Skip Navigation Links www.nws.noaa.gov 
NOAA logo - Click to go to the NOAA home page National Weather Service   NWS logo - Click to go to the NWS home page
Climate Prediction Center

 
HOME > Expert Assessments > Climate Diagnostics Bulletin
 

Tropical Highlights - June 2000

Negative sea surface temperature (SST) anomalies continued to weaken across the tropical central Pacific during June, as the magnitude of SST anomalies was less than 1°C throughout the region (Fig. T18). As a result, the Niņo 3.4 and Niņo 4 region indices were only 0.4°C and 0.5°C, respectively, during June (Table T2, Fig. T5). These were the smallest negative values for these indices since May 1998 and July 1998, respectively (Fig. T5). Across the eastern Pacific negative SST anomalies returned, after becoming briefly positive in April and near zero in May (Table T2).

The oceanic thermocline remained deeper than normal in the equatorial west-central and western Pacific during the month (Fig. T15), with temperatures again averaging more than 4.0°C above normal at thermocline depth (Fig. T17). Over the eastern Pacific, the negative thermocline depth anomalies continued to weaken (Fig. T15), resulting in a lessening of negative temperature anomalies in the upper 100 m of the ocean (Fig. T17). As a result subsurface temperatures more than 1.0°C below normal were confined to the region between 95°W and 130°W. The recent evolution of the oceanic thermocline and subsurface temperature anomalies is similar to that observed during March-June 1999, with the major differences being an increase in the magnitude of the positive subsurface temperature anomalies in the western Pacific and a decrease in the magnitude of the negative anomalies in the eastern Pacific. This basic east-west dipole of subsurface temperature anomalies, which is typical of the mature phase of La Niņa episodes, has been highly persistent since late 1998.

The pattern of tropical convection during June [as inferred from anomalous outgoing longwave radiation (OLR)] remained consistent with cold episode conditions, with suppressed convection over the western and central equatorial Pacific and enhanced convection over Indonesia (Fig. T25). Elsewhere, convection was enhanced over southeast Asia and India during the month (Fig. T25), implying a continued strong start to the Indian/Southeast Asian summer monsoon system. Convection was also enhanced over Mexico/Central America and portions of the southwestern United States, in association with an amplified monsoon circulation in that region. Strong monsoonal circulations in each of these regions are consistent with ongoing La Niņa conditions.

The pattern of tropical convection over the central and western Pacific was again accompanied by an enhanced Walker circulation across the central equatorial Pacific (Fig. T29). However, consistent with the decrease in magnitude of the negative SST anomalies across the central equatorial Pacific in recent months, the low-level (850 hPa) easterly wind anomalies across the central and western tropical Pacific have also decreased (Fig. T7). At upper-levels (200-hPa), well-developed mid-Pacific troughs were again observed over the low-latitudes of both hemispheres, with anticyclonic circulation anomalies dominating the subtropics and lower mid-latitudes of both hemispheres (Figs. T21, T22). This anomaly pattern has also persisted since mid-1998, in association with ongoing La Niņa conditions.

The sea level pressure (SLP) pattern across the Tropics during June featured weak positive anomalies across the tropical central and eastern Pacific and weak negative anomalies over Indonesia/ Malaysia (Fig. T19). This pattern is consistent with ongoing cold episodes, and was associated with a positive value of the equatorial Southern Oscillation Index (SOI) (1.2) (Fig. T2). The June value of the Tahiti-Darwin SOI was 0.6 (Table T1, Fig. T2), as SLP at Darwin was above normal in association with an anomalously strong high pressure system that dominated all of Australia (Fig. T19).


NOAA/ National Weather Service
NOAA Center for Weather and Climate Prediction
Climate Prediction Center
5830 University Research Court
College Park, Maryland 20740
Page Author: Climate Prediction Center Internet Team
Page last modified: August 24, 2007
Disclaimer
Information Quality
Credits
Glossary
Privacy Policy
Freedom of Information Act (FOIA)
About Us
Career Opportunities