NOAA Updates it’s Seasonal Outlook – July 22, 2023

CURRENT ATMOSPHERIC AND OCEANIC CONDITIONS

Oceanic and atmospheric observations across the equatorial Pacific reflect El Niño conditions. The observed weekly SSTs, centered on July 12, feature positive anomalies throughout the equatorial Pacific with the largest anomalies of more than +1 degree C generally east of 160°W. The largest anomalies are spreading westward along the equator. The latest weekly SST departure for the Niño 3.4 region is at +1.1 degrees C. Equatorial upper-ocean heat anomalies (averaged between 180 to 100 °W and 0-300m depth) remain strongly positive Low-level (850-hPa) wind anomalies during the last month were small in amplitude along the equator with a spatially small area of easterly anomalies along 5°S from 180 to 120°W. Consistent with El Niño conditions, negative OLR anomalies (enhanced convection) were located east of Papua New Guinea and also just north of the equator across the eastern Pacific. Those negative anomalies are further east compared to the last month. Positive OLR anomalies (suppressed convection) were observed throughout much of Southeast Asia and the Southwest Pacific.

The Real-time Multivariate (RMM) index depicts a weak Madden-Julian Oscillation (MJO) during early July. The 200-hPa velocity potential anomaly field features a coherent wave-1 structure, but it does appear to have influences from higher frequency modes. Dynamical model forecasts indicate that the MJO is likely to remain weak, and is not considered to be a factor in the earliest lead of the seasonal outlooks

Negative SST anomalies have persisted in the Chukchi Sea, while SSTs in the Bering Strait are above normal during the first half of July. Below-average SSTs are persistent in much of the Bering Sea and Gulf of Alaska and along much of the West Coast of the CONUS. The northern Gulf of Mexico warmed recently with above-normal SSTs observed during early July. Positive SST anomalies weakened across the eastern tropical Atlantic since May.

PROGNOSTIC DISCUSSION OF SST FORECASTS

The CPC SST Consolidation for the Niño 3.4 region indicates an increase in the magnitude of positive anomalies this summer and fall to around +1 degree C, followed by a decline to more neutral ENSO conditions during spring 2024. The CFSv2 continues to depict a strong El Niño by ASO, while the North American Multi-Model Ensemble (NMME) mean keeps the anomalies below 1.5 degrees C. The statistical tools vary with the strength of the El Niño during the next six months. As of early July, NOAA’s CPC forecast calls for more than a 90 percent chance of El Niño persisting through JFM 2024 with a 52 percent chance of a strong El Niño (> 1.5 degrees C) during OND 2023.

30-DAY OUTLOOK DISCUSSION FOR AUGUST 2023

The monthly temperature and precipitation outlooks are made under strengthening El Niño climate conditions. The recent week Niño 3.4 sea surface temperature (SST) anomaly is greater than +1.2 degrees Celsius. SSTs across the central and eastern equatorial Pacific Ocean have increased significantly over the last month. Lower level winds at 850 hPa are near average across much of the equatorial Pacific Ocean, except for weak easterly anomalies over parts of the east-central Pacific Ocean. Negative outgoing longwave radiation (OLR) anomalies are present just west of the Date Line, indicating anomalously enhanced convection. These ocean and atmosphere conditions indicate that the ongoing El Niño is strengthening. While it is expected that teleconnections  between the tropics and the climate over North America will take time to be established, El Niño may impact temperature and precipitation patterns in the near future and plays a role in the August temperature and precipitation outlooks. The Madden Julian Oscillation (MJO) was disorganized during the last month, though dynamical models  indicate that the MJO may become active over the Maritime Continent and propagate across the western Pacific in the next few weeks. However, the MJO forecast appears somewhat uncertain at this time and was not used as a significant factor in the August monthly outlook.

Temperature

The August temperature and precipitation outlooks were primarily based on a skill-weighted consolidation of statistical and dynamical forecast tools. The full consolidation includes a consolidation of recent dynamical model forecasts from the North America Multimodel Ensemble (NMME) for the month of August. In addition, the full consolidation includes a consolidation of the Canonical Correlation Analysis (CCA), the Constructed Analog (CA), and an ENSO OCN tool, that combines the impact of ENSO, based on the forecasts of Niño 3.4 SST anomaly, with the Optimum Climate Normal (OCN) representation of decadal trends. Daily initialized forecasts from the NCEP CFSv2 dynamical model, the most recent CPC Week 3-4 Outlook that overlaps the beginning of the month of August, and a statistical multivariate linear regression (MLR) forecast for the first half of August using the current Niño 3.4 and MJO indices as predictors, were also considered. Recent boundary conditions, including near coastal SSTs and soil moisture anomalies, were additional factors considered.

The August temperature outlook favors above normal temperatures over much of Alaska, consistent with dynamical model guidance and the monthly temperature consolidation. Forecasts of equal chances (EC) of above, near and below normal temperatures are indicated for the west coast of Alaska, where below average SSTs should moderate air temperatures. Equal chances (EC) is also forecast for the northeast Mainland, where tools are inconsistent. Widespread above normal temperatures are favored over much of the contiguous U.S. (CONUS), supported by the consolidation of statistical and dynamical forecast tools. Probabilities for above normal temperatures exceed 60 percent over the Pacific Northwest, due to dynamical model forecasts and dry soil moisture anomalies. Below normal temperatures are favored for parts of the eastern Northern Plains and upper Mississippi Valley. El Niño impacts favor potential troughing over the eastern central CONUS with northerly flow into this region. Statistical forecasts based on the current state of ENSO predict a larger area of favored below normal temperatures, resulting in a reduction in probabilities of above normal temperatures for much of the east-central CONUS. Above average SST anomalies along the Gulf and East Coasts increase the probability of above normal temperatures in these regions.

Precipitation

The August precipitation outlook favors below normal precipitation near the coast of the southwestern Alaska Mainland, supported primarily by dynamical model forecasts from the NMME and the consolidation of precipitation forecast tools. Though above normal precipitation is slightly favored in southwestern Arizona at the start of the month by the Week 3-4 Outlook, El Niño impacts and statistical forecast tools favor a suppressed monsoon for the full month of August. Below normal precipitation is favored for much of the Southwest Monsoon region from West Texas to northeastern Arizona and northward across the Intermountain West into parts of eastern Oregon and southern Idaho. Above normal precipitation is favored from eastern areas of the Central Plains across the central Mississippi Valley to the Atlantic Coast, along a preferred potential storm track and supported by the consolidation of precipitation forecast tools. Above normal precipitation is favored from northeastern Florida along the Atlantic Coast into southern New England, supported by the consolidation.

SUMMARY OF THE OUTLOOK FOR NON-TECHNICAL USERS (Focused on August-September and October 2023)

Temperature

The August-September-October (ASO) 2023 temperature outlook favors above-normal seasonal mean temperatures across a majority of the U.S. The highest probabilities (more than 60 percent) of above-normal temperatures are forecast across parts of the Southwest.

Precipitation

The ASO precipitation outlook depicts elevated probabilities of below-normal precipitation for parts of the Southwest and Pacific Northwest, while above-normal precipitation is favored across much of the central and southern Great Plains, parts of the Middle to Lower Mississippi Valley, the Tennessee Valley, and the central Atlantic Coast from the Carolinas to southern Virginia. 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.

El Niño conditions are present and equatorial sea surface temperatures (SSTs) are above average across the central and eastern equatorial Pacific Ocean. El Niño is expected to strengthen and persist through the winter 2023-24.

BASIS AND SUMMARY OF THE CURRENT LONG-LEAD OUTLOOKS

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

Tools used for the seasonal outlooks included dynamical model guidance such as the NMME, the Calibration, Bridging, and Merging (CBaM) post-processing of theNMME, and the Copernicus Climate Change Service (C3S) seasonal model contributions. In addition, the consolidation tool, which includes NMME input and various statistical tools were used. Current soil moisture conditions were a consideration across the Midwest and Corn Belt in the ASO temperature outlook. El Niño temperature and precipitation correlations were relied upon from ASO 2023 through FMA 2024 and these composites were weighed most heavily from NDJ 2023-24 through JFM 2024. Decadal trends  in temperature and precipitation were a factor at all time leads but elied upon the most at the longer leads, when dynamical model guidance is not available

PROGNOSTIC DISCUSSION OF OUTLOOKS – ASO 2023 TO ASO 2024

TEMPERATURE

Above-normal temperatures are favored throughout a majority of the U.S. during ASO with the highest probabilities (above 60 percent) forecast for a portion of the Southwest.  For much of the West, Gulf Coast, and East, probabilities are greater than 50 percent for above-normal temperatures, consistent with dynamical model guidance and decadal trends . CBaM, trends , and correlations with Nino 3.4 support favoring below-normal temperatures in the Central Plains. Many of the tools also indicate a weak monsoon, so probabilities for above-normal temperatures exceed 60 percent in the Four Corners region. Compared to the previous outlook, above-normal temperature probabilities were decreased across the Corn Belt and Great Lakes, consistent with correlations with a moderate El Niño and the latest NMME output. The consolidation tool and El Niño composites support above-normal temperature probabilities across much of Alaska. Above-normal temperatures remain the most likely outcome throughout much of the U.S. for SON and OND 2023, with Equal Chances over the Northern and Central Plains and the Upper Great Lakes. Beginning in NDJ 2023-24 through JFM 2024, predicted El Niño conditions result in enhanced chances for above-normal temperatures across the northern tier of the CONUS with an increasing coverage of EC across California, the Southwest, Southern Great Plains, and Lower Mississippi Valley. During the winter 2023-24, above-normal temperatures are favored across the East based on the statistical consolidation. From MAM to ASO 2024, the temperature outlook is consistent with decadal trends .

PRECIPITATION

During ASO 2023, below-normal precipitation is favored for the Pacific Northwest, though the signal is weaker than indicated last month for lead 2, as indicated by the latest NMME guidance and trends . Below-normal precipitation, associated with an anomalously weak monsoon and as indicated in the SST-CA, OCN, and NMME, is likely for the Southwest. Correspondingly, above-normal precipitation is likely over the Central and Southern Plains, as a dipole in precipitation between the Southwest and Plains is common during the summer months. Above-normal precipitation is weakly favored over the Southeast, on the southern flank of an anomalous trough, likely over the Great Lakes. Anomalous troughing in the Great Lakes is associated with El Niño and indicated in many of the NMME models. The outlook for SON maintains most of those signals , except for the signal in the Plains as SON are not the core monsoon months. During OND the area where above-normal precipitation is favored expands from the Southeast to the Southern Plains, associated with likely impacts from the predicted states of ENSO. Correspondingly odds for below-normal precipitation expand in the Northwest.

During NDJ 2023 to JFM 2024, the outlooks largely favor above-normal precipitation across the southern tier and below-normal precipitation across the northern tier of the CONUS. That pattern is largely aligned with ENSO impacts and model guidance. From FMA 2024 through ASO 2024, the outlooks primarily reflect the consolidation of available tools, which largely follows trends and ENSO impacts.

During ASO, trends  and model guidance favor above-normal precipitation for western and northern mainland Alaska, consistent with ENSO impacts and ice edge retreat. Odds are mitigated by trends  over western Alaska. During SON and OND, trends indicate a wet signal again, so coverage of above-normal precipitation is favored over a larger area. During winter 2023/2024, signals  for precipitation in Alaska are weak, so much of the state has EC indicated, except the North Slope where trends  favor above-normal precipitation.