are 1[degrees]C above normal in August, Indonesia's rice harvest over the following year falls more than 1 million metric tons and world rice prices rise about 10 percent. Accurate forecasts of an upcoming El Nino, Falcon says, could enable humanitarian-aid organizations to prepare, the Indonesian government to establish irrigation irrigation, in agriculture, artificial watering of the land. Although used chiefly in regions with annual rainfall of less than 20 in. (51 cm), it is also used in wetter areas to grow certain crops, e.g., rice. rules, farmers to choose suitable crops, and world commodity markets to predict food availability. |
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