SCOTS researchers have been handed £1million to explore whether the melting of the "Achilles heel of the Antarctic ice-sheet" will raise global sea levels by one metre by 2100.

The Thwaites Glacier in West Antarctica covers 182,000 square kilometres - an area the size of Great Britain - and is one of the biggest in the world.

However it is quickly thinning, losing around 50 billion tonnes of ice every year, scientists say.

READ MORE: Scientist takes up post in Scotland after long spell in Antarctica

Researchers at the University of St Andrews have won two major grants of £438,000 and £540,000 to discover whether the collapse of a huge Antarctic glacier could raise global sea levels by as much as a metre by the end of this century.

Doug Benn, Professor of Environmental Change at the University of St Andrews, will lead the DOMINOS (Disintegration of Marine Ice Sheets Using Novel Optimised Simulations) project which will use computer modelling to examine how break-up of the glacier could increase the rate of ice flow into the ocean. Professor Benn will work with collaborators Jeremy Bassis (University of Michigan), Jan Åström and Thomas Zwinger (IT Center for Science, Helsinki) and Adrian Luckman (University of Swansea).

The UK Natural Environment Research Council (NERC) and the US National Science Foundation (NSF) will deploy scientists to investigate what is causing ice loss at the glacier, how quickly it could collapse and how that would impact global sea levels.

READ MORE: Scientist takes up post in Scotland after long spell in Antarctica

The five-year programme, called the International Thwaites Glacier Collaboration (ITGC), is the largest to be undertaken by the UK and US together in more than 70 years.

Professor Duncan Wingham, chief executive of NERC, said: "The fate of the Thwaites Glacier is one the big unknowns in Antarctic science.

"We currently do not know enough about the likelihood, timing and magnitude of the collapse of West Antarctic glaciers such as Thwaites for countries to be able to plan accordingly.

"NERC and NSF, working together, are uniquely placed to attempt to reduce the scientific uncertainty about these unknowns, providing answers to one of the most important questions facing us about global sea-level rise."

READ MORE: Scientist takes up post in Scotland after long spell in Antarctica

Glaciers contribute to sea-level rise when more ice is lost to the ocean that is replaced by snow.

Scientists fear the collapse of both Thwaites Glacier and Pine Island Glacier, two of the biggest and fastest retreating in Antarctica, could cause sea levels to rise by over a metre.

It is also thought that without them the entire West Antarctic Ice Sheet could be more likely to collapsing, leading sea levels to rise by over three metres.

Around 100 scientists from the UK and US will work with researchers from South Korea, Germany, Sweden, New Zealand and Finland to try to understand the changes.

The nearest research centre is more than 1,600 kilometres away from Thwaites Glacier and moving scientists around will require both aircraft and marine support.

Dr. William E. Easterling, assistant director for the NSF geosciences directorate, said: "Satellites show the Thwaites region is changing rapidly, but to answer the key questions of how much, and how quickly sea-level will change in the future requires scientists on the ground with sophisticated equipment collecting the data we need to measure rates of ice-volume, or ice-mass change.

"The challenges of conducting fieldwork of this scope and scale in such remote locations are enormous.

"The only practical way for nations to do this is to work collaboratively, each bringing their resources, both scientific and logistical, to enable complex and comprehensive field studies."

READ MORE: Scientist takes up post in Scotland after long spell in Antarctica

Science Minister Sam Gyimah said: "Rising sea levels are a globally important issue which cannot be tackled by one country alone.

"The Thwaites Glacier already contributes to rising sea levels and understanding its likely collapse in the coming century is vitally important."

Around £20 million will be used to fund eight individual research projects, with the programme set to begin in October 2018.