Abstract
The impact of El Niño-Southern Oscillation (ENSO) on the late-winter extra-tropical stratosphere (January–March) is assessed in a multi-model framework. Three state-of-the-art atmospheric models are run with prescribed SST anomalies representative of a strong ENSO event, with symmetric patterns for El Niño and La Niña. The well-known temperature perturbation in the lower stratosphere during El Niño is captured by two models, in which the anomalous warming at polar latitudes is accompanied by a positive geopotential height anomaly that extends over the polar cap. In the third model, which shows a lack of temperature anomalies over the pole, the anomalous anticyclone is confined over Canada and does not expand to the polar cap. This anomalous center of action emerges from the large-scale tropospheric Rossby wave train forced by ENSO, and shrinking/stretching around the polar vortex is invoked to link it to the temperature response. No disagreement across models is found in the lower stratosphere for La Niña, whose teleconnection is opposite in sign but weaker. In the middle-upper stratosphere (above 50 hPa) the geopotential height anomalies project on a wavenumber-1 (WN1) pattern for both El Niño and, more weakly, La Niña, and show a westward tilt with height up to the stratopause. It is suggested that this WN1 pattern arises from the high-latitude lower-stratospheric anomalies, and that the ENSO teleconnection to the polar stratosphere can be interpreted in terms of upward propagation of the stationary Rossby wave train and quasi-geostrophic balance, instead of wave breaking.
Highlights
When referring to El Niño-Southern Oscillation (ENSO), the term “stratospheric pathway” is commonly used to allude to its extra-tropical teleconnection (e.g. Butler et al 2014)
Our results suggest that the ENSO response in the stratosphere is mainly driven by the upward propagation of the wavenumber-1 (WN1) component of the tropospheric Rossby wave train triggered by ENSO, starting over Canada at the tropopause and reaching the stratopause while tilting westward with height and projecting on the stratospheric Aleutian High
The ENSOforced geopotential height anomalies at high latitudes are hydrostatically consistent with temperature anomalies around the polar vortex, which is interpreted in terms of shrinking/stretching since they are linked to a distortion of the vortex without wave breaking
Summary
When referring to El Niño-Southern Oscillation (ENSO), the term “stratospheric pathway” is commonly used to allude to its extra-tropical teleconnection (e.g. Butler et al 2014). With this expression, it is implied that is ENSO inducing a response in the stratosphere, and that this response is later transferred to the surface. La Niña has been associated with the opposite response, a lower-stratospheric cooling and a strengthening of the westerly flow linked to the polar vortex Addressing the (a)symmetry of the ENSO stratospheric response is one of the aims of the present model-based study, taking advantage of an experimental set-up with symmetric idealized SST forcing to represent El Niño and La Niña
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