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*The coming collapse of "El Nino" and flip to "La Nina"...potential ramifications on the upcoming Atlantic Basin tropical season*

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Weather forecasting and analysis, space and historic events, climate information

*The coming collapse of "El Nino" and flip to "La Nina"...potential ramifications on the upcoming Atlantic Basin tropical season*

Paul Dorian

This loop of sea surface temperature anomalies runs from 29 November 2023 to 14 February 2024 and its reflects El Nino conditions across the equatorial part of the Pacific Ocean with warmer-than-normal water. However, the last few frames indicate that the “departures-from-normal” of the sea surface temperatures are lessening and this is part of the process that will likely result in La Nina (colder-than-normal water) conditions by the late spring or early summer across the tropical Pacific Ocean. Map courtesy NOAA/CPC

Overview

Above-normal sea surface temperatures continue this month across most of the equatorial part of the Pacific Ocean, but there are signs that this El Nino episode which began about a year ago will flip to La Nina conditions (colder-than-normal) by the early part of the 2024 summer season in the Northern Hemisphere. A flip from El Nino to La Nino across the equatorial Pacific Ocean can have big implications on the upcoming 2024 Atlantic Basin tropical season. In fact, this expected dramatic change in sea surface temperatures across the Pacific Ocean may be a major contributor to a very active tropical season in the Atlantic Basin as atmospheric conditions are typically more favorable (lower wind shear) during La Nina episodes for the development and intensification of tropical storms. A second favorable factor for a very active tropical season in the Atlantic Basin is the likely continuation there of widespread warmer-than-normal sea surface temperatures. Finally, as oceanic cycles play a critical role in global temperatures, a flip from El Nino to La Nina in the world’s largest ocean could mean a return to closer-to-normal levels following a spike during the past year or so.  

Sub-surface water temperature anomalies (°C) down to a depth of 450 meters are shown here from the equatorial part of the Pacific Ocean in the period from 14 December 2023 to February 12th 2024. Colder-than-normal water (shown in blue) is now lurking just beneath the surface (top) across much of the tropical Pacific and the warm water (shown in red, orange) at and just below the surface level has lessened in its “departures-from-normal” in recent weeks. Map courtesy NOAA/CPC, International Research Institute

Details

A transition from El Nino to ENSO-neutral is likely by spring 2024 and odds are increasing for a full-blown moderate-to-strong La Nina by the time we get to the summer season in the Northern Hemisphere which coincides with the first part of the Atlantic Basin (includes Atlantic Ocean, Caribbean Sea, Gulf of Mexico) tropical season. This El Nino event began about a year ago following back-to-back-to-back years in which La Nina dominated the scene in the equatorial Pacific Ocean. For the past several years, most El Nino events have been rather short-lived lasting on average about 12-18 months whereas La Nina occurrences have usually lasted for a considerably longer periods of time.

Forecasts of sea surface temperature (SST) anomalies for the “Nino 3.4” region (5 °N-5°S, 120°W-170°W) by a collection of computer forecast models. Courtesy NOAA, ECMWF, Canadian Met Centre, International Research Institute

While sea surface temperatures are currently at above-normal levels in the tropical Pacific Ocean, there are changes lurking just beneath the surface…literally. Water temperatures from the surface level to about 50 meters down are still above-normal as we approach the middle of February; however, the departures from normal have lessened noticeably in recent weeks. In addition, colder-than-normal water has gradually risen closer to the surface in recent weeks. Also, low-level winds were near average over the equatorial Pacific in recent weeks while upper-level wind anomalies were generally easterly over the east-central Pacific. Convection (i.e., thunderstorm activity) remained slightly enhanced in the central Pacific and close to average in areas to the west of there. Collectively, this coupled ocean-atmosphere system reflects an El Nino in an overall weakening phase.

The El Nino region of the Pacific Ocean is sub-divided by meteorologists into sub-sections as outlined on this map with “Nino 3.4” in the central part of the equatorial Pacific Ocean and “Nino 1+2” positioned near the west coast of South America.

In addition to oceanic and atmospheric observational reasons to support the idea of a change in the near-term, numerous computer forecast models indicate a transition to “ENSO-neutral” during the spring 2024 and then to La Nina during summer 2024. Specifically, temperatures in the “El Nino 3.4” region (central part of the equatorial Pacific Ocean) are predicted to drop in most computer forecast models from the current 1.5-2.0°C higher-than-normal levels to near neutral during the spring season, and then down to 1.0 °C or so below-normal by the early part of the summer season.

The Multivariate ENSO Index (MEI), which combines both oceanic and atmospheric variables, facilitates in a single index an assessment of ENSO. It especially gives real-time indications of ENSO intensity, and through historical analysis - provides a context for meaningful comparative study of evolving conditions. The MEI is said to capture a more holistic representation of the atmospheric and oceanic anomalies that occur during ENSO events than do single-variables timeseries like the “NinoSST” indices. Plot courtesy NOAA/PSL

In terms of impact on weather, El Nino has indeed contributed to a stormy winter season across California with numerous powerful ocean storms moving from the Pacific Ocean into the western part of the US and this unsettled pattern is likely to continue at least for the next few weeks. This enhanced storm activity in California is rather typical of an El Nino winter season with plenty of rain in low-lying sections and snow in the higher elevations. (By the way, what was not typical was the La Nina winter season of 2022-2023 in which California was pounded by numerous storms resulting in high rainfall amounts in low-lying sections and record snowfall in the higher elevations of the Sierra Nevada Mountains).

The likelihood of La Nina conditions this summer (tropical) season in the equatorial Pacific Ocean is a “red flag” for enhanced tropical activity in the Atlantic Basin. A second favorable factor for a very active season is the likelihood for continued warmer-than-normal sea surface temperatures in the breeding grounds of the tropical Atlantic. Map courtesy NOAA, tropicaltidbits.com

In terms of an impact on the upcoming 2024 Atlantic Basin tropical season, La Nina conditions in the Pacific Ocean can be a critical contributing factor to what I fear could be a very active year in the Atlantic Ocean, Caribbean Sea, and Gulf of Mexico. In general, La Nina summer seasons feature lower wind shear levels across the breeding grounds of the Atlantic Ocean and this reduction is more favorable for the development and intensification of tropical storms (shear defined as change of wind speed and direction with height).

This forecast map by the North American Multi-Model Ensemble (NMME) of sea surface temperature anomalies for the August/September/October 3-month time period features colder-than-normal conditions (La Nina) across the equatorial Pacific Ocean. Map courtesy NOAA

In addition to the favorable aspect for tropical activity helped along by La Nina conditions in the Pacific, the breeding grounds of the tropical Atlantic Ocean are currently featuring much warmer-than-normal sea surface temperatures and this pattern is likely to continue right into the summer (tropical) season. Warmer-than-normal sea surface temperatures in the Atlantic Basin is favorable for tropical storm development and intensification. One final note on the potential impact of La Nina, oceanic cycles are critical in terms of global temperature patterns; especially, when dealing with the world’s largest (Pacific) ocean. There has been a spike in global temperatures since the formation of this latest El Nino about a year ago and, if indeed, La Nina forms and is sustained - as is likely - then global temperatures are likely to return to much closer-to-normal levels.

Meteorologist Paul Dorian
Arcfield
arcfieldweather.com

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