Adding to evidence for mankind's impact on the weather system, the probe found a link between these powerful storms and aerosols, the scientific term for specks of matter suspended in a gas.
Aerosols can occur in natural form -- as dusty volcanic plumes, clouds or fog -- but are also man-made, such as sooty particles from burning coal or oil.
The study focused on particles from North America and Europe that were generated mainly from burning fossil fuels.
They found that tropical storms were much less frequent during periods when emissions of man-made aerosols increased over the North Atlantic.
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"Increases in anthropogenic emissions (particularly of aerosols) through most of the last century is found to have reduced hurricane activity," co-author Ben Booth told AFP.
"The cooling impact of man-emitted aerosols may have had a more important regional impact on climate than we previous appreciated."
Aerosols reflect solar rays and change the brightness of clouds, which affects how much of the Sun's heat is projected onto the surface of the sea, the authors suggest.
Conversely, the study found that measures since the 1980s to tackle pollution and improve air quality reduced levels of aerosols -- and in turn ramped up hurricane activity.
"The clean-up of industrial aerosols in the last 20 years, while being beneficial for human health and linked to a recovery of African Sahel rains since the 1980s droughts, may have contributed to increases in Atlantic hurricane activity," Booth said by email.
The authors said their study, published in the journal Nature Geoscience, is the first to demonstrate a link between aerosols and Atlantic tropical storms.