This year’s Atlantic hurricane season has broken the record for the number of named storms, the US National Hurricane Center says.
Subtropical storm Theta in the north-east Atlantic is the 29th, breaking the previous record of 28 set in 2005.
Forecasters say another system is forming in the Caribbean which could be named in the near future.
Meteorologists say several factors are behind the increasing number of tropical storms.
Particularly dangerous storms are given names to raise public awareness before they strike.
The hurricane season, which runs from 1 July to 30 November, has produced storms like Eta, which struck Florida at the weekend after causing destruction and killing dozens in parts of Central America.
Zeta hit Louisiana at the end of October, becoming the fifth named storm to make landfall in the state this season.
Theta, not currently a hurricane, is moving north-eastwards towards southern Europe.
Forecasters are watching the formation of another possible storm moving westwards over the central Caribbean Sea.
Why has 2020 been so active?
There are a number of factors which have contributed to a very active hurricane season, meteorologist Nikki Berry.
The most influential are very warm sea surface temperatures, low wind shear, increased instability over West Africa and La Nina, she adds.
Sea surface temperatures were consistently 1-2C above normal through the summer months and these anomalies increased to 2-3C during September, especially around the Caribbean, Gulf of Mexico and off the coast of Africa, where many storms start to develop.
Wind shear was extremely low through the summer months and this allows tropical storms to intensify and maintain tropical circulations, rather than being torn apart by opposing winds in the different layers of the atmosphere.
A pulse of enhanced rainfall, known as the Madden-Julian Oscillation, moves eastwards round the equator – when it is located over West Africa, it causes more rainfall and thunderstorms which can give birth to tropical storms over the east Atlantic.
La Niña, a change in Pacific Ocean temperatures with cooler water being pushed eastwards across the equatorial Pacific, has also been more influential. It can affect global weather patterns and one of the effects is an increased number and strength of Atlantic tropical cyclones, especially late in the season.