Oceanic El-Ni\~no wave dynamics and climate networks

Abstract

Oceanic Kelvin and Rossby waves play an important role in tropical climate and dynamics. Here we develop and apply a climate network approach to quantify the characteristics of related oceanic waves, based on sea surface height satellite data. We associate the majority of dominant long distance (≥ 500 km) links of the network with (i) equatorial Kelvin waves, (ii) off-equatorial Rossby waves, and (iii) tropical instability waves. Notably, we find that the location of the hubs of out-going ( 180E) and in-coming ( 140W) links of the climate network coincide with the locations of the Kelvin wave initiation and dissipation, respectively. We also find that this dissipation at 140W is much weaker during times. Moreover, the hubs of the off-equatorial network coincide with the locations of westerly wind burst activity and high wind vorticity, two mechanisms that were associated with Rossby waves activity. The quantitative methodology and measures developed here can improve the understanding of dynamics and possibly its prediction.