El Niño Conditions Persist in the Pacific Ocean

An El Niño that began to form last fall has matured and is now fully entrenched across the Pacific Ocean. Changes in sea surface temperatures (SSTs) brought about by an El Niño affect the atmosphere, resulting in distinctive changes in the rainfall pattern across the Pacific Basin. These changes show up as anomalies or deviations in NASA’s analysis of climatological rainfall.

This map shows sea surface temperature (SST) anomalies for the Pacific BasinThis map shows sea surface temperature (SST) anomalies for the Pacific Basin

This map shows sea surface temperature (SST) anomalies for the Pacific Basin, shown as degrees Celsius above or below average.Credits: NOAA Climate Prediction Center

In a typical El Niño, warmer than average SSTs off the coast of Peru lead to enhanced convection (rising air that condenses and forms clouds and storms) and above average rainfall in the eastern Pacific near to the Equator and lower than average rainfall over the western Pacific.

This map shows the average precipitation rate across the globe in millimetersThis map shows the average precipitation rate across the globe in millimeters

This map shows the average precipitation rate across the globe in millimeters per day for the past 30 days leading up to April 1st, 2019, calculated using the TRMM Multi-satellite Precipitation Analysis (TMPA) product.Credits: NASA’s Goddard Space Flight Center

However, recent estimates of monthly average rainfall and corresponding rainfall anomalies show heavy rain and above-average rainfall located across the Equatorial Central Pacific not the eastern Pacific. This is what is known as El Niño “Modoki” (Japanese for “a similar but different thing”) or a Central Pacific El Niño, wherein enhanced SSTs and rainfall occur near the dateline and not near the coast of Peru.

The estimates are generated from the legacy TRMM-based TMPA rainfall product at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. TRMM was the Tropical Rainfall Measuring Mission satellite that the rainfall product was based on and named for, but TRMM has been succeeded by the Global Precipitation Measurement (GPM) constellation of satellites. TMPA rainfall is the TRMM Multi-satellite Precipitation Analysis.  

This map shows where precipitation rates were higher or lower than the climatological average, for the past 30 days leading up tThis map shows where precipitation rates were higher or lower than the climatological average, for the past 30 days leading up t

This map shows where precipitation rates were higher or lower than the climatological average, for the past 30 days leading up to April 1st, 2019.Credits: NASA’s Goddard Space Flight Center

As with a traditional El Niño, the effects from a Central Pacific El Niño can still spread to the U.S. Also, clearly visible in the NASA-generated monthly average rainfall was an area of heavy rain over the southeast coast of Africa associated with the passage of Cyclone Idai, which devastated the region with torrential flooding.

For more information about El Nino, visit: https://www.pmel.noaa.gov/elnino/definitions
 

Learn more about NASA’s Precipitation measurements: http://pmm.nasa.gov/trmm    


By: Steve Lang

NASA’s Goddard Space Flight Center, Greenbelt, Md.

via Watts Up With That?

http://bit.ly/2Pdq3Tt

April 16, 2019 at 01:05PM

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