Forecast Forum
The canonical correlation analysis (CCA) forecast of
SST in the central Pacific (Barnett et al. 1988, Science, 241,
192‑196; Barnston and Ropelewski
1992, J. Climate, 5, 1316‑1345), is shown in Figs. F1 and F2. This forecast is produced routinely by the
Prediction Branch of the Climate Prediction Center. The
predictions from the National Centers for Environmental Prediction (NCEP)
Coupled Forecast System Model (CFS03) are presented in Figs. F3 and
F4a, F4b. Predictions from the
Markov model (Xue, et al. 2000: J. Climate, 13,
849‑871) are shown in Figs. F5 and F6. Predictions from the latest version of the
LDEO model (Chen et al. 2000: Geophys. Res.
Let., 27, 2585‑2587) are shown in Figs. F7
and F8. Predictions using linear inverse modeling (Penland and Magorian 1993: J.
Climate, 6, 1067‑1076) are shown in Figs. F9 and F10. Predictions from the ENSO‑CLIPER
statistical model (Knaff and Landsea 1997, Wea. Forecasting, 12, 633‑652)
are shown in Fig. F11. Niño 3.4
predictions are summarized in Fig. F12, provided by the Forecasting and
Prediction Research Group of the IRI.
The CPC and the contributors to the Forecast Forum caution
potential users of this predictive information that they can expect only modest
skill.
ENSO Alert System Status: El Niño Advisory
Outlook:
El Niño is likely to
continue through the Northern Hemisphere summer 2019 (70% chance) and fall
(55-60% chance).
Discussion:
During April, above-average
sea surface temperatures (SSTs) persisted across most of the equatorial Pacific
Ocean (Fig. T18), reflecting the ongoing El
Niño. All of the monthly Niño indices
were near +0.7°C, except for Niño-1+2 index, which was at +0.1°C (Table T2). While surface indicators were relatively unchanged during the month, the anomalous upper-ocean
subsurface temperatures (averaged across 180°-100°W) decreased through April.
Subsurface temperature anomalies remained positive close to the surface across
the equatorial Pacific Ocean, but were increasingly negative at depth (Fig. T17). Suppressed tropical convection was evident
near Indonesia and enhanced convection continued near the Date Line, though
weaker compared to the last two months (Fig.
T25).
Low-level wind anomalies were weak over the tropical Pacific Ocean, with
easterly anomalies evident over the western Pacific (Fig. T20). Upper-level wind
anomalies were easterly over the western Pacific and westerly over most of the
eastern Pacific (Fig. T21).
Overall, oceanic and atmospheric conditions were consistent with El
Niño.
The majority of models in the
IRI/CPC plume predict El Niño to continue through 2019, with SST anomalies in
the Niño-3.4 region clustering between +0.5°C and +1.0°C (Figs. F1-F12).
However, model predictions made during the spring tend to be less
accurate relative to the rest of the year, so uncertainty remains whether this
outcome will occur. In the shorter term,
a recent increase in westerly wind anomalies over the west-central Pacific
Ocean portends the possible development of another downwelling
oceanic Kelvin wave, which could build up the above-average subsurface
temperatures needed for El Niño to persist. In summary, El Niño is likely to continue through the Northern Hemisphere summer 2019
(70% chance) and fall (55-60% chance).
Weekly updates of oceanic and
atmospheric conditions are available on the Climate Prediction Center homepage
(El
Niño/La Niña Current Conditions and Expert Discussions).