By Paul Rincon

Science reporter, BBC News



Sediment from the landslide was funneled through an undersea canyon

The landslide off the coast of north-west Africa dumped 225 billion metric tons of sediment into the ocean in a matter of hours or days.

The flow travelled 1,500km (932 miles) - the distance from London to Rome - before depositing its sediment.

The work, by a British team of researchers has been published in the academic journal Nature.

It was at least as big as many volcanic eruptions

Peter Talling, University of Bristol

After blocks from the original landslide disintegrated, the sand and mud travelled hundreds of kilometres suspended in the water, without depositing any sediment on the sea floor that it had passed over.

The study used sediment cores drilled from the sea bed

A tiny drop in the sea-floor gradient (from 0.05 degrees to 0.01 degrees) eventually forced the flow to settle into a cohesive mass.

In places, the flow was over 150km (93 miles) wide, spread across the open sea floor.

"If you look at the distance it travelled and how much material it moved, it was at least as big as many volcanic eruptions," Dr Talling told BBC News.

The discovery came from an analysis of shallow sediment cores drilled from the sea bed during a cruise in the research ship Charles Darwin off the north-west African coast.

Dr Talling worked on the project with colleagues from the National Oceanography Centre in Southampton, UK, including Russell Wynn and Doug Masson.

The researchers had to brave rough seas during the cruise

The landslide which triggered this flow was not itself the biggest known. Several that occurred off the coast of Hawaii involved the movement of more material.

The Storegga slip off the coast of Norway was also larger.

But the scale of the flow that resulted from the African slip amazed the scientists.

Understanding the cause and evolution of these infrequent undersea flows could help exploration of the sea floor.

It could, for example, assist researchers to assess hazards posed to installations for recovering subsurface oil and gas reserves - which can be worth hundreds of millions of dollars.

Paul.Rincon-INTERNET@bbc.co.uk