The 2023 extreme coastal El Niño: Atmospheric and air-sea coupling mechanisms

In the boreal spring of 2023, an extreme coastal El Nino struck the coastal regions of Peru and Ecuador, causing devastating rainfalls, flooding, and record dengue outbreaks. Observations and ocean model experiments reveal that northerly alongshore winds and westerly wind anomalies in the eastern equatorial Pacific, initially associated with a record-strong Madden-Julian Oscillation and cyclonic disturbance off Peru in March, drove the coastal warming through suppressed coastal upwelling and downwelling Kelvin waves. Atmospheric model simulations indicate that the coastal warming in turn favors the observed wind anomalies over the far eastern tropical Pacific by triggering atmospheric deep convection. This implies a positive feedback between the coastal warming and the winds, which further amplifies the coastal warming. In May, the seasonal background cooling precludes deep convection and the coastal Bjerknes feedback, leading to the weakening of the coastal El Nino. This coastal El Nino is rare but predictable at 1 month lead, which is useful to protect lives and properties.

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Author Peng, Q.
Xie, S.
Passalacqua, G. A.
Miyamoto, A.
Deser, C.
Publisher UCAR/NCAR - Library
Publication Date 2024-03-22T00:00:00
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Topic Category geoscientificInformation
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Metadata Date 2025-07-10T20:03:25.651448
Metadata Record Identifier edu.ucar.opensky::articles:27299
Metadata Language eng; USA
Suggested Citation Peng, Q., Xie, S., Passalacqua, G. A., Miyamoto, A., Deser, C.. (2024). The 2023 extreme coastal El Niño: Atmospheric and air-sea coupling mechanisms. UCAR/NCAR - Library. https://n2t.org/ark:/85065/d74t6pkt. Accessed 04 August 2025.

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