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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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More Outlooks
    0.5mn JAS 2022
    1.5mn ASO 2022
    2.5mn SON 2022
    3.5mn OND 2022
    4.5mn NDJ 2022
    5.5mn DJF 2022
    6.5mn JFM 2023
    7.5mn FMA 2023
    8.5mn MAM 2023
    9.5mn AMJ 2023
   10.5mn MJJ 2023
   11.5mn JJA 2023
   12.5mn JAS 2023
    0.5mn Jul 2022

Tools Used (see Discussion for explanation)
HOME> Outlook Maps>Seasonal Forecast Discussion
Prognostic Discussion for Long-Lead Seasonal Outlooks 
NWS Climate Prediction Center College Park MD
830 AM EDT Thu Jun 16 2022


The July-August-September (JAS) 2022 temperature outlook favors above-normal
seasonal mean temperatures across a majority of the U.S. The largest
probabilities (more than 60 percent) of above-normal temperatures are forecast
for New England and parts of the West. The JJA precipitation outlook depicts
elevated probabilities of above-normal precipitation for parts of the East,
Southwest, and Alaska, while below-normal precipitation is more likely across
much of the Great Plains, western Corn Belt, upper Mississippi Valley, and the
northern to central Rockies. Equal chances (EC) are forecast in areas where the
likelihood of seasonal mean temperatures or seasonal accumulated precipitation
amounts are expected to be similar to climatological probabilities.

A La Niña advisory remains in effect and equatorial sea surface temperatures
(SSTs) are below average across the central and eastern Pacific Ocean, and the
tropical Pacific atmosphere is consistent with a La Niña. La Niña is favored to
continue through the Northern Hemisphere summer (52% chance in JAS 2022), with
slightly increased probabilities throughout the Northern Hemisphere fall and
early winter 2022 (58-59% chance).

Note: For Graphical Displays of the Forecast Tools Discussed Below See:


Oceanic and atmospheric observations across the equatorial Pacific remain
consistent with La Niña conditions. The observed weekly SSTs, centered on June
8, feature negative anomalies throughout the central and eastern equatorial
Pacific with the largest negative anomalies of -0.5 to -1 degrees C generally
from the Date Line to 120W. These negative anomalies have weakened since early
May. Subsurface temperature anomalies (averaged between 180 to 100 degrees W
and 0-300m depth) also weakened during the spring with values approaching zero.
From May 13 to June 7, low-level easterly and upper-level westerly wind
anomalies persisted. Suppressed convection continued over the western and
central Pacific, while convection was near average or slightly enhanced across
parts of Indonesia.

Multiple atmosphere Kelvin waves crossed the global tropics throughout this
past spring. More recently during late May into the beginning of June, the
Real-time Multivariate Madden Julian Oscillation (RMM) index depicted a slower
moving and developing Madden Julian Oscillation (MJO) event. However, the
propagation of this MJO stalled over the Western Hemisphere during early to
mid-June and the amplitude of the RMM index decreased. As of June 15, GEFS and
ECMWF ensemble spread is very large on the MJO evolution during the next two
weeks. Therefore, forecast confidence is low on how much, if any, the MJO
modulates tropical cyclone development across the East Pacific and Atlantic
basins during the latter half of June and heading into July.

Positive SST anomalies, surrounding Alaska, have increased in magnitude since
late May with the largest anomalies (more than +2.5 degrees C) observed along
coastal southwestern Alaska. Following a prolonged period of anomalously cold
SSTs along the West Coast, SSTs are now near average. Positive SST anomalies
continued across the northern Gulf of Mexico and coastal waters from the
Mid-Atlantic northward to New England.


The CPC SST Consolidation for the Nino 3.4 region indicates a slight decrease
in the magnitude of the negative anomalies this summer, followed by a decline
to between -0.5 and -1 degrees C during the fall season. The spread among the
statistical tools is large this fall, with outcomes ranging from slightly
positive (CCA) to a moderate strength La Niña (constructed analog). The NMME
maintains a La Niña with negative anomalies at or below -0.5 degrees C
persisting through DJF 2022-2023. Since the observed oceanic and atmospheric
anomalies have weakened recently, uncertainty is high on whether La Niña may
transition to ENSO-neutral conditions this summer. As of early June, the
CPC/IRI consensus forecast calls for a 52 percent chance of La Niña during
July-August-September before slightly increasing to around 58 percent through
the fall and early winter.


Tools used for the seasonal outlooks included dynamical model guidance such as
the North American Multi-Model Ensemble (NMME), the Calibration, Bridging, and
Merging (CBaM) version of the NMME, and the Copernicus International
Multi-Model Ensemble (C3S). Current soil moisture conditions played a role in
the JAS temperature outlook, primarily across the Great Plains and Southwest.
The consolidation tool, which includes NMME input and various statistical
tools, was used more extensively beyond lead 5, NDJ. La Niña composites were
considered through next winter since La Niña is the most likely outcome.
Decadal trends in temperature and precipitation were a factor at all time leads
but relied upon the most during the spring and summer 2023.



A broad coverage of above-normal temperatures is favored throughout much of the
U.S. during JAS, but probabilities vary regionally. Along the East Coast,
above-normal temperatures are most likely for New England due to: excellent
agreement among tools including the inputs to the NMME, decadal temperature
trends, and large positive SST anomalies nearby. Due to recent heavy rainfall,
anomalously wet soil moisture is now present across southeast Kansas, northeast
Oklahoma, and the Ozarks region. This was a contributing factor to a weakness
in the probabilities for above normal temperatures for parts of the central
CONUS along with the latest calibrated NMME and neutral decadal trends during
mid to late summer. The NMME and C3S support large probabilities for above
normal temperatures, centered across Utah and western Colorado, with
probabilities decreasing to the south which is consistent with the JAS
precipitation outlook slightly favoring an enhanced Monsoon. EC is forecast for
parts of the northern Great Plains, based on anomalously wet soil moisture and
the NMME forecast. EC is also forecast for parts of the Pacific Northwest where
the July outlook is slightly favoring below-normal temperatures and is
supported by the calibrated NMME. Above-normal temperatures are slightly
favored for Mainland Alaska, although forecast confidence is relatively low
given weak signals among the tools and lack of skill recently.

Beginning in the fall 2022 and through winter 2022-2023, minor changes were
made to the previous outlook, released on May 19. These modifications were
based on the latest dynamical model solutions and La Niña composites. During
the spring and summer 2023, the temperature outlook is generally consistent
with decadal trends .


For a majority of the CONUS and Alaska during JAS, either EC or limited
probabilities (below 40 percent) for below or above-normal precipitation are
forecast due to very weak signals in the calibrated NMME. Based on a consensus
between the latest dynamical models and La Niña precipitation composites,
below-normal precipitation is most likely for the north-central Rockies, much
of the Great Plains, and the western Corn Belt. The week-2 dynamical models ,
which cover the last week of June, are consistent that low to mid-level
moisture is likely to increase across the Southwest due to southeasterly flow.
Week 3-4 dynamical models , valid for the first half of July, depict a favorable
position of the 500-hPa ridge axis for enhanced monsoon rainfall. Based on
these factors for a robust start to the Monsoon, the July precipitation
outlook, and the typical inverse relationship in Monsoon rainfall following a
dry winter, above-normal precipitation is favored for the Desert Southwest. The
favored area of wetness along parts of the East and Gulf Coasts is consistent
with the outlook for a 65 percent chance of an above-normal Atlantic hurricane
season. Also, decadal trends support the largest probabilities for above-normal
precipitation across the Mid-Atlantic and parts of the Northeast. Many of the
dynamical model tools support a small tilt for above-normal precipitation
across the central interior of Mainland Alaska. Since probabilities for La Niña
conditions are near 60 percent during the late fall and winter, a slightly
favored area for below-normal precipitation was added to the southern tier of
the CONUS. During the spring and summer 2023, the precipitation outlooks are
based mostly on decadal trends .


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
(Use Lower Cas e Letters)
Information on the formation of skill of the CAS forecasts may be found at:
(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 Jul 21 2022

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

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Page last modified: January 17, 2006
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