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Official 90-day Outlooks are issued once each month near mid-month at 8:30am Eastern Time. Please consult the schedule of 30 & 90-day outlooks for exact release dates.

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    0.5mn MJJ 2025
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HOME> Outlook Maps>Seasonal Forecast Discussion
 
Prognostic Discussion for Long-Lead Seasonal Outlooks 
NWS Climate Prediction Center College Park MD
830 AM EDT Thu Apr 17 2025

SUMMARY OF THE OUTLOOK FOR NON-TECHNICAL USERS

At present, the El Niño Southern Oscillation (ENSO) is neutral, after La Niña
conditions diminished through last month. ENSO-neutral conditions are highly
likely for the first lead of the CPC Seasonal Outlook, with the CPC consensus
ENSO outlook indicating greater than an 80 percent probability. ENSO-neutral
conditions are expected to persist into summer with probabilities exceeding 50
percent.

The May-June-July (MJJ) 2025 temperature outlook favors above-normal
temperatures for southern and eastern regions of Alaska. Above-normal
temperatures are likely for the western Contiguous U.S. (CONUS), across the
Southern Plains into the Gulf Coast region, and for the Northeast. Above-normal
temperatures are favored with weaker probabilities for much of the Central
Plains, the Central Mississippi Valley, the central Great Lakes region, and the
Ohio and Tennessee Valleys, with probabilities for above-normal temperatures
below 50 percent. Equal Chances (EC) of below, near, and above-normal seasonal
mean temperatures are indicated for parts of the northern central CONUS.

The MJJ 2025 precipitation outlook slightly favors above-normal precipitation
across most of Alaska, excluding the Aleutians, parts of the southwestern
Mainland, and Southeast Alaska. The outlook favors below-normal precipitation
across most of the West from the Pacific Coast to most of the Great Plains.
Above-normal precipitation is slightly favored for a small area of Arizona and
New Mexico near the Mexico border, while EC is indicated for most of the region
from Southern California to western New Mexico and Texas. Above-normal
precipitation is favored for the central and eastern Gulf Coast northward up
the central Atlantic coast into the northeastern CONUS. For the remaining areas
of the central CONUS, where possible seasonal total precipitation amounts are
predicted to be similar to climatological probabilities, EC is forecast.

BASIS AND SUMMARY OF THE CURRENT LONG-LEAD OUTLOOKS
Note: For Graphical Displays of the Forecast Tools Discussed Below See:
http://www.cpc.ncep.noaa.gov/products/predictions/90day/tools/briefing

CURRENT ATMOSPHERIC AND OCEANIC CONDITIONS

The most recent seasonal mean Niño 3.4 index value for January through March is
-0.4 degrees Celsius (C), and the most recent weekly mean sea surface
temperature (SST) anomaly for the Niño 3.4 region is -0.1 C, as the equatorial
Pacific is warming in recent weeks. A small reservoir of colder than average
ocean temperatures below the surface remains near the Date Line at a depth of
50 to 200 meters. However, subsurface negative temperature anomalies present
several weeks ago in the Eastern Pacific have mostly disappeared. Positive SST
anomalies persist near the equator in the Western Pacific with anomalies
exceeding +2.0 degrees C at depths of 100 to 200 meters. Outgoing longwave
radiation (OLR) anomalies are negative, indicating suppressed convection, near
the Date Line. Low-level (850-hPa) wind anomalies remain easterly over the
west-central tropical Pacific Ocean. Upper-level (200-hPa) wind anomalies are
westerly over the central equatorial Pacific. Most recent, short term,
atmospheric and oceanic anomalies are indicative of ENSO-neutral conditions.
Negative soil moisture anomalies are observed across much of the Southwest, as
well as the Central and Northern Plains. A constructed analog (CA) statistical
forecast for the MJJ season from the present soil moisture anomaly pattern
predicts associated positive temperature anomalies in the West and weaker
negative temperature anomalies over the Central Mississippi Valley. Enhanced
precipitation relative to climatology is predicted for parts of the Southwest
Monsoon region in Arizona and New Mexico, while persistent negative
precipitation anomalies are predicted over the northwestern and north-central
CONUS. Enhanced precipitation over much of the eastern CONUS is associated with
the CA of soil moisture.

Negative SST anomalies, likely related to residual sea ice, are observed near
the west coast of Mainland Alaska, while positive SST anomalies are present
around the Alaska Peninsula and along the south and southeast coasts. Positive
SST anomalies are observed near the Pacific coast of the CONUS. Negative SST
anomalies are presently near the coast of the Mid-Atlantic. Positive SST
anomalies are observed near the Gulf Coast. Persistent coastal SST anomalies
may influence seasonal temperatures of adjacent areas.

PROGNOSTIC DISCUSSION OF SST FORECASTS

SST forecasts from most North American Multi-Model Ensemble (NMME) dynamical
models and from most statistical models, including the CPC Constructed Analog
(CA) and Canonical Correlation Analysis (CCA) predict near average SST
anomalies for the Niño 3.4 region in the the MJJ season. A consolidation of
dynamical and statistical forecasts for the Niño 3.4 region predicts
continuation of ENSO-neutral SST anomalies between negative and positive 0.5
degrees C through the boreal summer seasons. The CA and CCA predict
increasingly negative Niño 3.4 SST anomalies for next autumn and winter,
associated with a possible La Niña. However, the uncertainty in Niño 3.4 SST
forecasts at longer leads is fairly large for these seasons. The emergence of
El Niño conditions this year is considered less likely than La Niña or
ENSO-neutral conditions.

PROGNOSTIC TOOLS USED FOR U.S. TEMPERATURE AND PRECIPITATION OUTLOOKS

The seasonal temperature and precipitation outlooks are based primarily on
forecast tools derived from the NMME, including calibrated versions, such as
the Probability Anomaly Correlation (PAC) and the Calibration, Bridging and
Merging (CBaM), which calibrates the dynamical model forecast using Bayesian
Joint Probability (BJP) models, as well as generating statistical or “bridging”
BJP models of temperature and precipitation from dynamical model Niño 3.4
anomaly forecast predictors. An ENSO-OCN forecast tool is used to represent the
combined influence of the El Niño Southern Oscillation (ENSO) and decadal
timescale trends in temperature and precipitation, using the Optimum Climate
Normal (OCN). The presence and forecast of ongoing ENSO-neutral conditions
means that longer timescale decadal variability in temperature and
precipitation are generally the largest predictable signal for the seasonal
forecasts. Decadal variability and trends are determined from the OCN,
representing the difference between the most recent 15-year period average
seasonal temperature or precipitation and the average for the climatology
period, from 1991-2020. Outlooks for the cold seasons, from
October-November-December (OND) through March-April-May (MAM), are in part
influenced by the greater likelihood of a La Niña relative to the likelihood of
an El Niño. A consolidation of multiple statistical and dynamical forecast
tools that utilizes PAC calibration is used throughout the outlooks from MJJ
2025 to MJJ 2026.

PROGNOSTIC DISCUSSION OF OUTLOOKS - MJJ 2025 TO MJJ 2026

TEMPERATURE

The MJJ 2025 seasonal temperature outlook favors above-normal temperatures for
much of Alaska, excluding the west coast of Mainland Alaska where EC is
indicated, due in part to adjacent negative SST anomalies. Above-normal
temperatures continue to be favored through the August-September-October (ASO)
season for Mainland and Southeast Alaska, supported primarily by NMME
forecasts. Areas where EC is indicated expand in later leads where signals are
weaker in forecast tools, such as the ENSO-OCN. Decadal variability leads to a
signal for above-normal temperatures for parts of the west and north coasts
through the coming year.

Above-normal temperatures are favored across nearly all of the CONUS through
the first five seasonal leads, with higher probabilities for the West, the
southern CONUS, and the Northeastern CONUS, supported by dynamical model
forecasts and the temperature consolidation. An area of EC is indicated for the
north-central CONUS in the MJJ 2025 season, where statistical tools and
calibrated dynamical models indicate lower chances of above-normal
temperatures. Weaker probabilities favoring above-normal temperatures are also
forecast for the Central Mississippi and Ohio Valleys, related to statistical
guidance such as the soil moisture CA tool. Decadal variability and forecast
guidance from the ENSO-OCN tool leads to favored above-normal temperatures
across the CONUS for June-July-August (JJA) 2025 through ASO 2025. An area of
EC emerges and expands across much of the north-central and northwestern CONUS
in the next several leads into the start of winter, related to the relative
greater chances of ENSO-neutral and La Niña conditions compared to El Niño
conditions. During the upcoming winter, December-January-February (DJF) through
early spring of 2026, February-March-April (FMA), slightly enhanced
probabilities for below-normal temperatures appear in parts of the Northwest.
The longest lead seasonal outlooks through MJJ 2026 are based primarily on
signals due to decadal variability as shown by the OCN tool.

PRECIPITATION

The MJJ though ASO 2025 precipitation outlooks favor above-normal precipitation
for most of Mainland Alaska, supported primarily by dynamical model forecasts
from the NMME and by decadal trends for most areas. Signals for above-normal
precipitation are more confined to western and northern regions of Alaska for
the seasons that follow, relying on the ENSO-OCN tool and primarily resulting
from decadal trends . Although greater precipitation is historically associated
with cooler temperatures in many areas, decadal trends tend to favor both
above-normal temperatures and above-normal precipitation, driven in part by
anomalous decreasing sea ice and warmer ocean water temperatures.

Below-normal precipitation is favored across most of the western and central
CONUS, excluding the southwestern CONUS, in the MJJ and JJA 2025 seasons,
supported by both dynamical and statistical model forecasts and the
consolidation. The area of favored below-normal precipitation is more confined
to the northern central CONUS in longer leads through
September-October-November (SON) 2025, as the signal decreases in forecast
tools. A small area of enhanced probabilities for above-normal precipitation
emerges in the Southwest in the outlook for MJJ 2025 and expands and persists
through the ASO 2025 season. The likelihood of an enhanced Southwest Monsoon is
increased due to current negative soil moisture anomalies and predicted
above-normal temperatures. Above-normal precipitation is favored for parts of
the Gulf and Atlantic Coasts for MJJ through SON 2025, supported primarily by
the consolidation of dynamical and statistical models. Enhanced seasonal
precipitation is in part associated with above average tropical Atlantic SSTs
and predicted ENSO-neutral conditions.

In the late autumn of 2025 through early spring of 2026, precipitation signals
are associated with decadal trends , decreased chances of El Niño conditions,
and favored ENSO-neutral or La Niña conditions. This leads to enhanced
probabilities for below-normal precipitation for parts of the eastern Gulf and
Atlantic Coasts from NDJ 2025 through FMA 2026 and for parts of the Southwest
near the Mexico border from DJF through MAM 2026. Probabilities for
above-normal precipitation are enhanced for parts of the Northern Rockies and
northwestern CONUS from NDJ 2025 though FMA 2026 and for parts of the Midwest
from DJF through FMA 2026. At the two longest leads, the seasonal outlooks
favor below normal precipitation for parts of the northwestern CONUS, entirely
due to reliable signals from decadal trends . EC is indicated for remaining
areas of the CONUS and Alaska, where signals are weak.

FORECASTER: Dan Collins

The Climatic normals are based on conditions between 1991 and 2020, following
the World Meterological Organization convention of using the most recent 3
complete decades as the climatic reference period.  The probability anomalies
for temperature and precipitation based on these new normals better represent
shorter term climatic anomalies than the forecasts based on older normals.

For a description of of the standard forecast tools - their skill- and the
forecast format please see our web page at
http://www.cpc.ncep.noaa.gov/products/predictions/long_range/tools.html
(Use Lower Cas e Letters)
Information on the formation of skill of the CAS forecasts may be found at:
http://www.cpc.ncep.noaa.gov/products/Soilmst_Monitoring/US/Outlook/outlook.shtm
l
(use lowercase letters)
Notes - These climate outlooks are intended for use prior to the start of their
valid period.  Within any given valid period observations and short and medium
range forecasts should be consulted.

This set of outlooks will be superseded by the issuance of the new set next
month on May 15 2025


1991-2020 base period means were implemented effective with the May 20, 2021
forecast release.
$$

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Page last modified: August 15, 2024
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