Weather & Alert Services

2026-2031 Atlantic Hurricane Names

iAlert.com — Tue, 28 Apr 2026 16:21:08 +0000

The Atlantic hurricane season runs June 1 through November 30 each year. Storms are named alphabetically from a predetermined list beginning with “A”
through “W”, excluding names beginning with “Q” or “U.”
A storm receives its name from the National Hurricane Center when it reaches
tropical storm strength. The name stays with the storm through its entire life cycle. Names of the most devastating storms are retired and replaced for future seasons.

2026 Hurricane Season

Arthur	Hanna	Omar
Bertha	Isaias	Paulette
Cristobal	Josephine	Rene
Dolly	Kyle	Sally
Edouard	Leah	Teddy
Fay	Marco	Vicky
Gonzalo	Nana	Wilfred

2027 Hurricane Season

Ana	Henri	Odette
Bill	Imani	Peter
Claudette	Julian	Rose
Danny	Kate	Sam
Elsa	Larry	Teresa
Fred	Mindy	Victor
Grace	Nicholas	Wanda

2028 Hurricane Season

Alex	Hermine	Owen
Bonnie	Idris	Paula
Colin	Julia	Richard
Danielle	Karl	Shary
Earl	Lisa	Tobias
Farrah	Martin	Virginie
Gaston	Nicole	Walter

2029 Hurricane Season

Arlene	Harold	Ophelia
Bret	Idalia	Phillippe
Cindy	Jose	Rina
Don	Katia	Sean
Emily	Lee	Tammy
Franklin	Margot	Vince
Gert	Nigel	Whitney

2030 Hurricane Season

Alberto	Holly	Oscar
Brianna	Isaac	Patty
Chris	Joyce	Rafael
Debby	Kirk	Sara
Ernesto	Leslie	Tony
Francine	Miguel	Valerie
Gordon	Nadine	William

2031 Hurricane Season

Andrea	Humberto	Olga
Barry	Imelda	Pablo
Chantal	Jerry	Rebekah
Dext er	Karen	Sebastien
Erin	Lorenzo	Tanya
Fernand	Molly	Van
Gabrielle	Nestor	Wendy

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Atlantic Hurricane Names by Year: 2031 | 2030 | 2029 | 2028 | 2027 | 2026 | 2025 | 2024 | 2023 | 2022 | 2021 | 2020

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2026 Atlantic Hurricane Names

iAlert.com — Tue, 28 Apr 2026 15:48:25 +0000

Hurricanes are named alphabetically from a predetermined list beginning with the letter “A” through
“W”, excluding names beginning with “Q” or “U.”A storm is first named by the National Hurricane Center when the system becomes a tropical storm. The name remains as it develops into a
hurricane or until it dissipates. The most devastating names are retired and replaced.

2026 Atlantic Hurricane Season21 Named Storms · Letters A–W

Arthur	Bertha	Cristobal
Dolly	Edouard	Fay
Gonzalo	Hanna	Isaias
Josephine	Kyle	Leah
Marco	Nana	Omar
Paulette	Rene	Sally
Teddy	Vicky	Wilfred

Atlantic Hurricane Names by Year: 2027 | 2026 | 2025 | 2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017

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Thunderstorm Basics: Structure, Types, and Forecasting Methods

iAlert.com — Fri, 29 Aug 2025 11:03:23 +0000

Thunderstorms are among the most powerful weather events on Earth. They can bring much needed rainfall, yet they also produce dangerous hazards such as lightning, hail, flash flooding, and tornadoes. Understanding how storms form, how they evolve, and how meteorologists detect and forecast them helps communities prepare and stay safe.

Developing Cumulonimbus Cloud

What is a Thunderstorm

A thunderstorm is a rain shower accompanied by thunder and lightning. Because thunder is the sound produced by lightning, every thunderstorm has lightning.

Worldwide activity: About 16 million thunderstorms occur each year with roughly 2,000 ongoing at any moment.
United States activity: Around 100,000 thunderstorms occur annually. About 10 percent reach severe levels.

Ingredients for Thunderstorm Formation

Three basic ingredients are required for a thunderstorm to form:

Moisture to support cloud and precipitation formation.
Unstable rising air that continues upward when lifted.
A lifting mechanism such as fronts, outflow boundaries, mountains, or sea breezes.

Sunlight warms the surface and the air above it. When warm, moisture laden air is lifted, it rises and cools. Water vapor condenses into clouds that can grow into tall cumulonimbus towers. In the freezing upper portions of the storm, ice particles collide and transfer electric charges that eventually discharge as lightning.

Life Cycle of a Thunderstorm

Stage 1: Developing stage

Towering cumulus clouds form due to strong updrafts.
Lightning may occur, but little to no rain reaches the ground.

Stage 2: Mature stage

Updrafts and downdrafts coexist.
Heavy rain, hail, frequent lightning, strong winds, and possible tornadoes.
This is typically the most intense phase.

Stage 3: Dissipating stage

Downdrafts dominate and cut off warm moist inflow.
Rainfall tapers, but lightning can remain hazardous.

Thunderstorm Types

Single cell thunderstorms

Short lived storms that often form on warm afternoons. Sometimes called popcorn convection. They typically last less than an hour and can produce brief heavy rain and lightning.

Multi cell thunderstorms

Groups of storm cells that develop along a gust front. Systems can last for hours and may produce hail, strong winds, brief tornadoes, and flooding.

Squall lines

Lines of thunderstorms capable of widespread straight line wind and heavy rain. They can extend hundreds of miles yet are generally less tornado prone than supercells.

Supercells

Highly organized storms with a rotating updraft called a mesocyclone. They can persist for hours and are capable of producing the largest hail, strongest winds, and violent tornadoes.

Thunderstorm Hazards

Flash flooding: A leading cause of thunderstorm related fatalities.
Lightning: Can strike miles from the storm core and cause fires, injuries, and fatalities.
Hail: Can reach softball size and damage vehicles, roofs, crops, and livestock.
Straight line winds: Can exceed 120 mph and topple trees, power lines, and structures.
Tornadoes: The most destructive hazard with winds that can exceed 300 mph.

Detecting and Forecasting

Satellites: Monitor cloud development, motion, and cloud top temperatures to infer storm growth.
Radars: Detect precipitation, hail signatures, and wind patterns. Doppler technology can reveal rotation.
Forecast models: Numerical models simulate atmospheric evolution to assess thunderstorm potential.
Ensemble forecasting: Multiple model runs capture uncertainty and provide a range of outcomes.

The NOAA Storm Prediction Center monitors severe weather risk and issues outlooks and watches when conditions favor severe thunderstorms.

Watches and Warnings

Severe Thunderstorm Watch: Conditions are favorable for severe storms. Stay alert and monitor updates.
Severe Thunderstorm Warning: Severe weather is occurring or imminent based on radar or spotter reports. Take immediate action and seek safe shelter.

Stay Safe with iAlert.com

Timely alerts help protect lives and property. iAlert.com delivers official National Weather Service severe thunderstorm warnings by email, text message, and phone call. Individuals, businesses, schools, emergency managers, and government agencies rely on iAlert.com to keep teams informed and ready.

Learn more and sign up at iAlert.com

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WxWaves.com, Thunderstorm Fundamentals (Podcast)

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NOAA Tsunami Research

iAlert.com — Tue, 26 Aug 2025 12:14:57 +0000

How 30 Years of NOAA R&D Made a Tsunami Forecast Land Exactly When It Mattered

Event in brief. In late July 2025, a magnitude 8.8 megathrust earthquake off Russia’s Kamchatka Peninsula triggered Pacific-wide tsunami alerts. NOAA’s forecast, including timing, heights, and currents, proved unusually accurate and was updated in real time as new ocean data arrived.

What made the forecast so good?

→ A purpose-built observing network. NOAA’s Deep-ocean Assessment and Reporting of Tsunamis (DART) stations detect tiny pressure changes from passing waves and transmit the data to warning centers within minutes. After the 2004 Indian Ocean disaster, the United States deployed a roughly 39-station array that now underpins Pacific forecasts.

→ Physics-based modeling (MOST). The Method of Splitting Tsunamis model simulates generation, basin-scale propagation, and detailed coastal flooding when supplied with bathymetry, topography, and a candidate earthquake source. It is the engine behind inundation maps used for planning and drills.

→ Real-time data assimilation (SIFT). Short-term Inundation Forecasting for Tsunamis blends live DART measurements with a library of precomputed scenarios to rapidly infer the actual source and produce site-specific arrival times, amplitudes, currents, and inundation. Then it refreshes those outputs as additional observations stream in.

How it played out

→ Initial solution from seismic data provided a fast, first-order forecast.

→ DART constraints arrived as the waves crossed the basin, allowing SIFT to refine the source and reduce uncertainty.

→ Operational products, including updated ETAs, expected wave heights, and current guidance, supported targeted evacuations and port decisions from Alaska and Hawai‘i to the U.S. West Coast and beyond.

→ Independent reporting captured the hazard picture: warnings and evacuations across the Pacific, with observed waves generally below catastrophic thresholds, for example around 2 meters in parts of Hawaii and around 1 meter along segments of California.

Why this is the culmination of 30 years

→ From prototype to operations. NOAA and PMEL advanced from early tsunameters in the 1990s to an operational, basin-scale DART network and real-time, assimilation-based forecasting by the late 2000s. This work demonstrably improves arrival-time and height accuracy compared with seismic-only methods.

→ Inundation mapping capacity. Hundreds of high-resolution coastal models now exist for U.S. communities, feeding emergency planning and live forecasts.

→ New cross-checks. Satellites can now detect tsunami signatures. 2025 SWOT observations are being used to validate and tune NOAA’s models.

Takeaways

→ Forecast skill today rests on measurements plus models, not either alone.

→ Expect iterative updates during an event. Later advisories are usually better because they are constrained by real data.

→ Local readiness, including pre-mapped zones, evacuation routes, and TsunamiReady programs, is the difference between orderly moves to high ground and chaos.

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Saffir-Simpson Hurricane Wind Scale

iAlert.com — Mon, 09 Jun 2025 11:40:05 +0000

The Saffir-Simpson Hurricane Wind Scale is a 1 to 5 rating based on a hurricane’s sustained wind speed. This scale estimates potential property damage. Hurricanes reaching Category 3 and higher are considered major hurricanes because of their potential for significant loss of life and damage. Category 1 and 2 storms are still dangerous, however, and require preventative measures. In the western North Pacific, the term “super typhoon” is used for tropical cyclones with sustained winds exceeding 150 mph.

Category	Wind Speed	Description
Category 1	74–95 mph (119–153 km/h)	Some damage to roofing, siding, and trees. Power outages likely.
Category 2	96–110 mph (154–177 km/h)	Extensive roof and siding damage. Widespread power loss expected.
Category 3 (Major)	111–129 mph (178–208 km/h)	Devastating damage. Many trees down. Water and power out for days to weeks.
Category 4 (Major)	130–156 mph (209–251 km/h)	Catastrophic damage. Most trees and power poles down. Long outages likely.
Category 5 (Major)	157+ mph (252+ km/h)	Catastrophic. Homes destroyed. Area may be uninhabitable for weeks or months.

Understanding the Saffir-Simpson Hurricane Wind Scale can help you, your community and, emergency planners better prepare for the impacts of tropical cyclones.. Keep in mind that wind speed is just one factor storm surge, heavy rainfall, and inland flooding can be just as dangerous, this wind scale offers a helpful a framework for anticipating structure damage and taking necessary precautions. Regardless of category, all hurricanes have the potential to disrupt lives and property. Staying informed, having an emergency plan in place before a storm threatens, and following official warnings can make all the difference.

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NOAA Predicts “Above-Normal” 2025 Atlantic Hurricane Season: What You Need to Know

iAlert.com — Thu, 29 May 2025 21:11:40 +0000

NOAA has released its 2025 Atlantic hurricane season outlook, predicting a 60% chance of an above-normal season, a 30% chance of a near-normal season, and only a 10% chance of below-normal activity. The season runs from June 1 through November 30.

The forecast calls for 13 to 19 named storms (with winds of 39 mph or higher). Of those, 6 to 10 could become hurricanes (winds of 74 mph or higher), including 3 to 5 major hurricanes rated Category 3 or higher (winds of 111 mph or more). NOAA stated it has 70% confidence in these ranges.

2025 Atlantic Hurricane Names: Andrea, Barry, Chantal, Dexter, Erin, Fernand, Gabrielle, Humberto, Imelda, Jerry, Karen, Lorenzo, Melissa, Nestor, Olga, Pablo, Rebekah, Sebastien, Tanya, Van, Wendy

“NOAA and the National Weather Service are using the most advanced weather models and cutting-edge hurricane tracking systems to provide Americans with real-time storm forecasts and warnings,” said Commerce Secretary Howard Lutnick. “With these models and forecasting tools, we have never been more prepared for hurricane season.”

This season’s above-normal outlook is driven by several contributing factors, including ENSO-neutral conditions, warmer-than-average Atlantic Ocean temperatures, and forecasts for weak wind shear. NOAA also highlights the potential for increased activity from the West African Monsoon, which can produce tropical waves that often grow into long-lived storms. In addition, high ocean heat content and reduced Atlantic trade winds are expected to provide favorable fuel and atmospheric conditions for hurricane development and intensification.

Acting NOAA Administrator Laura Grimm emphasized that hurricane threats extend well beyond coastal regions.

“As we witnessed last year with significant inland flooding from hurricanes Helene and Debby, the impacts of hurricanes can reach far beyond coastal communities,” said Grimm. “NOAA is critical for the delivery of early and accurate forecasts and warnings, and provides the scientific expertise needed to save lives and property.”

“In my 30 years at the National Weather Service, we’ve never had more advanced models and warning systems in place to monitor the weather,” said NOAA’s National Weather Service Director Ken Graham. “This outlook is a call to action: be prepared. Take proactive steps now to make a plan and gather supplies to ensure you’re ready before a storm threatens.”

For a deeper dive into the 2025 hurricane season forecast, listen to the WxWaves podcast episode, “2025 Hurricane Season Outlook“. The episode breaks down NOAA’s outlook, explains the science behind the predictions, and shares practical preparedness tips for individuals and communities.

For the latest forecasts and storm updates, visit iAlert.com.

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Weather & Alert Services

2026-2031 Atlantic Hurricane Names

Related Articles

2026 Atlantic Hurricane Names

Related Articles

Thunderstorm Basics: Structure, Types, and Forecasting Methods

What is a Thunderstorm

Ingredients for Thunderstorm Formation

Life Cycle of a Thunderstorm

Stage 1: Developing stage

Stage 2: Mature stage

Stage 3: Dissipating stage

Thunderstorm Types

Single cell thunderstorms

Multi cell thunderstorms

Squall lines

Supercells

Thunderstorm Hazards

Detecting and Forecasting

Watches and Warnings

Stay Safe with iAlert.com

You May Also Find Interesting

NOAA Tsunami Research

How 30 Years of NOAA R&D Made a Tsunami Forecast Land Exactly When It Mattered

What made the forecast so good?

How it played out

Why this is the culmination of 30 years

Takeaways

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Saffir-Simpson Hurricane Wind Scale

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NOAA Predicts “Above-Normal” 2025 Atlantic Hurricane Season: What You Need to Know

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