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Abstract Thinking


Large-scale weather patterns which occur in various locations around the Earth, from the El Niño-Southern Oscillation (ENSO) in the tropics to the high latitude Arctic Oscillation (AO) play a significant part in controlling the weather on a seasonal time scale. Knowing the condition of these atmospheric oscillations in advance would greatly improve long-range weather predictions. Scientists search for clues in the earth’s surface conditions such as tropical sea surface temperatures and snow cover at higher latitudes. Reliable and accurate weather prediction is vitally important in numerous areas of society, particularly agriculture and water management and weather risks are evaluated by a wide range of businesses, including power distributors who make fewer sales during cool summers and more sales during cold winters. The portion of the U.S. economy sensitive to weather conditions is estimated to be at least $3 trillion.

The winter of 2002-2003 offers one example of how large-scale patterns can impact a single season. It was supposed to be milder-than-average in the East, driven by the warmer than average sea surface temperatures over the central Pacific during 2002-03 (generated by a strong ENSO event), similar to other recent milder-than-average winters in the northern and eastern United States during other recent El Niño winters. Instead the biting cold of January propelled natural gas prices to an all-time high, and heavy snows paralyzed the transportation infrastructure in all the major eastern cities during February 2003 . The winter of 2003/04 offered little relief to many winter-weary cities in the East with a return to brutally cold temperatures in January. Why have forecasters and businesses been caught by surprise? NSF-funded scientists believe at least part of the answer lies in the frozen tundras of Siberia, where greater-than-average autumn snowfall causes weather patterns in the Arctic regions to shift southward into the midlatitudes during the winter, while less-than-average snowfall causes the patterns to retreat poleward.

El Nino Global event El Nino Animation

The 1997-98 El Niño was truly a global event. The sequence shows a superposition of sea surface temperature anomalies on anomalies of the sea surface elevation. Warmer than normal temperatures are shown in red and cooler than normal temperatures are shown in blue. See for explanation.

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Any opinions, findings, conclusions or recommendations presented in this material are only those of the presenter grantee/researcher, author, or agency employee; and do not necessarily reflect the views of the National Science Foundation.