Coastal areas are facing an increasing threat of flooding, according to environmentalists and other scientists.
AREAS AT RISK
Shading shows likely extent of flooding from overflowing rivers and exceptionally high seas if there were no flood defences (Environment Agency)
Environment Agency says most flood defences should be able to cope unless they coincide with particularly severe weather
There are a number of areas in England and Wales - detailed in the above map - considered to face an ongoing susceptibility to flooding by the Environment Agency.
Towns and villages in north Norfolk, plus King's Lynn in west Norfolk, are considered the most at risk from tidal flooding.
EAST COAST THREAT
Prevailing SW winds carry depression to NW Scotland
"Mean" current forces surge to right of wind direction
If low also moves east, surge is forced southwards
Shallower seabed means surge elevations higher in southern parts of North Sea
The map shows the extent to which those areas are likely to flood from overflowing rivers and exceptionally high seas if no defences are in place.
And it also highlights the cities that scientists believe are most at risk from New Orleans-style flooding - Cardiff, Hull and Portsmouth.
They would be most at risk during the particularly high tides known as spring tides, which occur throughout the year and are governed by the gravitational pulls of the Sun and Moon.
The Environment Agency says problems are likely only if an unusual combination of events - strong winds, extremely low pressure and a storm surge - occurred during the high tides.
The storm surge is considered the catalyst for this exceptional scenario.
Fuelled by strong winds, if a surge coincides with low pressure, it could raise the sea level around eastern England by more than 2m.
That could lead to large-scale flooding in areas of limited or damaged flood defences.
HOW A STORM SURGE CAN CAUSE FLOODING
Powerful winds push water towards coast
Low pressure forces bulge in sea surface, which creates a surge when fanned by the winds
Sea levels will rise by about 1cm for every 1 millibar decrease in pressure
A depression of about 960mb - about 50mb less than average barometric pressure - would raise sea levels by about half a metre
If there is a high tide at the time the resulting waves could breach even sound coastal defences