Planton Y. Y., Vialard Jérôme, Guilyardi E., Lengaigne Matthieu, McPhaden M. J. (2021). The asymmetric influence of ocean heat content on ENSO predictability in the CNRM-CM5 coupled general circulation model. Journal of Climate, 34 (14), 5775-5793. ISSN 0894-8755.
Titre du document
The asymmetric influence of ocean heat content on ENSO predictability in the CNRM-CM5 coupled general circulation model
Planton Y. Y., Vialard Jérôme, Guilyardi E., Lengaigne Matthieu, McPhaden M. J.
Source
Journal of Climate, 2021,
34 (14), 5775-5793 ISSN 0894-8755
Unusually high western Pacific Ocean oceanic heat content often leads to El Nino about 1 year later, while unusually low heat content leads to La Nina. Here, we investigate if El Nino-Southern Oscillation (ENSO) predictability also depends on the initial state recharge, and we discuss the underlying mechanisms. To that end, we use the CNRM-CM5 model, which has a reasonable representation of the main observed ENSO characteristics, asymmetries, and feedbacks. Observations and a 1007-yr-long CNRM-CM5 simulation indicate that discharged states evolve more systematically into La Nina events than recharged states into neutral states or El Nino events. We ran 70-member ensemble experiments in a perfect-model setting, initialized in boreal autumn from either recharged or discharged western Pacific heat content, sampling the full range of corresponding ENSO phases. Predictability measures based both on spread and signal-to-noise ratio confirm that discharged states yield a more predictable ENSO outcome one year later than recharged states. As expected from recharge oscillator theory, recharged states evolve into positive central Pacific sea surface temperature anomalies in boreal spring, inducing stronger and more variable westerly wind event activity and a fast growth of the ensemble spread during summer and autumn. This also enhances the positive wind stress feedback in autumn, but the effect is offset by changes in thermocline and heat flux feedbacks. The state-dependent component of westerly wind events is thus the most likely cause for the predictability asymmetry in CNRM-CM5, although changes in the low-frequency wind stress feedback may also contribute.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Sciences du milieu [021]
;
Limnologie physique / Océanographie physique [032]
