Monthly Archives: July 2019

Shark fin exports ‘must be banned’

A global demand for shark fin soup has led to environmental campaigners calling on the UK Government to ban exports of the animal product.

Greenpeace UK said Britain has exported more than 50 tonnes of shark fins worth hundreds of thousands of pounds in the past two years.

An investigation by the organisation’s investigative journalism unit claims to expose Britain’s role in fuelling the global market for shark fins.

Fin

Greenpeace said the majority of sharks in European and UK waters are being caught by Spanish vessels.

Sharks are being landed in the UK, and their fins are then sent to Spain, one of the world’s biggest shark fin exporters, the campaign group said, adding that from there they are sold on to meet demand, largely in certain Asian countries, where shark fin soup is considered a delicacy.

Referring to data from HMRC, Greenpeace said shark fins valued at more than £300,000 were sent to Spain since 2017.

Will McCallum, head of oceans at Greenpeace UK, said: “Many people will be gobsmacked to hear that Britain is fuelling a controversial global trade threatening a majestic predator that’s vital to life in our oceans.

“With tens of millions of sharks being killed every year, the UK Government should do all it can to protect these creatures, starting with a ban on shark fin exports.

Controls

“We are campaigning for limits on shark fishing and also at the UN for a strong Global Ocean Treaty which will help shark populations recover from decades of overfishing and provide greater protection for marine life in our seas.”

Graham Buckingham, from shark conservation organisation Bite Back, told Unearthed: “The sheer volume of shark fins being exported by the UK is a shocking indication that global demand for shark fin soup remains high and that sharks from EU waters are paying the price.”

A Defra spokeswoman said: “The UK has a strong track record in marine conservation and we led the charge to ban shark finning across the European Union and pressing for stronger international action.

“While we’re a member of the EU it is not possible to introduce additional restrictions on shark fin trade, but leaving the EU will give us an opportunity to consider further controls.”

This Article

Catherine Wylie is a reporter with PA.

‘Supervet’ attacks puppy farms

Noel Fitzpatrick, star of Channel 4’s The Supervet, has trapped himself in a cage to highlight the conditions some farmed puppies are kept in.

The Irish TV presenter and veterinary surgeon staged the stunt ahead of his new series of Animal Rescue Live, which explores the “silent crisis” in the puppy trade.

Some commercial dog breeding facilities, dubbed puppy farms, are poorly lit and cramped, and some animals die from infection and genetic deformities, Fitzpatrick said.

Neglected

To draw attention to the hot and confined conditions some puppies are transported in, Fitzpatrick, 51, sat inside a cage in the back of a moving van before posing for a picture.

He said: “There is a silent crisis happening right under our noses – a dark secret in the otherwise joyful world of dogs.

“Tens of thousands of puppies are farmed and transported across the UK to be sold to unknowing families. Too young, too weak, too sick. They are woefully neglected and afraid.

Breeders

“No one should be brought into the world in this way, without love and without certainty, with more care for the profit and not the pup. I want to show everyone this terrible journey from their eyes, travelling and experiencing the conditions and fears a young puppy would face.

“The more people know about this reality, the more we can work together to stop puppy farming forever.”

It comes after former environment secretary Michael Gove presented a new law to Parliament in May aimed at cracking down on puppy farms.

Known as Lucy’s Law, it will ban the sale of puppies and kittens from third parties from spring 2020, making buyers deal with breeders directly. Animal Rescue Live airs on Channel 4 in August.

This Author

Alex Green is the PA entertainment reporter.

Shark fin exports ‘must be banned’

A global demand for shark fin soup has led to environmental campaigners calling on the UK Government to ban exports of the animal product.

Greenpeace UK said Britain has exported more than 50 tonnes of shark fins worth hundreds of thousands of pounds in the past two years.

An investigation by the organisation’s investigative journalism unit claims to expose Britain’s role in fuelling the global market for shark fins.

Fin

Greenpeace said the majority of sharks in European and UK waters are being caught by Spanish vessels.

Sharks are being landed in the UK, and their fins are then sent to Spain, one of the world’s biggest shark fin exporters, the campaign group said, adding that from there they are sold on to meet demand, largely in certain Asian countries, where shark fin soup is considered a delicacy.

Referring to data from HMRC, Greenpeace said shark fins valued at more than £300,000 were sent to Spain since 2017.

Will McCallum, head of oceans at Greenpeace UK, said: “Many people will be gobsmacked to hear that Britain is fuelling a controversial global trade threatening a majestic predator that’s vital to life in our oceans.

“With tens of millions of sharks being killed every year, the UK Government should do all it can to protect these creatures, starting with a ban on shark fin exports.

Controls

“We are campaigning for limits on shark fishing and also at the UN for a strong Global Ocean Treaty which will help shark populations recover from decades of overfishing and provide greater protection for marine life in our seas.”

Graham Buckingham, from shark conservation organisation Bite Back, told Unearthed: “The sheer volume of shark fins being exported by the UK is a shocking indication that global demand for shark fin soup remains high and that sharks from EU waters are paying the price.”

A Defra spokeswoman said: “The UK has a strong track record in marine conservation and we led the charge to ban shark finning across the European Union and pressing for stronger international action.

“While we’re a member of the EU it is not possible to introduce additional restrictions on shark fin trade, but leaving the EU will give us an opportunity to consider further controls.”

This Article

Catherine Wylie is a reporter with PA.

Jo Swinson, fracking and social justice

The newly elected leader of the Liberal Democrats, Jo Swinson, has a chequered history in relation to the environment – which is somewhat eclipsed by her dire record on poverty and workers’ rights.

The Lib Dems elected Swinson by a margin of 20,000 votes over her opponent, former energy secretary Ed Davey, on Monday of last week. Swinson, who has worked in corporate PR, was the party’s deputy leader, and held employment and equalities posts under the 2010-15 coalition government with the Conservatives.

In May, Andy Briggs, co-chair of pro-market Lib Dem faction Liberal Reform, welcomed Swinson’s election as a move to the neoliberal right after four years under more left-leaning, social-democratic leaders. Briggs applauded the former minister’s record in office, praising her for opposing energy price caps, rejecting gender quotas and supporting zero-hours contracts.

Folded

Swinson’s victory speech in London emphasised Brexit, populism, climate change and living standards. “Liberal Democrats can make a real difference,” she told the crowd, “when we take power and put our principles into practice.” She nevertheless continued to rule out coalition with Jeremy Corbyn or Boris Johnson.

The incoming leader spoke of “a planet that is at breaking point”, adding: “We are the last generation who can act to stop catastrophic climate change, and yet the government is failing to take the urgent action we need.”

Though Swinson made climate a major campaign theme, her record on the issue proves remarkably patchy. She talks a good game on the climate emergency, and boasts of joining April’s Extinction Rebellion protests. Unlike most XR activists, however, she has taken money from fracking interests and voted down key regulations on the industry.

In July 2017 Swinson took a personal donation of £10,000 from Mark Petterson, director of Warwick Energy – a company with fracking licences across England – and a further £4,000 in January 2018. This was after she had voted against an eighteen-month fracking ban, against a review of the industry’s environmental, health and social effects and against requiring frackers to get environmental permits.

Petterson’s co-directors, John Sulley and Rob Jones, had previously paid out $48 million settling a securities fraud suit after their $2.3 billion company Independent Energy collapsed in 2000. They founded Warwick Energy just weeks after its predecessor folded.

Wellbeing

Swinson is open to concerns that she sometimes seems to support climate action in principle but oppose it in practice. In 2012 she voted to create a Green Investment Bank; yet that same year she voted against making the bank help cut UK emissions in line with the law. 

She voted for 2008’s Climate Change Act and wants to make companies report on climate risks. Yet in 2013 she opposed setting CO2 targets per unit of electricity and voted against closing a loophole on fossil fuel plants’ emissions standards.

Swinson claims she has “campaigned tirelessly to save our environment” since childhood and believes “the economy must work for the planet”.

Yet on key green issues like the badger cull, high-speed rail and renewables subsidies, Swinson has repeatedly voted with the government and against environmentalists.

In 2009 she founded a parliamentary group on wellbeing economics; in 2011 she voted to sell off England’s forests. And she has consistently voted against curbing the UK’s ballooning rail fares.

Unlawful

The MP has been consistent only in taxing flights and slamming Easter egg containers – she tabled a 2007 bill against excessive packaging. She has a mixed record on fuel taxes, and she has taken no action in relation to public control of trains and buses.

Meanwhile, social justice campaigners have condemned Swinson’s record of aiding Tory attacks on the poor – slashing housing and council tax benefits, backing the bedroom tax, cutting legal aid, slashing benefits for the disabled and out-of-work, and opposing job guarantees for the long-term unemployed.

“We have families where both parents are working full-time on the so-called National Living Wage but who can’t provide the basics for their children,” Swinson told her London audience on Monday: “I’m talking about food, school uniforms, a warm home.” The UK’s “social contract”, she added, is “fundamentally broken”.

Yet as employment minister under the coalition, Swinson opposed a living wage and froze the minimum wage for young people. Her department considered freezing or even cutting the minimum wage if the UK hit a recession.

She backed the tuition fee hikes that her party had promised to oppose – a promise she claimed to regret. She priced thousands out of access to justice by introducing employment tribunal fees of up to £1,200 – a measure Britain’s Supreme Court later ruled unlawful.

Values

Sociologist Phil Burton-Cartledge dubs Swinson a “yellow Tory”, finding she voted with the Conservative whip nearly 850 times between 2010 and 2015 – more often than senior Tories Jeremy Hunt and Michael Gove. Swinson herself penned a March 2018 Mail on Sunday column demanding a statue of Thatcher in Parliament Square.

On the environment, then, Swinson’s record raises serious questions. For one, are the Lib Dems truly committed to urgent action, and how negotiable is that commitment when its leaders scent real power?

More fundamentally for twenty-first century liberals, can centrist parties sustain incremental green policies while ignoring poverty and inequality? And what happens when environmental tinkering accompanies attacks on the poor, entrenches inequality, or hurts struggling people?

Two recent cases illustrate the risks. Last April, Nick Clegg’s former policy director Polly Mackenzie provoked fury when she revealed the Lib Dems had won a trivial green policy – a 5p charge on plastic bags – by agreeing to help tighten benefit sanctions.

Carol Lindsay, the editor of Liberal Democrat Voice, expressed horror and disbelief that “such a brutal policy was traded in such a blasé fashion”, calling the decision an ignorant, “completely avoidable” mistake that “caused untold hardship” and betrayed the party’s stated values.

Jo Swinson may promise the Earth, then – but her record raises questions about her ability and willingness to deliver.

Like liberal centrists elsewhere, she will need to confront the inequality and stagnant living standards that regularly unravel market-driven environmentalism. And many will doubt that a “moderate” neoliberal party of professional middle-class supporters and wealthy funders truly has the stomach for that fight.

This Author

Tim Holmes is an ‘active bystander’ and also researcher, writer and editor. He tweets at @timbird84.

Fortress Europe and climate apocalypse

A good friend told me that however hopeless things feel we have to keep fighting, even if there is just one chance in a million of preventing runaway climate breakdown. I’ve known him since 2008, when we camped next door to one another at a planned coal-fired power station. I agree – but it is not just climate breakdown that we are fighting. 

The climate crisis is not a one-off event – it’s incremental, bit by bit. When scientists estimate how many lives will be lost for each degree of warming, each tonne of CO2, they are also telling us how many lives can be saved by each gas power station shut down for a day, each year of no fracking on the Fylde, each million more vegans, each country phasing out coal, each airport runway not built.  

Not only that, but they tell us how many children will have a chance of playing and laughing, how many people can grow old without roasting or freezing, how many homes can be spared forest fires or floods.  It’s the difference between gunfire and music, between hunger and plenty, between concentration camps and camps like Power Beyond Borders organised by Reclaim the Powert his month.

Survival and resistance 

In Western Europe, the people who know this best are those who have fled from the South or the East, people who can teach all of us about survival and resistance. For those of us who have grown up expecting a life of relative safety, comfort and possibilities, the present is beyond our experience and the future is a land without maps.

Sometimes we comfort ourselves that the little we can do by not eating meat or not flying or setting up an energy co-op will save the world from catastrophe – if everyone does it. This is very unlikely, but every little helps and every bigger victory, every successful confrontation with the forces destroying the world, every step towards the unity of our own forces helps much more. 

If fighting the climate apocalypse means saving lives, then part of our perspective must be open borders. To the degree that the powers of finance and fossil fuel capital allow themselves brains and hearts and plans, their vision must be that they will preserve some bastions of comfort for themselves and their families, some enclave in a temperate zone – northern Scotland? – where they can continue to drink champagne, in mansions air-conditioned with the help of precious metals extracted by slave labour in tropical heat. 

Maybe some of them will be disabused of this notion by their children. But in the meantime, an essential part of the movement against climate apocalypse is the fight against their dream – and the reality – of a fortress Europe, because that fortress is an integral part of the apocalypse.  

This Author

Ruth London is an experienced campaigner on climate and energy justice. She works with Fuel Poverty Action.

Power Beyond Borders is a mass action camp fighting for climate and migrant justice. 

Glacier melting ‘faster than feared’

Glaciers could be melting underwater at a faster rate than previously thought, new research suggests.

Scientists have developed a method to directly measure the submarine melt rate of a tidewater glacier.

Their results suggest current theoretical models may be massively underestimating glacial melt.

Flows

Previously direct melting measurements have been made on ice shelves in Antarctica by boring through to the ice-ocean interface beneath.

But where there are vertical-face glaciers that end at the ocean, those techniques are not possible.

University of Oregon oceanographer Dave Sutherland said: “We don’t have that platform to be able to access the ice in this way. Tidewater glaciers are always calving and moving very rapidly, and you don’t want to take a boat up there too closely.”

In a National Science Foundation-funded project, a team of scientists led by Mr Sutherland studied the subsurface melting of the LeConte Glacier, which flows into LeConte Bay south of Juneau, Alaska.

Melt

The findings, which scientists say could lead to improved forecasting of climate-driven sea level rise, are published in the journal Science.

In the past, research on the underwater melting of glaciers has mainly relied on theoretical modelling, measuring conditions near the glaciers and then applying theory to predict melt rates. But the theory has rarely been tested, the researchers say.

The team deployed a multibeam sonar to scan the glacier’s ocean-ice interface from a fishing vessel six times in August 2016 and five times in May 2017.

Co-author Rebecca Jackson, an oceanographer at Rutgers University-New Brunswick, said: “We measured both the ocean properties in front of the glacier and the melt rates, and we found that they are not related in the way we expected.

“These two sets of measurements show that melt rates are significantly, sometimes up to a factor of 100, higher than existing theory would predict.”

Ambient

There are two main categories of glacial melt – discharge-driven and ambient melt. Subglacial discharge occurs when large volumes, or plumes, of buoyant meltwater are released below the glacier.

When the plume combines with surrounding water to pick up speed and volume, the current steadily eats away from the glacier face. Most previous studies have focused on these discharge plumes.

However, they typically affect only a narrow area of the glacier face, while ambient melt covers the rest of it.

The researchers say predictions have estimated ambient melt to be 10 to 100 times less than the discharge melt, and therefore it is often disregarded as insignificant.

Feedbacks

The team found submarine melt rates were high across the glacier’s face over both of the seasons surveyed, and that it increases from spring to summer.

While the team recognises the study only focused on one marine-terminating glacier, they believe the new approach should be useful to any researchers.

“Future sea level rise is primarily determined by how much ice is stored in these ice sheets,” Mr Sutherland said.

“We are focusing on the ocean-ice interfaces, because that’s where the extra melt and ice is coming from that controls how fast ice is lost. To improve the modelling, we have to know more about where melting occurs and the feedbacks involved.”

This Author

Nina Massey is the PA science correspondent.

Glacier melting ‘faster than feared’

Glaciers could be melting underwater at a faster rate than previously thought, new research suggests.

Scientists have developed a method to directly measure the submarine melt rate of a tidewater glacier.

Their results suggest current theoretical models may be massively underestimating glacial melt.

Flows

Previously direct melting measurements have been made on ice shelves in Antarctica by boring through to the ice-ocean interface beneath.

But where there are vertical-face glaciers that end at the ocean, those techniques are not possible.

University of Oregon oceanographer Dave Sutherland said: “We don’t have that platform to be able to access the ice in this way. Tidewater glaciers are always calving and moving very rapidly, and you don’t want to take a boat up there too closely.”

In a National Science Foundation-funded project, a team of scientists led by Mr Sutherland studied the subsurface melting of the LeConte Glacier, which flows into LeConte Bay south of Juneau, Alaska.

Melt

The findings, which scientists say could lead to improved forecasting of climate-driven sea level rise, are published in the journal Science.

In the past, research on the underwater melting of glaciers has mainly relied on theoretical modelling, measuring conditions near the glaciers and then applying theory to predict melt rates. But the theory has rarely been tested, the researchers say.

The team deployed a multibeam sonar to scan the glacier’s ocean-ice interface from a fishing vessel six times in August 2016 and five times in May 2017.

Co-author Rebecca Jackson, an oceanographer at Rutgers University-New Brunswick, said: “We measured both the ocean properties in front of the glacier and the melt rates, and we found that they are not related in the way we expected.

“These two sets of measurements show that melt rates are significantly, sometimes up to a factor of 100, higher than existing theory would predict.”

Ambient

There are two main categories of glacial melt – discharge-driven and ambient melt. Subglacial discharge occurs when large volumes, or plumes, of buoyant meltwater are released below the glacier.

When the plume combines with surrounding water to pick up speed and volume, the current steadily eats away from the glacier face. Most previous studies have focused on these discharge plumes.

However, they typically affect only a narrow area of the glacier face, while ambient melt covers the rest of it.

The researchers say predictions have estimated ambient melt to be 10 to 100 times less than the discharge melt, and therefore it is often disregarded as insignificant.

Feedbacks

The team found submarine melt rates were high across the glacier’s face over both of the seasons surveyed, and that it increases from spring to summer.

While the team recognises the study only focused on one marine-terminating glacier, they believe the new approach should be useful to any researchers.

“Future sea level rise is primarily determined by how much ice is stored in these ice sheets,” Mr Sutherland said.

“We are focusing on the ocean-ice interfaces, because that’s where the extra melt and ice is coming from that controls how fast ice is lost. To improve the modelling, we have to know more about where melting occurs and the feedbacks involved.”

This Author

Nina Massey is the PA science correspondent.

Glacier melting ‘faster than feared’

Glaciers could be melting underwater at a faster rate than previously thought, new research suggests.

Scientists have developed a method to directly measure the submarine melt rate of a tidewater glacier.

Their results suggest current theoretical models may be massively underestimating glacial melt.

Flows

Previously direct melting measurements have been made on ice shelves in Antarctica by boring through to the ice-ocean interface beneath.

But where there are vertical-face glaciers that end at the ocean, those techniques are not possible.

University of Oregon oceanographer Dave Sutherland said: “We don’t have that platform to be able to access the ice in this way. Tidewater glaciers are always calving and moving very rapidly, and you don’t want to take a boat up there too closely.”

In a National Science Foundation-funded project, a team of scientists led by Mr Sutherland studied the subsurface melting of the LeConte Glacier, which flows into LeConte Bay south of Juneau, Alaska.

Melt

The findings, which scientists say could lead to improved forecasting of climate-driven sea level rise, are published in the journal Science.

In the past, research on the underwater melting of glaciers has mainly relied on theoretical modelling, measuring conditions near the glaciers and then applying theory to predict melt rates. But the theory has rarely been tested, the researchers say.

The team deployed a multibeam sonar to scan the glacier’s ocean-ice interface from a fishing vessel six times in August 2016 and five times in May 2017.

Co-author Rebecca Jackson, an oceanographer at Rutgers University-New Brunswick, said: “We measured both the ocean properties in front of the glacier and the melt rates, and we found that they are not related in the way we expected.

“These two sets of measurements show that melt rates are significantly, sometimes up to a factor of 100, higher than existing theory would predict.”

Ambient

There are two main categories of glacial melt – discharge-driven and ambient melt. Subglacial discharge occurs when large volumes, or plumes, of buoyant meltwater are released below the glacier.

When the plume combines with surrounding water to pick up speed and volume, the current steadily eats away from the glacier face. Most previous studies have focused on these discharge plumes.

However, they typically affect only a narrow area of the glacier face, while ambient melt covers the rest of it.

The researchers say predictions have estimated ambient melt to be 10 to 100 times less than the discharge melt, and therefore it is often disregarded as insignificant.

Feedbacks

The team found submarine melt rates were high across the glacier’s face over both of the seasons surveyed, and that it increases from spring to summer.

While the team recognises the study only focused on one marine-terminating glacier, they believe the new approach should be useful to any researchers.

“Future sea level rise is primarily determined by how much ice is stored in these ice sheets,” Mr Sutherland said.

“We are focusing on the ocean-ice interfaces, because that’s where the extra melt and ice is coming from that controls how fast ice is lost. To improve the modelling, we have to know more about where melting occurs and the feedbacks involved.”

This Author

Nina Massey is the PA science correspondent.

Glacier melting ‘faster than feared’

Glaciers could be melting underwater at a faster rate than previously thought, new research suggests.

Scientists have developed a method to directly measure the submarine melt rate of a tidewater glacier.

Their results suggest current theoretical models may be massively underestimating glacial melt.

Flows

Previously direct melting measurements have been made on ice shelves in Antarctica by boring through to the ice-ocean interface beneath.

But where there are vertical-face glaciers that end at the ocean, those techniques are not possible.

University of Oregon oceanographer Dave Sutherland said: “We don’t have that platform to be able to access the ice in this way. Tidewater glaciers are always calving and moving very rapidly, and you don’t want to take a boat up there too closely.”

In a National Science Foundation-funded project, a team of scientists led by Mr Sutherland studied the subsurface melting of the LeConte Glacier, which flows into LeConte Bay south of Juneau, Alaska.

Melt

The findings, which scientists say could lead to improved forecasting of climate-driven sea level rise, are published in the journal Science.

In the past, research on the underwater melting of glaciers has mainly relied on theoretical modelling, measuring conditions near the glaciers and then applying theory to predict melt rates. But the theory has rarely been tested, the researchers say.

The team deployed a multibeam sonar to scan the glacier’s ocean-ice interface from a fishing vessel six times in August 2016 and five times in May 2017.

Co-author Rebecca Jackson, an oceanographer at Rutgers University-New Brunswick, said: “We measured both the ocean properties in front of the glacier and the melt rates, and we found that they are not related in the way we expected.

“These two sets of measurements show that melt rates are significantly, sometimes up to a factor of 100, higher than existing theory would predict.”

Ambient

There are two main categories of glacial melt – discharge-driven and ambient melt. Subglacial discharge occurs when large volumes, or plumes, of buoyant meltwater are released below the glacier.

When the plume combines with surrounding water to pick up speed and volume, the current steadily eats away from the glacier face. Most previous studies have focused on these discharge plumes.

However, they typically affect only a narrow area of the glacier face, while ambient melt covers the rest of it.

The researchers say predictions have estimated ambient melt to be 10 to 100 times less than the discharge melt, and therefore it is often disregarded as insignificant.

Feedbacks

The team found submarine melt rates were high across the glacier’s face over both of the seasons surveyed, and that it increases from spring to summer.

While the team recognises the study only focused on one marine-terminating glacier, they believe the new approach should be useful to any researchers.

“Future sea level rise is primarily determined by how much ice is stored in these ice sheets,” Mr Sutherland said.

“We are focusing on the ocean-ice interfaces, because that’s where the extra melt and ice is coming from that controls how fast ice is lost. To improve the modelling, we have to know more about where melting occurs and the feedbacks involved.”

This Author

Nina Massey is the PA science correspondent.

Glacier melting ‘faster than feared’

Glaciers could be melting underwater at a faster rate than previously thought, new research suggests.

Scientists have developed a method to directly measure the submarine melt rate of a tidewater glacier.

Their results suggest current theoretical models may be massively underestimating glacial melt.

Flows

Previously direct melting measurements have been made on ice shelves in Antarctica by boring through to the ice-ocean interface beneath.

But where there are vertical-face glaciers that end at the ocean, those techniques are not possible.

University of Oregon oceanographer Dave Sutherland said: “We don’t have that platform to be able to access the ice in this way. Tidewater glaciers are always calving and moving very rapidly, and you don’t want to take a boat up there too closely.”

In a National Science Foundation-funded project, a team of scientists led by Mr Sutherland studied the subsurface melting of the LeConte Glacier, which flows into LeConte Bay south of Juneau, Alaska.

Melt

The findings, which scientists say could lead to improved forecasting of climate-driven sea level rise, are published in the journal Science.

In the past, research on the underwater melting of glaciers has mainly relied on theoretical modelling, measuring conditions near the glaciers and then applying theory to predict melt rates. But the theory has rarely been tested, the researchers say.

The team deployed a multibeam sonar to scan the glacier’s ocean-ice interface from a fishing vessel six times in August 2016 and five times in May 2017.

Co-author Rebecca Jackson, an oceanographer at Rutgers University-New Brunswick, said: “We measured both the ocean properties in front of the glacier and the melt rates, and we found that they are not related in the way we expected.

“These two sets of measurements show that melt rates are significantly, sometimes up to a factor of 100, higher than existing theory would predict.”

Ambient

There are two main categories of glacial melt – discharge-driven and ambient melt. Subglacial discharge occurs when large volumes, or plumes, of buoyant meltwater are released below the glacier.

When the plume combines with surrounding water to pick up speed and volume, the current steadily eats away from the glacier face. Most previous studies have focused on these discharge plumes.

However, they typically affect only a narrow area of the glacier face, while ambient melt covers the rest of it.

The researchers say predictions have estimated ambient melt to be 10 to 100 times less than the discharge melt, and therefore it is often disregarded as insignificant.

Feedbacks

The team found submarine melt rates were high across the glacier’s face over both of the seasons surveyed, and that it increases from spring to summer.

While the team recognises the study only focused on one marine-terminating glacier, they believe the new approach should be useful to any researchers.

“Future sea level rise is primarily determined by how much ice is stored in these ice sheets,” Mr Sutherland said.

“We are focusing on the ocean-ice interfaces, because that’s where the extra melt and ice is coming from that controls how fast ice is lost. To improve the modelling, we have to know more about where melting occurs and the feedbacks involved.”

This Author

Nina Massey is the PA science correspondent.