That's how I remember the iceberg, and that's the side of it you'll see if you watch the programs. But since then things have changed. We left a GPS tracker as a passenger, so we know that the iceberg has travelled 96 kilometres, and is now about 48 kilometres south of where it was in August. It has done a few pirouettes, and only 65 per cent of it is left. The battle has taken its toll. The iceberg only gets seven hours and 40 minutes of daylight now, and soon the darkness will swallow it up completely. Since the supply of energy from the sun is so weak, the siege is over for this year. A winter respite is beginning.

Sea ice is advancing towards the berg from the north. This is the other type of ice at the poles, formed when the sea surface itself freezes. It's fascinating stuff, because the salt is mostly squeezed out as it freezes, so sea ice is almost fresh. It starts as fragile platelets, and thickens as the water temperature drops. In an average year (out of the past 30 years), the sea ice would already have reached our iceberg. But this year, there was less summer sea ice in the Arctic than any other year on record, so it is taking longer for the great freeze to reach 69N. The sea ice is still crawling south, and when it touches the cliffs I saw, it will connect our iceberg to all the other ice in the Arctic. The iceberg will be frozen in place. Darkness and silence will rule. The bears will be able to walk out on to the sea ice and hunt again.

In the middle of one of my typical frantic workdays, I enjoy imagining where ''our'' iceberg is now. I have a giant map of the world on my office wall, and it reminds me that the whole planet is accessible to a drop of water. After all, every ocean is connected to all other oceans. This iceberg is just ocean that has been in cold storage for a few thousand years. It is two years since it broke off from its parent glacier, and now we know it will last at least one more year as solid ice. But it will lose the battle in the end. Energy from the sun will free the water molecules and one day the last piece of solid ice will melt to a water drop.

That drop could end up almost anywhere - as mist in a Costa Rican cloud forest, as a cup of tea in China, inside an Olympic athlete or in a puddle in Dorset, in south-west England. The coffee you're drinking as you read this could have been part of an iceberg once. And now it's going to become part of you. Isn't that fantastic?

The Guardian