NSF PR 01-33 - April 19, 2001

Media contacts:

Cheryl Dybas, NSF

(703) 292-8070

[email protected]

Anatta, NCAR

(303) 497-8604

[email protected]

Stephanie Kenitzer, American
Meteorological Society

(425) 432-2192

[email protected]


This material is available primarily for archival purposes. Telephone numbers or other contact information may be out of date; please see current contact information at media contacts.

Scientists Suggest New Index to Capture "Flavors" of El Niño

Just as the Federal Reserve uses more than one index to measure the health and state of the economy, scientists at the National Center for Atmospheric Research (NCAR) believe it is essential to have at least two climate measures to capture all "flavors" of El Niño.

Climate scientists have long used changes in sea surface temperatures in specific regions of the Pacific Ocean to characterize El Niño events. But using just that one temperature index does not give a complete picture of the climate phenomenon, according to scientist Kevin Trenberth of NCAR.

"El Niño comes in many different flavors, "said Trenberth. "Each has a different and distinct character. An index of average sea surface temperature variations in some parts of the Pacific Ocean does not allow us to differentiate between major, moderate and minor El Niños, or between the entire nature of the event and its evolution."

Writing in the April 15 issue of the American Meteorological Society's Journal of Climate, Trenberth and colleague David Stepaniak, propose a second El Niño index called the "Trans-Niño Index" or TNI. This new mathematical equation calculates the difference between sea surface temperature changes in the central equatorial Pacific Ocean and those in waters along the coast of South America. Showing different developments across the Pacific allows scientists to see how and where El Niño events have developed over the last 50 years and to detect changes that may be occurring on a decadal time scale.

In his research Trenberth found that although El Niño events tend to be locked to the annual cycle and typically peak in the northern winter, the evolution of El Niño has changed substantially. The TNI shows that El Niño events between 1950 and 1976 tended to develop first along the coast of South America and then spread westward. More recent El Niño events developed in the central Pacific and spread eastward.

"Trenberth's and Stepaniak's study, which has resulted in an innovative way of differentiating between El Niños of various strengths and characters, should lead to a better understanding of the dynamics of El Niños--and their improved prediction," said Jay Fein, director of the National Science Foundation (NSF)'s climate dynamics program, which funded the research.

"We want to explore whether we can use the relationships of temperature variations between the different parts of the Pacific to evaluate numerical climate models on how well they simulate El Niño events," added Trenberth. "Our goal is to capture that character so we can improve confidence in future predictions."


National Science Foundation
Office of Legislative and Public Affairs
4201 Wilson Boulevard
Arlington, Virginia 22230, USA
Tel: 703-292-8070
FIRS: 800-877-8339 | TDD: 703-292-5090




This article comes from Science Blog. Copyright © 2004
http://www.scienceblog.com/community

Archives C