Frontiers in Climate (Dec 2021)

ENSO Amplitude Asymmetry in Met Office Hadley Centre Climate Models

  • Sarah Ineson,
  • Nick J. Dunstone,
  • Hong-Li Ren,
  • Richard Renshaw,
  • Malcolm J. Roberts,
  • Adam A. Scaife,
  • Adam A. Scaife,
  • Kuniko Yamazaki

DOI
https://doi.org/10.3389/fclim.2021.789869
Journal volume & issue
Vol. 3

Abstract

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Long climate simulations with the Met Office Hadley Centre General Circulation Model show weak El Niño-Southern Oscillation (ENSO) amplitude asymmetry between El Niño and La Niña phases compared with observations. This lack of asymmetry is explored through the framework of a perturbed parameter experiment. Two key hypotheses for the lack of asymmetry are tested. First, the possibility that westerly wind burst activity is biased is explored. It is found that the observed difference in wind burst activity during El Niño and La Niña tends to be underestimated by the model. Secondly, the warming due to subsurface non-linear advection is examined. While the model exhibits non-linear dynamic warming during both La Niña and El Niño, and thus a contribution to ENSO asymmetry, it is shown to be consistently underestimated in comparison with ocean reanalyses. The non-linear zonal advection term contributes most to the deficiency and the simulation of the anomalous zonal currents may be playing a key role in its underestimation. Compared with the ocean reanalyses, the anomalous zonal currents associated with ENSO are too weak in the vicinity of the equatorial undercurrent and the surface wind driven zonal currents extend too deep.

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