During El Niño episodes there is a pronounced eastward extension of deep tropical
convection and deep tropospheric heating to well east of the date line. This heating acts
to extend the subtropical ridges in both hemispheres to well east of the date line, and to
increase the north-to-south temperature difference along the poleward flanks of the
subtropical ridges in this region. These conditions are generally most prominent during
the respective hemisphere's winter season, when they contribute to 1) a pronounced
eastward extension of the midlatitude jet stream to the extreme eastern Pacific, and 2) an
equatorward shift of the jet streams over the eastern Pacific. Overall, these conditions
reflect an increasing zonally uniform distribution of both temperature and winds across
the Pacific basin, and are a major factor affecting the winter weather patterns and storm
tracks in the middle latitudes over both North and South America.
During El Niño episodes, a large-scale upper-level anticyclonic circulation (A's)
anomaly is evident in both hemispheres over the subtropical latitudes of the eastern
Pacific. This anticyclonic anomaly dipole features enhanced westerlies along its poleward
flanks in the middle latitudes of both hemispheres and anomalous easterly winds across the
equatorial eastern Pacific. In the subtropics and middle latitudes, these anomalies
reflect the eastward extension of the subtropical ridge noted above, as well as the
eastward extension of the wintertime jet streams to well east of the date line. In the
Tropics, they are consistent with a reduced strength of the equatorial Walker Circulation
typical of El Niño episodes.
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