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- Title
Mean Climate Controls on the Simulated Response of ENSO to Increasing Greenhouse Gases.
- Authors
DiNezio, Pedro N.; Kirtman, Ben P.; Clement, Amy C.; Lee, Sang-Ki; Vecchi, Gabriel A.; Wittenberg, Andrew
- Abstract
Climate model experiments are analyzed to elucidate if and how the changes in mean climate in response to doubling of atmospheric CO2 (2xCO2) influence ENSO. The processes involved the development, transition, and decay of simulated ENSO events are quantified through a multimodel heat budget analysis. The simulated changes in ENSO amplitude in response to 2xCO2 are directly related to changes in the anomalous ocean heat flux convergence during the development, transition, and decay of ENSO events. The weakening of the Walker circulation and the increased thermal stratification, both robust features of the mean climate response to 2xCO2, play opposing roles in ENSO-mean climate interactions. Weaker upwelling in response to a weaker Walker circulation drives a reduction in thermocline-driven ocean heat flux convergence (i.e., thermocline feedback) and, thus, reduces the ENSO amplitude. Conversely, a stronger zonal subsurface temperature gradient, associated with the increased thermal stratification, drives an increase in zonal-current-induced ocean heat flux convergence (i.e., zonal advection feedback) and, thus, increases the ENSO amplitude. These opposing processes explain the lack of model agreement in whether ENSO is going to weaken or strengthen in response to increasing greenhouse gases, but also why ENSO appears to be relatively insensitive to 2xCO2 in most models.
- Subjects
ENVIRONMENTAL engineering; EL Nino; GREENHOUSE gases; HEAT budget (Geophysics); CARBON dioxide
- Publication
Journal of Climate, 2012, Vol 25, Issue 21, p7399
- ISSN
0894-8755
- Publication type
Article
- DOI
10.1175/JCLI-D-11-00494.1