Throughout, there has been frequent talk of global warming as a potential driver of such events, but scientists and the media are still struggling with how to communicate the complexities. Nature takes a look at the science behind the storm.

What is making Hurricane Sandy so devastating?
First and foremost is the sheer size of the storm. As it approached the United States’ eastern seaboard on Monday, hurricane-force winds (more than 118.5 kilometres per hour) extended some 280 kilometres from the centre of the storm, peaking around 145 kilometres per hour. Tropical-storm winds registering above 63 kilometres per hour extended outwards for up to 780 kilometres.

Why is it unusual?
Hurricane Sandy is potentially unprecedented, officials say, because of the meteorological context within which it has developed. First, before reaching land, it was feeding off unusually warm surface waters in the Atlantic Ocean. Second, whereas such storms tend to skirt the US coast before drifting to the northeast and dissipating at sea, Sandy has been influenced by a high-pressure system off Greenland that has forced it inland. In doing so, the storm has merged with a winter system moving in from the west, putting forecasters in the unusual position of having to issue snow advisories for a tropical-hurricane system. Finally, the effects of the storm may have been enhanced by a full Moon, which generally means higher than average tides.

 What is the link to global warming?
Some scientists point out that we might expect to see more of these types of severe weather events in a warmer world — even if any one storm cannot be directly attributed to global warming. Earlier this month, a team at the Beijing Normal University in China found that big storm surges have increased in frequency since 1923, and that large-scale events are roughly twice as likely in warmer years than in colder ones. Others have talked about the potential that summer sea ice melt and increasingly open waters in the Arctic Ocean might be altering the flow of the jet stream that circles the Northern Hemisphere, leading to both hurricanes and the large winter storms that have hammered the northeast in recent years.

But the issue is far from settled, and climate change is not the only factor. For example, while sea surface temperatures are currently about 3 °C above average along the Atlantic coast, the expected increase due to global warming is just 0.6 °C, according to Kevin Trenberth, a climate scientist at the National Center for Atmospheric Research in Boulder, Colorado. So while the changing climate certainly plays a role, Trenberth says, there is plenty of space for natural variability.

Going forward, higher sea levels due to global warming are expected to compound the threat of more intense hurricanes. According to a modelling study by researchers at the Massachusetts Institute of Technology in Cambridge and Princeton University in New Jersey, published in February in Nature Climate Change [doi:10.1038/nclimate1389], the combined effects of climatology and a 1-metre increase in sea levels could mean that 100-year surge events occur every 3-20 years by the end of the century.