An Analysis of the Energetics of Tropical and Extra-Tropical Regions for Warm ENSO Composite Episodes

Abstract: This study focuses on the quantification and evaluation of the effects of ENSO (El Niño Southern Oscillation) warm phases, using a composite of five intense El Niño episodes between 1979 -2011 on the Energetic Lorenz Cycle for four distinct regions around the globe: 80°S -5°N (region 1), 50°S -5°N (region 2), 30°S -5°N (region 3), and 30°S -30°N(region 4), using Data from NCEP reanalysis-II. Briefly, the results showed that zonal terms of potential energy and kinetic energy were intensified, except for region … Show more

“…Other peaks of KE were present in the first half of February and March, but with values close to half of those obtained in January. This decrease in KE can be related to the presence of a CEN event, which was also found by Veiga et al (2013) and Sátyro and Veiga (2017) in warm ENSO episodes, due to the decrease in the transfer of KE from the environment to the area of the second band, as the warming generated by CEN in the entire eastern Pacific region near Peru did not allow for significant thermal gradients that generate energy transfer. The peaks of KE in the first half of February and March are related to maximums of precipitation in the ITCZ's second band (Figure 5), this can be explained by the increased of the convection during this period.…”

Behavior of the ITCZ second band near the Peruvian coast during the 2017 coastal El Niño

“…Other peaks of KE were present in the first half of February and March, but with values close to half of those obtained in January. This decrease in KE can be related to the presence of a CEN event, which was also found by Veiga et al (2013) and Sátyro and Veiga (2017) in warm ENSO episodes, due to the decrease in the transfer of KE from the environment to the area of the second band, as the warming generated by CEN in the entire eastern Pacific region near Peru did not allow for significant thermal gradients that generate energy transfer. The peaks of KE in the first half of February and March are related to maximums of precipitation in the ITCZ's second band (Figure 5), this can be explained by the increased of the convection during this period.…”

Behavior of the ITCZ second band near the Peruvian coast during the 2017 coastal El Niño