Skip Navigation Links www.nws.noaa.gov 
NOAA logo - Click to go to the NOAA home page National Weather Service   NWS logo - Click to go to the NWS home page
Climate Prediction Center
 
 

CPC Search
About Us
   Our Mission
   Who We Are

Contact Us
   CPC Information
   CPC Web Team

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.

Text Discussions
   90day Prognostic
   30day Prognostic
   Hawaiian
   Tools


More Outlooks
    0.5mn JJA 2023
    1.5mn JAS 2023
    2.5mn ASO 2023
    3.5mn SON 2023
    4.5mn OND 2023
    5.5mn NDJ 2023
    6.5mn DJF 2023
    7.5mn JFM 2024
    8.5mn FMA 2024
    9.5mn MAM 2024
   10.5mn AMJ 2024
   11.5mn MJJ 2024
   12.5mn JJA 2024
    0.5mn Jun 2023


Tools Used (see Discussion for explanation)
   CCA
   OCN
   CMP
   SMT
   POE
 
HOME> Outlook Maps>Seasonal Forecast Discussion
 
Prognostic Discussion for Long-Lead Seasonal Outlooks 
NWS Climate Prediction Center College Park MD
830 AM EDT Thu May 18 2023

SUMMARY OF THE OUTLOOK FOR NON-TECHNICAL USERS

El Niño Southern Oscillation (ENSO) neutral conditions are currently observed,
and equatorial sea surface temperatures are near-to-above average across most
of the Pacific Ocean. An El Niño watch is in effect as a transition from
ENSO-neutral to El Niño is favored during May-July 2023, with chances of El
Niño increasing to greater than 90% in winter 2023-2024.

The June-July-August (JJA) 2023 temperature outlook favors above normal
temperatures over the western contiguous United States (CONUS), the southwest,
southeast, and along the eastern seaboard to New England. A tilt toward warmer
than normal temperatures is also favored over most of Alaska. The largest
probabilities of above normal temperatures (60 to 70 percent) are forecast over
the Southwest, and probabilities reach 50 to 60 percent along the coast from
Texas to New England. The JJA precipitation outlook favors below normal
precipitation probabilities over the Pacific Northwest, Southwest, and south
coast of Alaska. Above normal precipitation probabilities are more likely for
the eastern CONUS, including the Southeast, Mid-Atlantic, Lower and Middle
Mississippi Valley. The North Slope of Alaska also tilts weakly above normal.
Equal chances (EC) are forecast for areas where probabilities for each category
of seasonal mean temperatures and seasonal accumulated precipitation amounts
are expected to be similar to climatological probabilities.

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

Equatorial SSTs are near-to-above average across most of the Pacific Ocean and
atmospheric conditions reflect ENSO-neutral conditions. Since early April 2023,
near-to-above average SSTs have persisted across most of the tropical Pacific
Ocean, and eastern Pacific positive SSTs have expanded westward to the
east-central Pacific ocean. Weekly SST departures remain largest in the NINO1+2
region reaching 2.4 degrees Celsius above normal, while the NINO3.4 region has
reached 0.5 degrees Celsius above normal. Subsurface temperature anomalies
became positive in February and have increased through mid-April, and positive
subsurface temperature anomalies now dominate the equatorial Pacific Ocean.
During the last 30 days, weak suppressed convection was observed near the
equator over Indonesia, and low-level winds were near average across most of
the equatorial Pacific Ocean, reflecting ENSO-neutral conditions.

The Madden Julian Oscillation (MJO) has remained active, and the enhanced phase
propagated eastward from the Maritime Continent into the western Pacific during
the past week. The Realtime Multivariate MJO (RMM) index for early April 2023
through mid-May 2023 indicates that the MJO signal completed another global
circumnavigation, however the MJO recently decreased in amplitude over the
western Pacific due to destructively interfering Kelvin and Rossby Wave
activity. RMM forecasts show the MJO regaining amplitude over the western
Pacific at a slow phase speed in the upcoming week and propagating slowly
across the western Pacific through late May. In RMM forecasts, some ensemble
members from the Global Ensemble Forecast System version 12 (GEFSv12) and the
European Centre for Medium-Range Weather Forecast (ECMWF) model forecast
continuation of the MJO into the end of May, but the ensemble mean ECMWF
indicates that MJO activity may wane.

PROGNOSTIC DISCUSSION OF SST FORECASTS

The latest Probabilistic ENSO Outlook issued in May 2023 favors a transition
from ENSO-neutral to El Niño during May-July (MJJ) 2023, with chances of El
Niño increasing to greater than 90% into winter 2023-24, and an El Niño Watch
is in effect. The most recent plume from the International Research Institute
(IRI) also indicates likely formation of El Niño in the May to July seasons and
persistence into the winter. At least a weak El Niño is likely given high
levels of above-average oceanic heat content, but the range of possibilities
include an 80 percent chance of at least a moderate El Niño and a 55 percent
chance of a strong El Niño by the end of the year. Dynamical model forecasts
from the North American Multi Model Ensemble (NMME) and the Climate Forecast
System model version 2 (CFSv2) favor a moderate to strong El Niño through
November-January (NDJ) 2024 while they are available, and forecasts become more
uncertain in spring and summer 2024 based on statistical models.

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

Dynamical model forecasts from the NMME, CFSv2, and Copernicus (C3S)
multi-model ensemble systems are used for the first six leads when they are
available as was the objective, historical skill weighted consolidation, that
combines both dynamical and statistical forecast tools. The Calibration,
Bridging and Merging (CBaM) tool anchored to the NMME forecasts and "bridged"
to the Niño3.4 index is also significantly utilized. El Niño impacts were
considered given the elevated probability of transition to El Niño during MJJ
2023, and El Niño composites and correlation/regression of temperature and
precipitation with the NINO3.4 region were used to determine typical El Niño
impacts. Statistical guidance such as the global SST based Constructed Analog
(CA) and long term temperature and precipitation trends played a role in many
of the outlook seasons, particularly beyond lead 6 when dynamical model
guidance is unavailable. Antecedent soil moisture conditions and coastal SSTs
are considered at early leads.

PROGNOSTIC DISCUSSION OF OUTLOOKS - JJA 2023 TO JJA 2024

TEMPERATURE

The JJA 2023 temperature outlook favors above normal temperatures over the
western CONUS, the Southwest, the Gulf States, along the eastern seaboard, and
for much of the state of Alaska. The highest probabilities of above normal
temperatures (60 to 70 percent) are over parts of the Southwest, Southern
Rockies, and western Southern Plains where NMME and C3S show consistent strong
probabilities of above normal temperatures, soil moisture is anomalously dry,
decadal temperature trend is above normal, and where precipitation is forecast
to tilt toward below normal for this season. 50 to 60 percent probabilities are
indicated from the Southwest along the coast to New England where there was
strong model agreement as well as support from above normal decadal temperature
trends and above normal coastal SSTs. A weak tilt toward above normal
temperatures (33 to 40 percent) is forecast over California owing to weaker
temperature signals in NMME and C3S, likely related to recent coastal SST
anomalies that leaned below normal and recently transitioned to neutral. A weak
tilt toward above normal temperatures is also indicated over western Oregon and
Washington given a slight weakness in dynamical models as well as mixed month
to month temperature teleconnection to El Niño as it evolves through JJA. EC of
above, near, and below normal temperatures are depicted over parts of the
Northern Plains to the Great Lakes and parts of the Ohio River Valley were
tools where weak or had inconsistent signals , and given currently neutral Great
Lakes temperatures. Over Alaska, NMME, C3S, CFSv2, and CBaM all favor a tilt
toward above normal temperatures over the southern half of the state,
consistent with expected ENSO teleconnection in JJA, while statistical tools
indicate EC over northern parts of the state and a spatially small, very weak
tilt toward below normal decadal trend. Anomalously cold SSTs along the
southwestern coast of Alaska led to a moderation of probabilities over the
southwest part of the state.

For the remainder of the summer and into early fall (July-September, JAS
through August-October, ASO), 50 to 60 percent probabilities of above normal
temperatures are maintained over the western CONUS and stretching along the
eastern seaboard where agreement remains among dynamical and statistical tools,
and due to strong probabilities in the objective skill-based consolidation.
Probabilities over Alaska also remain above normal with the largest
probabilities over the southern half of the state where there is dynamical and
statistical model agreement. Compared to last month’s JAS and ASO forecasts,
probabilities are slightly increased over the Ohio and Tennessee Valley regions
and along the coast given strong probabilities in CBaM, NMME, and CFSv2 and
where the objective skill based consolidation had higher probabilities. EC is
maintained over the central CONUS where signals were weak, though the eastern
Great Lakes tilt above normal consistent with dynamical models .

Confidence decreases in September-November (SON) 2023 and following seasons as
lead time increases and dynamical models become more uncertain, however, El
Niño is expected to become more dominant in the forecast(s), and the pattern
begins to reflect El Niño conditions during fall and winter seasons. Above
normal temperatures are favored over the western and eastern CONUS, with
highest probabilities reaching 50 to 60 percent over New England where decadal
trends are strong. EC is indicated over parts of the central CONUS in SON and
October-December (OND) given lack of consistent signal in tools. By fall and
winter 2023-2024 (November through January, NDJ and December through February,
DJF) we expect to begin seeing a canonical El Niño pattern of increased
temperatures over the Northern Tier and a reduction of probabilities over the
southern CONUS. Warmer than normal temperatures are generally favored over
Alaska in the fall and winter months. Forecasts for spring and summer 2024 are
more reliant on decadal trends given the comparatively uncertain forecast of El
Niño and lack of dynamical model data at longer leads, though probabilities are
higher where decadal trends and constructed analogues based on SSTs agree.
February through April (FMA) 2024 has elevated probabilities of above normal
temperatures over Alaska and the east coast, with probabilities over CONUS
expanding westward in April through June (AMJ) and JJA 2024.

PRECIPITATION

The JJA 2023 precipitation outlook depicts below normal precipitation
probabilities over the Pacific Northwest and parts of the Northern Rockies, the
Southwest, and south coast of Alaska. The tilt toward below normal
precipitation over the Pacific Northwest and south coast of Alaska is
consistent with expected El Niño teleconnections as well as below normal
decadal trends . NMME and C3S are in good agreement on below normal
precipitation over the southwest and wet soil moisture over the Four Corners
region may provide a sluggish start to the Monsoon this summer. Above normal
precipitation probabilities are indicated over parts of the Middle and Lower
Mississippi Valleys, the Ohio and Tennessee Valleys, the Southeast, and
mid-Atlantic. Parts of the Central Plains tend to be anti-correlated with the
monsoon region, and as such a weak tilt toward above normal precipitation is
indicated. The remainder of the above normal region is due to enhanced
probabilities in C3S and above normal decadal trends with the highest
probabilities aligned with where decadal precipitation trends are strongest as
well as recent high rainfall amounts. Though above normal precipitation
probability is favored over the northern part of Alaska owing to weak decadal
trends and above normal probabilities in CFSv2, probabilities are weak and EC
is indicated for the central parts of Alaska given inconsistent signals and
significant changes from last month's forecast to this month’s. The dry signal
over the Southwest is maintained through JAS 2023 as dynamical models agree on
below normal probabilities. The above normal precipitation over the eastern
CONUS shifts westward in JAS 2023 owing to a reduction of probabilities over
the southeast in the forecast consolidation. Above normal precipitation is
maintained over Northern Alaska through JAS and into winter 2023 as dynamical
models generally forecast above normal precipitation. Over the Pacific
Northwest, a weak tilt toward below normal precipitation is favored through
FMA2024 consistent with decadal trends and constructed analogues based on SSTs.
Above normal precipitation is favored for the Southeast and Gulf States owing
to canonical El Niño teleconnection during the winter months. Below normal
precipitation is depicted over the north Central Plains and Great Lakes during
the winter, also consistent with El Niño. Decadal trends become the dominant
player in spring and summer 2024, with below normal trends over the Pacific
Northwest and above normal trends over the Mid-Atlantic. Confidence decreases
over Alaska in spring and summer 2024, with only a weak tilt toward above
normal rainfall in March through May (MAM) 2024 over the northwest consistent
with above normal precipitation trend, and EC indicated for the remaining leads
given lack of clear signal.

FORECASTER: Johnna Infanti

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 Jun 15 2023


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

NOAA/ National Weather Service
National Centers for Environmental Prediction
Climate Prediction Center
5200 Auth Road
Camp Springs, Maryland 20746
Climate Prediction Center Web Team
Page last modified: January 17, 2006
Disclaimer
Information Quality
Credits
Glossary
Privacy Policy
Freedom of Information Act
About Us
Career Opportunities