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Impacts of El Niño and benefits of El Niño prediction

Global Consequences of El Niño

Summer precipitation anomolies Winter precipitation anomolies
Precipitation anomalies during El Niño in (a) Summer and (b) Winter

The twists and turns in the ongoing dialogue between ocean and atmosphere in the Pacific can have a ripple effect on climatic conditions in far flung regions of the globe. This worldwide message is conveyed by shifts in tropical rainfall, which affect wind patterns over much of the globe. Imagine a rushing stream flowing over and around a series of large boulders. The boulders create a train of waves that extend downstream, with crests and troughs that show up in fixed positions. If one of the boulders were to shift, the shape of the wave train would also change and the crests and troughs might occur in different places.

Dense tropical rainclouds distort the air flow aloft (5-10 miles above sea level) much as rocks distort the flow of a stream, or islands distort the winds that blow over them, but on a horizontal scale of thousands of miles. The waves in the air flow, in turn, determine the positions of the monsoons, and the storm tracks and belts of strong winds aloft (commonly referred to as jet streams) which separate warm and cold regions at the Earth's surface. In El Niño years, when the rain area that is usually centered over Indonesia and the far western Pacific moves eastward into the central Pacific, as shown on p. 17, the waves in the flow aloft are affected, causing unseasonable weather over many regions of the globe.

See List of Global Impacts.

Regional Consequences of El Niño (United States)

Winter temperature El Niño anomoliesWinter El Niño precipitation anomalies
Anomalies of Winter (a) temperature and (b) precipitation during El Niño.

The impacts of El Niño upon climate in temperate latitudes show up most clearly during wintertime. For example, most El Niño winters are mild over western Canada and parts of the northern United States, and wet over the southern United States from Texas to Florida. El Niño affects temperate climates in other seasons as well. But even during wintertime, El Niño is only one of a number of factors that influence temperate climates. El Niño years, therefore, are not always marked by "typical" El Niño conditions the way they are in parts of the tropics. See List of impacts on the U.S. and List of impacts on other countries.

Benefits of El Niño Prediction

As El Niño develops, it perturbs marine life in the Pacific and influences weather patterns throughout the world (See El Niño and Climate Prediction - Reports to the Nation on Our Changing Climate). The abnormal atmospheric and oceanic conditions during El Niño affect human beings. See Economic impacts of the 1982-83 El Niño, the 1997 El Niño: The worst there ever was, Ocean Planet: El Niño (Smithsonian), and Understanding and Predicting ENSO.

Scientists are now taking our understanding of El Niños a step further by incorporating the descriptions of these events into numerical prediction models (computer programs designed to represent, in terms of equations, processes that occur in nature). Such models are fed information, mostly in the form of sets of numbers, describing the present state of the atmosphere-ocean system (for example, observations of wind speeds, ocean currents, sea level, and the depth of the thermocline along the equator). Updated sets of numbers, which the models produce, indicate how the atmosphere-ocean system might evolve over the next few seasons or years. The results thus far, though by no means perfect, give a better indication of the climatic conditions that will prevail during the next one or two seasons than simply assuming that rainfall and temperature will be "normal."

Peru provides a prime example of how even short term El Niño forecasts can be valuable. There, as in most developing countries in the tropics, the economy (and food production in particular) is highly sensitive to climate fluctuations. Warm (El Niño) years tend to be unfavorable for fishing and some of them have been marked by damaging floods along the coastal plain and in the western Andean foothills in the northern part of the country. Cold years are welcomed by fishermen, but not by farmers because these years have frequently been marked by drought and crop failures. Such cold years often come on the heels of strong El Niño years. Hence, Peruvians have reason to be concerned, not only about El Niño events, but about both extremes of the El Niño cycle.

Since 1983, forecasts of the upcoming rainy season have been issued each November based on observations of winds and water temperatures in the tropical Pacific region and the output of numerical prediction models. The forecasts are presented in terms of four possibilities: (1) near normal conditions, (2) a weak El Niño with a slightly wetter than normal growing season, (3) a full blown El Niño with flooding, and (4) cooler than normal waters offshore, with higher than normal chance of drought.

Once the forecast is issued, farmers representatives and government officials meet to decide on the appropriate combination of crops to sow in order to maximize the overall yield. Rice and cotton, two of the primary crops grown in northern Peru, are highly sensitive to the quantities and timing of rainfall. Rice thrives on wet conditions during the growing season followed by drier conditions during the ripening phase. Cotton, with its deeper root system, can tolerate drier weather. Hence, a forecast of El Niño weather might induce farmers to sow more rice and less cotton than in a year without El Niño.

Countries that have taken similar initiatives include Peru, Australia, Brazil, Ethiopia, and India. Although tropical countries have the most to gain from successful prediction of El Niño, for many countries outside the tropics, such as Japan and the United States, more accurate prediction of El Niño will also benefit strategic planning in areas such as agriculture, and the management of water resources and reserves of grain and fuel oil. (See lists of impacts for the globe, the US/North America, and other countries).

Encouraged by the progress of the past decade, scientists and governments in many countries are working together to design and build a global system for (1) observing the tropical oceans, (2) predicting El Niño and other irregular climate rhythms, and (3) making routine climate predictions readily available to those who have need of them for planning purposes, much as weather forecasts are made available to the public today. The ability to anticipate how climate will change from one year to the next will lead to better management of agriculture, water supplies, fisheries, and other resources. By incorporating climate predictions into management decisions, humankind is becoming better adapted to the irregular rhythms of climate.

List of Illustrations

List of Impacts and Prediction Benefits

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Global El Niño Impacts - Societal impacts - Research

[El Niño Theme Page | Today's Information | Forecasts | Global Impacts | Impacts on Other Countries | Top ]

El Niño impacts on the United States and North America

[ El Niño Theme Page | Today's Information | Forecasts | Global Impacts | US/N.America Impacts | Top ]

El Niño impacts on other countries

Text - from El Niño and Climate Prediction - Reports to the Nation on Our Changing Climate, Spring 1994
Graphics - from NOAA/PMEL/TAO and FSU/COAPS .
Other Credits - from the Distributed data sources linked by the El Niño Theme Page
Additional Information - Understanding and predicting ENSO, D.S. Battisti and E.S. Sarachik; U.S. National Report to IUGG, 1991-1994 Rev. Geophys. Vol. 33 Suppl., © 1995 American Geophysical Union.
Department of Commerce / National Oceanic and Atmospheric Administration
Pacific Marine Environmental Laboratory / Tropical Atmosphere Ocean Project
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