Atlantic Hurricane Season 2019

Discussion in 'General Discussion' started by john316, May 31, 2019.

  1. john316

    john316 Monkey+++

    IN 25 words or more:

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    NOAA 2019 Atlantic Hurricane Season Outlook
    Issued: 23 May 2019
    Realtime monitoring of tropical Atlantic conditions
    Realtime monitoring of tropical East Pacific conditions

    Atlantic Hurricane Outlook & Seasonal Climate Summary Archive

    The 2019 Atlantic hurricane season outlook is an official product of the National Oceanic and Atmospheric Administration (NOAA) Climate Prediction Center (CPC). The outlook is produced in collaboration with hurricane experts from the National Hurricane Center (NHC) and the Hurricane Research Division (HRD). The Atlantic hurricane region includes the North Atlantic Ocean, Caribbean Sea, and Gulf of Mexico.

    Interpretation of NOAA's Atlantic hurricane season outlook:

    This outlook is a general guide to the expected overall activity during the upcoming hurricane season. It is not a seasonal hurricane landfall forecast, and it does not predict levels of activity for any particular location.


    Hurricane-related disasters can occur whether the season is active or relatively quiet. It only takes one hurricane (or tropical storm) to cause a disaster. It is crucial that residents, businesses, and government agencies of coastal and near-coastal regions prepare for every hurricane season regardless of this, or any other, seasonal outlook. The Federal Emergency Management Agency (FEMA), the National Hurricane Center (NHC), the Small Business Administration, and the American Red Cross all provide important hurricane preparedness information on their web sites.

    NOAA does not make seasonal hurricane landfall predictions:

    NOAA does not make seasonal hurricane landfall predictions. Hurricane landfalls are largely determined by the weather patterns in place as the hurricane approaches, which are only predictable when the storm is within several days of making landfall.

    Nature of this Outlook and the "likely" ranges of activity:

    This outlook is probabilistic, meaning the stated "likely" ranges of activity have a certain likelihood of occurring. The seasonal activity is expected to fall within these ranges in 7 out of 10 seasons with similar climate conditions and uncertainties to those expected this year. They do not represent the total possible ranges of activity seen in past similar years.

    This outlook is based on 1) predictions of large-scale climate factors known to influence seasonal hurricane activity, and 2) climate models that directly predict seasonal hurricane activity.

    Sources of uncertainty in the seasonal outlooks:

    1. Predicting El Niño and La Niña (also called the El Niño-Southern Oscillation, or ENSO) and their impacts is an ongoing scientific challenge facing climate scientists today. Such forecasts made during the spring generally have limited skill.

    2. Many combinations of named storms and hurricanes can occur for the same general set of climate conditions. For example, one cannot know with certainty whether a given climate signal will be associated with several short-lived storms or fewer longer-lived storms with greater intensity.

    3. Model predictions of sea surface temperatures (SSTs), vertical wind shear, moisture, atmospheric stability, and other factors known to influence overall seasonal hurricane activity have limited skill this far in advance of the peak months (August-October) of the hurricane season.

    4. Weather patterns that are unpredictable on seasonal time scales can sometimes develop and last for weeks or months, possibly affecting seasonal hurricane activity.

    2019 Atlantic Hurricane Season Outlook: Summary

    a. Predicted Activity

    NOAA's outlook for the 2019 Atlantic Hurricane Season indicates that a near-normal season has the highest chance of occurring (40%), followed by equal chances (30%) of an above-normal season and a below-normal season. See NOAA definitions of above-, near-, and below-normal seasons. The Atlantic hurricane region includes the North Atlantic Ocean, Caribbean Sea, and Gulf of Mexico.

    The 2019 outlook calls for a 70% probability for each of the following ranges of activity:

    • 9-15 Named Storms
    • 4-8 Hurricanes
    • 2-4 Major Hurricanes
    • Accumulated Cyclone Energy (ACE) range of 65%-140% of the median
    The seasonal activity is expected to fall within these ranges in 70% of seasons with similar climate conditions and uncertainties to those expected this year. These ranges do not represent the total possible ranges of activity seen in past similar years. These expected ranges are centered on the 1981-2010 seasonal averages of 12 named storms, 6 hurricanes, and 3 major hurricanes. Most of the predicted activity is likely to occur during the peak months (August-October, ASO) of the hurricane season.

    The Atlantic hurricane season officially runs from June 1st through November 30th. This outlook will be updated in early August to coincide with the onset of the peak months of the hurricane season.

    b. Reasoning behind the outlook

    This outlook reflects the expectation of competing climate factors during August-October. El Niño is expected to persist and produce conditions that suppress the season, while expected conditions associated with the ongoing high-activity era for Atlantic hurricanes favor a more active season.

    The high-activity era for Atlantic hurricanes began in 1995 in association with a transition to the warm phase of the Atlantic Multi-Decadal Oscillation (AMO). This climate pattern produces an inter-related set of atmospheric and oceanic conditions that are conducive to more active hurricane seasons. Key aspects of this pattern which are predicted for ASO 2019 include warmer sea surface temperatures (SSTs) and weaker trade winds in the eastern portion of the Atlantic hurricane Main Development Region (MDR), along with an enhanced West African monsoon. The MDR spans the tropical Atlantic Ocean and Caribbean Sea (Goldenberg and Shapiro 1996).

    There is more uncertainty in the seasonal hurricane outlook this year because of competing climate factors, and because of varying model predictions of the magnitude and subsequent impact of each factor. For example, some models are predicting a weak El Niño during ASO while others are predicting a moderate-strength event. As a result, there are varying predicted impacts of El Niño on the Atlantic hurricane season. There are also considerable differences in model predictions for SSTs in the MDR, with some predictions being considerably warmer than others. Finally, it is difficult to predict the strength of the West African monsoon system and associated weaker trade winds this far in advance of the ASO period.

    Preparedness for Tropical Storm and Hurricane Landfalls:

    It only takes one storm hitting an area to cause a disaster, regardless of the overall activity for the season. Therefore, residents, businesses, and government agencies of coastal and near-coastal regions are urged to prepare every hurricane season regardless of this, or any other, seasonal outlook.


    1. Expected 2019 activity

    NOAA's outlook for the 2019 Atlantic Hurricane Season indicates that a near-normal season has the highest chance of occurring (40%), followed by equal chances (30%) of an above-normal season and a below-normal season. See NOAA definitions of above-, near-, and below-normal seasons.

    An important measure of the total seasonal activity is NOAA's Accumulated Cyclone Energy (ACE) index, which accounts for the combined intensity and duration of all named storms and hurricanes during the season. This 2019 outlook indicates a 70% chance that the seasonal ACE range will be 65%-140% of the median. According to NOAA's hurricane season classifications, an ACE value between 71.4% and 120% of the 1981-2010 median reflects a near-normal season. Values above (below) this range reflect an above-normal (below-normal) season.

    The 2019 Atlantic hurricane season is predicted to produce (with 70% probability for each range) 9-15 named storms, of which 4-8 are expected to become hurricanes, and 2-4 of those are expected to become major hurricanes. These ranges are centered on the 1981-2010 period averages of about 12 named storms, 6 hurricanes and 3 major hurricanes.

    Predicting the location, number, timing, and strength of hurricane landfalls are ultimately related to the daily weather patterns, storm genesis locations and steering patterns. These patterns are not predictable weeks or months in advance. As a result, it is not possible to reliably predict the number or intensity of landfalling hurricanes in a seasonal outlook, or whether a given locality will be impacted by a hurricane this season.

    2. Science behind the 2019 Outlook

    NOAA's Atlantic hurricane season outlooks are based on predictions of the main climate factors and their associated conditions known to influence seasonal Atlantic hurricane activity. These predictions are based on extensive monitoring, analysis, research activities, a suite of statistical prediction tools, and dynamical models. The dynamical model predictions come from the NOAA Climate Forecast System (CFS), NOAA Geophysical Fluid Dynamics Lab (GFDL) FLOR model, the North American Multi-Model Ensemble (NMME), the United Kingdom Met Office (UKMET) GloSea5 model, and the European Centre for Medium Range Weather Forecasting (ECMWF) model. El Niño forecasts are also provided from statistical and other dynamical models contained in the suite of Niño 3.4 SST forecasts, which is compiled by the International Research Institute for Climate and Society (IRI) and the NOAA Climate Prediction Center (CPC).

    NOAA's 2019 Atlantic hurricane season outlook reflects three competing factors:

    1) The likely continuation of El Niño during the peak months (ASO) of the hurricane season. El Niño typically suppresses Atlantic hurricane activity by causing increased vertical wind shear, anomalous sinking motion, and increased atmospheric stability across the western MDR (i.e., mainly the Caribbean Sea) (Gray 1984).

    2) Competing with the possible suppressing influence of El Niño this year is the expectation of above-average SSTs in the MDR. Nearly all climate models predict SSTs to be above average in this region during ASO, with most predicting departures of +0.2°C to + 0.4°C. These predictions are consistent with the warm phase of the AMO, which has persisted during the ASO season since 1995 and has favored more active hurricane seasons.

    3) Also competing with El Niño this season is the expectation for weaker trade winds in the eastern portion of the MDR, along with an enhanced West African monsoon. These conditions favor more active hurricane seasons, and are also typical of the warm AMO phase.

    a. Weak or moderate-strength El Niño

    El Niño developed late in 2018 and is still present. SSTs are currently 0.5°C to 1.5°C above average across the central and east-central equatorial Pacific, and the latest weekly SST index for the Niño 3.4 region is near +0.5°C. The Niño 3.4 region spans the east-central equatorial Pacific between 120°W-170°W and 5°N-5°S. El Niño is classified as a Niño 3.4 index at or above +0.5°C for five consecutive overlapping 3-month seasons, along with consistent atmospheric impacts. A weak El Niño is defined by a sustained Niño 3.4 index between +0.5°C and +1.0°C, and a moderate-strength El Niño is defined by a sustained Niño 3.4 index between +1.0°C and +1.5°C.

    The current atmospheric anomalies reflect a weak El Niño. Its main convective forcing onto the atmosphere is currently confined to the western and central equatorial Pacific, as measured by Outgoing Longwave Radiation (OLR). In the tropics, low OLR values indicate high and cold cloud tops associated with deep convection, while high OLR values indicate little or no convection. The current El Niño is associated with negative OLR anomalies (enhanced convection) across the west-central and central equatorial Pacific and with positive OLR anomalies (suppressed convection) over Indonesia. A time-longitude section shows that this pattern has been very persistent since last winter. By comparison, a stronger (i.e., moderate) El Niño would typically have a farther eastward extension of enhanced convection than is currently observed.

    The low-level (850-hPa) atmospheric zonal wind anomalies are also typical of a weak El Niño. In recent months, the low level easterly winds have been weaker than average (indicated by westerly anomalies, orange-red shading) mainly over the west-central or western equatorial Pacific Ocean. These conditions have been associated with the enhanced convection near the date line. A stronger El Niño would typically feature a much farther eastward extension of the westerly anomalies.

    Based on current conditions, the recent oceanic evolution, and the spread in model forecasts, NOAA's latest ENSO outlook indicates about a 60% chance of El Niño during Aug.-Oct.

    Model predicted SST anomalies in the Niño 3.4 region for ASO 2019 generally reflect a weak or moderate-strength El Niño. Both the dynamical model average (red line) and statistical model average (green line) indicate a weak El Niño through the peak months of the hurricane season (ASO time period).

    A weaker El Niño typically has less of a suppressing influence on the Atlantic hurricane season than a moderate-strength event. Given the uncertainty in such predictions made at this time of the year, the predicted ranges in this outlook reflect the possibility of either a weak- or moderate-strength event.

    b. Predicted conditions in the MDR

    SSTs are currently near average in the central MDR, and below average near Africa. For the MDR as a whole, climate models predict above-average SSTs during ASO, with most predicting departures of +0.2°C to +0.4°C. However, there is considerable spread in model predictions of Atlantic SSTs this far ahead of the ASO season. During the last few hurricane seasons, SSTs in the MDR have been warmer than some models have predicted (Blake et al., 2018). This cool bias limits our confidence in the model SST forecasts for this fall.

    Nonetheless, current model predictions are consistent with the ongoing warm phase of the AMO, as indicated by warmer SST anomalies in the MDR compared to the remainder of the global Tropics. The warm AMO phase is the main climate driver behind the current Atlantic high-activity era that began in 1995 (Goldenberg et al. 2001, Bell and Chelliah 2006, Klotzbach and Gray 2008). Similar conditions also contributed to the high-activity era that ended in 1970, while opposite anomaly patterns contributed to the intervening low-activity era of 1971-1994.

    Consistent with the warm AMO, two inter-related atmospheric features are now present, and are expected to persist. These factors include 1) anomalous westerly winds at 700-hPa across the central and eastern tropical Atlantic, and 2) an enhanced West African monsoon system. These conditions are expected to contribute to the warming of the MDR as the hurricane season progresses. They also directly contribute to increased hurricane activity in the eastern MDR. In contrast, in the western MDR increased vertical wind shear and anomalous sinking motion associated with the ongoing El Niño are expected to suppress hurricane activity.

    The predicted result of these competing factors is near-normal activity during ASO within the MDR. The activity within the MDR during ASO is the main contributor to the overall activity of the hurricane season. The combination of a weaker El Niño, much warmer SSTs in the MDR, and a stronger West African monsoon favors hurricane activity near the upper ends of our predicted ranges. Conversely, the combination of a moderate El Niño, only a slightly warmer MDR, and a weaker impact from the West African monsoon favors activity in the lower portion of the predicted ranges.


    Climate Prediction Center

    National Hurricane Center
    Hurricane Research Division

    • Bell, G. D., and M. Chelliah, 2006: Leading tropical modes associated with interannual and multi-decadal fluctuations in North Atlantic hurricane activity. J. Climate. 19, 590-612.

    • Blake, E. S., P. Klotzbach, and G. D. Bell, 2018: Climate factors causing the extremely active 2017 Atlantic hurricane season. Presented at AMS 33rd Conference on Hurricanes and Tropical Meteorology, April 2018.

    • Goldenberg, S. B., C. W. Landsea, A. M. Mestas-Nuñez, and W. M. Gray, 2001: The recent increase in Atlantic hurricane activity: Causes and implications. Science, 293, 474-479.

    • Goldenberg, S. B. and L. J. Shapiro, 1996: Physical mechanisms for the association of El Niño and west African rainfall with Atlantic major hurricane activity. J. Climate, 9, 1169-1187.

    • Gray, W. M., 1984: Atlantic seasonal hurricane frequency: Part I: El Niño and 30-mb quasi-bienniel oscillation influences. Mon. Wea. Rev., 112, 1649-1668.

    • Landsea, C. W., G. A. Vecchi, L. Bengtsson, and T. R. Knutson, 2010: Impact of Duration Thresholds on Atlantic Tropical Cyclone Counts. J. Climate, 23, 2508-2519.

    • Klotzbach, P.J., and W. M. Gray, 2008: Multi-decadal Variability in North Atlantic Tropical Cyclone Activity. J. Climate, 21, 3929-3935.

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  2. john316

    john316 Monkey+++

    2019 Hurricane Names For The Season
    by Caleb Weatherbee | Posted In: Weather

    Have you ever wondered why tropical storms and hurricanes are given names? It’s not to make these disastrous storms seem friendlier, that’s for sure. Storms are given names to make them easier to remember. But who picks the names?

    How Are Storms Named?
    Prior to the 1950s, meteorologists kept track of hurricanes and tropical storms by the year and the storms’ order for that year. So, for instance, the fifth tropical storm of 1938 was referred to as just that — the “fifth tropical storm of 1938” or “Storm 5.” Tropical storms and hurricanes that did a lot of damage received unofficial names—like the 1926 Great Miami Hurricane, which did so much damage that the Miami government implemented the first known building code in the United States.

    During the 1950s, meteorologists realized that it was difficult to keep track of unnamed storms—particularly if there was more than one storm happening at any given time. By 1953, meteorologists around the United States were using names for tropical storms and cyclones. In those days, the storm names were all female. Both male and female names were used for Northern Pacific storms in 1978, and by 1979, male and female names were being used for Atlantic storms, too.

    The World Meteorological Organization is responsible for developing the names for both Northern Pacific and Atlantic storms. They use six lists of names for Atlantic Ocean and Eastern North Pacific storms. These lists rotate, one each year. That means every six years, the names cycle back around and get reused (which is what’s happening in 2019). If a hurricane does tremendous damage, such as Katrina, Sandy, or Harvey, the name is retired and replaced by a different name beginning with the same letter (After 2018, Florence and Michael are now added to the list of retired names). The names alternate between male and female names, listed alphabetically and in chronological order starting with A and omitting Q and U, X, Y, and Z. If more than 21 names are required during a season, the Greek alphabet is used.

    Tropical Storms vs. Hurricanes
    The National Hurricane Center explains that names are only given to tropical storms that have sustained wind speeds higher than 39 mph. These names will stay with the storm as it reaches hurricane strength (maximum sustained winds of 74 mph or higher). This means Tropical Storm Debby, for example, will become Hurricane Debby if it reaches maturity.

    The Atlantic Hurricane season, which officially begins June 1st, peaks September 10th and ends November 30th.

    List of 2019 Atlantic Hurricane Names:
    These names were recycled from the 2013 season, which was considered a quiet year with no major hurricanes. Did your name make the list?

    1. Andrea

    2. Barry

    3. Chantal

    4. Dorian

    5. Erin

    6. Fernand

    7. Gabrielle

    8. Humberto

    9. Imelda

    10. Jerry

    11. Karen

    12. Lorenzo

    13. Melissa

    14. Nestor

    15. Olga

    16. Pablo

    17. Rebekah

    18. Sebastien

    19. Tanya

    20. Van

    21. Wendy

    Caleb Weatherbee is the official forecaster for the Farmers' Almanac. His name is actually a pseudonym that has been passed down through generations of Almanac prognosticators and has been used to conceal the true identity of the men and women behind our predictions
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  3. Gator 45/70

    Gator 45/70 Monkey+++

    Our season starts in the am...
    Seepalaces, HK_User and techsar like this.
  4. techsar

    techsar Monkey+++

    Quick synopsis of the first post:

    "We haven't a clue."

    Yup, @Gator 45/70 ...heck, already a chance of something going into the Bay of Campeche...but not expected to head our way....
    Seepalaces, HK_User and Gator 45/70 like this.
  5. HK_User

    HK_User A Productive Monkey is a Happy Monkey

    Keep treading water.
    Gator 45/70, Seepalaces and techsar like this.
  6. Altoidfishfins

    Altoidfishfins Monkey+++ Site Supporter+

    OMG Global Warming!
    Quick, federal regulation and punitive taxes, it's the only thing that will change the climate to be like it was back before there were SUVs, when there was no such thing as hurricanes and tornadoes.
    (Sarc - of course).

    Oh, I guess it's "climate change" now.
    Do I sound like a leftist yet?
    Last edited: Jun 1, 2019
    Gator 45/70 and Seepalaces like this.
  7. VisuTrac

    VisuTrac Ваша мать носит военные ботинки Site Supporter+++

    Why do I live in the mitten state?
    Tornados yes, hurricanes? Nope.
    Gator 45/70 and Seepalaces like this.
  8. Seepalaces

    Seepalaces Monkey+++ Site Supporter+

    So a forty percent chance it's completely normal and a thirty percent chance it will be better and a thirty percent chance it will be worse? Talk about hedging your bets...
  9. Tempstar

    Tempstar Old and crochety Site Supporter+

    Weather forecasting: Where you can be wrong 50% of the time and still be awesome.
  10. HK_User

    HK_User A Productive Monkey is a Happy Monkey

    But mostly awesome if you wear a short skirt.
    Ganado, Gator 45/70, oldawg and 2 others like this.
  11. Oddcaliber

    Oddcaliber Monkey+++

    If the storm is a 2 or less its hunker in the bunker. 3 or more get the Plymouth out of Dodge!
    HK_User and Gator 45/70 like this.
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