464 FXUS07 KWBC 181252 PMD30D Prognostic Discussion for Monthly Outlook NWS Climate Prediction Center College Park MD 830 AM EST Thu Apr 18 2024 30-DAY OUTLOOK DISCUSSION FOR MAY 2024 El Nio conditions are currently observed, and equatorial sea surface temperatures (SSTs) are above average across the much of the central and eastern equatorial Pacific Ocean, reaching 0.9 degrees Celsius above normal in the Nio3.4 region, 0.6 degrees Celsius above normal in the Nio3 region, but have decreased to -0.2 degrees Celsius below normal in the Nio1+2 region. Above average SSTs have weakened across most of the equatorial Pacific Ocean in the last 4 weeks, and tropical Pacific atmospheric anomalies are weakening as well. Given the weakening signals in the equatorial Pacific, a transition from El Nio to El Nio Southern Oscillation (ENSO)-neutral conditions is likely by April-May-June 2024. The Madden Julian Oscillation (MJO) has continued to weaken recently and though there has been eastward propagation in the past week, the amplitude has dropped. Dynamical model forecasts of the Realtime Multivariate MJO (RMM) index through close to the end of April are weak and incoherent due to an emerging low-frequency feature over the western Indian Ocean which appears to be interfering with the MJO. While we may see some lingering impacts to temperature and precipitation due to El Nio, the influence is expected to weaken throughout the next few months. Moreover, the weak amplitude of the MJO does not support much of a teleconnection response over the Contiguous United States (CONUS). As such, the May 2024 Temperature and Precipitation Outlooks are mainly supported by the lingering influence of El Nio, local SST anomalies, influence of soil moisture anomalies, dynamical model guidance from the North American Multi-Model Ensemble (NMME), Copernicus model suite (C3S), and the Climate Forecast System version 2 (CFSv2), as well as statistical models that include the influence of trend and ENSO. The Week 3-4 Outlook for the early part of May was also considered, as was the expected evolution from the Week 2 forecast period. The May 2024 Temperature Outlook favors above normal temperatures over the Northwest, much of the eastern half of the CONUS, and southeastern Alaska. A relatively small region of near normal temperatures is indicated over parts of California, Arizona, Nevada, and Utah. The highest probabilities of above normal temperatures, 50 to 60 percent, are located over Washington, the Great Lakes, northern New England, southeastern New Mexico and parts of southwestern Texas, the southern tip of Florida, and southeastern Alaska. Probabilities are enhanced over these regions given good consistency among tools on above normal probabilities. Decadal trends also support above normal probabilities over the northwest and northern New England. Anomalously warm Great Lakes temperatures provide additional support for above normal probabilities over the region. Lower than normal soil moisture along with forecasted below normal rainfall in dynamical models, and strong probabilities for above normal temperatures in recent CFSv2 forecasts of May temperatures adds to confidence over the Southwest. Signals were more mixed over western Alaska given cooler SST anomalies and sea ice, but NMME and C3S favor a transition to warmer temperatures over the southeast part of the state. Near normal and equal chances of above, near and below normal temperatures (EC) are indicated over southern California and the Four Corners where there are observed coastal below normal to neutral SSTs, near normal temperature forecasts from NMME and C3S, and a below normal CFSv2 temperature forecast. While tools tilt toward above normal temperatures over the Gulf States (particularly coastal regions), partially supported by warmer Gulf of Mexico SSTs, high amounts of recent rainfall over eastern Texas and Louisiana have resulted in high soil moisture, and as such probabilities are still above normal but damped. EC is favored where models were inconsistent and/or where there was a lack of support from statistical tools. There is more uncertainty in the May 2024 Precipitation Outlook than the Temperature Outlook, as evidenced by lower overall probabilities and larger areas of EC. Models favor above normal precipitation over parts of the central and southern CONUS, including parts of the Mid-Atlantic, Middle Mississippi and Ohio Valley regions. Some lingering influence from El Nio further supports the tilt toward above normal precipitation over the Southeast, as well as enhanced soil moisture. Though El Nio can lead to below normal precipitation over the Great Lakes, Middle Mississippi Valley, and Ohio Valley, this influence is overshadowed by above normal precipitation trend. EC is indicated over the Great Lakes where models had weak or inconsistent signals and trend and El Nio influence are opposite. However, over the Mississippi and Ohio Valley regions C3S and NMME favored above normal rainfall and thus a weak tilt toward above normal is indicated. Dynamical models and dry soil moisture led to the favored probability of below normal precipitation over parts of the southwest, which is also indicated in the Seasonal Outlook for May-July 2024. However, this is at odds with the recent Weeks 3-4 Precipitation Outlook for early May that tilted weakly toward above median precipitation. We expect below normal precipitation over the region by mid- to late- May. Tools were again mixed over the northwest, but influences from El Nio and trend tilt the odds toward below normal. Finally, over Alaska, above normal precipitation is favored over the southwest where there has been recent above normal precipitation, with a weak tilt toward below normal precipitation over southeastern Alaska due to expected influence from El Nio. FORECASTER: Johnna Infanti The climatic normals are based on conditions between 1991 and 2020, following the World Meteorological Organization convention of using the most recent 3 complete decades as the climate 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. An updated monthly outlook... for May will be issued on Tue Apr 30 2024 These outlooks are based on departures from the 1991-2020 base period. $$