The Gulf Stream carries heat to the North Atlantic and has a considerable impact on the European climate. The salinity of the Gulf Stream is a precondition of deep water formation in Norskhavet / the Norwegian Sea and Groenlandshavet / the Greenland Sea.  

Why are the warm waters carried so far north? The explanation is found in deep water formation in the North Atlantic.

In the Norwegian Sea and Greenland Sea, surface water descends several kilometres down to the bottom of the ocean where it flows back southwards. The descent of surface water draws new surface water from the south. This flow from the south is in fact the Gulf Stream. 

But why do the water masses decend in the North Atlantic? What keeps the pump going?

The illustration shows how warm surface water flows from the south to the north. It descends at the polar ice front and flows back south.

The descent is accelerated when the surface water freezes to ice. Salt in the surface water is liberated from the ice and is added to the water just below the newly formed ice. The increase in the salinity of the water leads to an increase in the density of the water. So the increase in salinity is the reason why the water descends.  

The descent is due to two things:
The sea surface water freezes to ice and thaws again
The sea surface water under the ice contains a higher salinity than the deeper layers

The North Atlantic has low salinities, so new salt has to be supplied by the Gulf Stream to make the pump work; hence the name: the salt pump. The pump also works by the alternating freezing and thawing of the water. The mechanism can be described in five steps:

1. Warm saline surface water is supplied
2. The surface water freezes to ice and salt is liberated to the water under the ice
3. Cold surface water of higher salinity descends to the bottom
4. Fresh saline water is drawn from the south
5. Ice melts in warm periods

etc.

It is essential that the depth of the sea is quite substantial if the salt pump is to be powerful. So it is important that the ice shelf is situated near the deep areas of the North Atlantic i.e. the Greenland Sea and the Norwegian Sea. 

Climatologists and oceanographers are worried that a warmer climate may have unexpected consequences for deep water formation in the North Atlantic. 

Higher temperatures in the atmosphere will move the polar ice front to the north and closer to land. The ice front moves away from the deep seas between Greenland and Norway and into shallower waters where the salt pump may be substantially weakened.

If the salt pump is weakened the supply of warm saline water to the North Atlantic by the Gulf Stream will be proportionately reduced. The salinity of the water will decrease and the salt pump will be further weakened.

The consequence may be a swift and permanent freezing over of the waters north of Iceland and the Faroe Islands. Then the salt pump and the Gulf Stream will stop carrying heat to the waters north of Iceland. The temperatures over these areas will decrease to a lower level than at present leading to a climate in northern Europe that would be significantly colder, perhaps even comparable to a Glacial Age.

At the moment, this is only theoretical, but scientists have found that the most recent Glacial Age started very suddenly 130,000 years ago. It may have started like this. However, nobody can tell for sure.