Planet Earth: Our Loving Home
 
Fast Disappearing Sea Ice: Interview with Professor Peter Wadhams      
Download    
Welcome, noble world citizens, to Planet Earth: Our Loving Home. Professor James Hansen, a leading climate scientist from the US National Aeronautics and Space Administration (NASA), warns of our planet quickly reaching a tipping point if global warming continues at its current pace after which runaway climate change will occur.

At that time nothing will be able to save our planet from non-stop cataclysms such as the total inundation of coastal cities by the oceans, extreme temperatures, and catastrophic storms and flooding that destroy everything in their path. One of the warning signs we are on this path to destruction is the rapid melting of sea ice, glaciers and ice sheets in and around the Arctic and Antarctic.

Disappearing ice causes the reflectivity of the polar ice cap in the Arctic to be reduced. When this happens, solar radiation is absorbed rather than being bounced back into space resulting in warmer seas, even less ice and a hotter world. The climbing ocean temperatures are causing a fast sea ice retreat.

In 2009 scientists at the National Snow and Ice Data Center in the US estimated that in the Arctic just 10% of the ice is older, thicker ice and 90% is newly created, thin ice. Today Professor Peter Wadhams of the University of Cambridge, UK will discuss the impact of these troubling ongoing processes. My name is Peter Wadhams. I am Professor of Ocean Physics here at the Department of Applied Mathematics and Theoretical Physics at Cambridge University. I specialize in the study of sea ice and I run a research group which works on the thickness and properties of sea ice, and the motion of sea ice and at the moment, of course, the climatic effects of sea ice, the fact that it’s disappearing.

So that involves working in the Arctic and in the Antarctic, using underwater vehicles to measure how the (ice) thickness is changing. If you look over the last 20 to 25 years, the Arctic has lost nearly half of its thickness just in that length of time, and this is a bigger loss than the decreasing area, so the Arctic is shrinking. It’s also thinning fast so it disappears vertically before it disappears by shrinking sideways.

It’s reached the point now where the ocean is warmer and the air temperature is warmer. So we’re reaching what you could call a tipping point where the melt in the summer is now great enough that all of the winter ice will disappear and only the older ice will stay at the end of the summer. There’s a big jump in the amount of ice that’s disappearing every year.

If this pernicious pattern persists, the sea ice will continue to recede until it vanishes completely. Without action, the day of this unthinkable possibility is closer than most of us imagine.

The submarine data and climate models are both showing continuing thinning and continuing retreat. The models actually show wide varieties of predictions, but the conservative ones are saying that perhaps in 20 to 30 years’ time all of the sea ice will have disappeared during the summer months, especially in September. But some predictions are that it will happen quicker than that.

I suspect it’ll happen quicker because lots of new processes are coming into play. A lot more wave energy is formed because you got now big ocean areas which used to be ice covered, and the waves come in and break the ice up some more, and because the ice is unconstrained by land masses, it can expand out and break up. The rate of decay or the rate of retreat will increase as the actual area gets much smaller. Eventually it’s like falling off a cliff, it will just all go.

What are some of the other negative consequences of sea ice loss?

The continental-shelf areas around the Arctic, here the water is very shallow; it’s less than 100 meters deep. As the ice retreats in the summer, the water itself can warm up and it’s absorbing solar radiation, it warms the whole water column right down to the seabed.

You can get up to about five degrees (Celsius) now in the summer, and that means the seabed reaches five degrees (Celsius), and that’s enough to melt the permafrost on the seabed. And then the permafrost melting releases methane and hydrates that were trapped underneath it.

So you’re going to get methane releases all the way around the edges of the Arctic in the summer. They’ve already been detected around the Siberian Sea and probably we’ll be getting them all the way around and that will mean an increase in the atmospheric-methane level. In 2010 a team of scientists led by Dr. Natalia Shakhova from the Russian Academy of Sciences studied the East Siberian Arctic Shelf and took samples of methane concentrations at various ocean depths. They found that annually a staggering seven teragrams of methane is being released from the shelf, with each teragram equivalent to 1.1 million tons of carbon.

This quantity of methane is the same amount all the oceans around the world emit each year. Methane has 72-times the global warming potential of carbon dioxide over a 20-year period. Known as one of the “shorter-lived” greenhouse gases, methane has been identified as one of the most important gases needed to be reduced quickly in order to initiate rapid planetary cooling.

It’s a very powerful greenhouse gas, although it’s shorter-lived than carbon dioxide so if you have a big pulse of methane it would have a big, immediate effect on global warming, really accelerated, and the aftermath would last perhaps seven years before it fades away. We’re likely to get nearly all the methane from the continental shelves of the Arctic and quite a lot from under the tundra on land all being released within a few years, and that would be a big rise for global warming.

All these effects unfortunately tend to be positive feedback effects that one effect has a feedback which leads to an increase in the next effect and that’s a case where the retreat of sea ice, which is mainly due to warming releases a lot of methane from the open water that’s created, and then the methane levels in the atmosphere increase, that increases the warming level, and that increases the rate of retreat of the sea ice.

Carbon dioxide lasts longer because it’s taking part in the carbon cycle; it’s being absorbed by the ocean and by vegetation on land, but it’s then being re-emitted again by the ocean, having being absorbed into plankton and then released from the plankton again when the plankton die.

There’s a whole enormous number of different pathways by which carbon dioxide, that’s a pulse that you put into the atmosphere, lasts longer because it’s absorbed in different ways, but then re-emitted again, and it lasts about 100 years. So it takes 100 years for the impact of a big pulse of carbon dioxide to completely disappear. So methane is more potent molecule for molecule, but its effect goes away more quickly.

Another highly detrimental greenhouse agent is black carbon or soot. Its global warming potential over a 20-year period has been calculated at up to 4,700 times the heat-trapping effect of carbon dioxide. Many studies on black carbon show that it plays a major role in global warming and is another of the main drivers of sea ice loss.

Black carbon is an atmospheric pollutant and it falls out of the atmosphere so it’s short lived. When it’s in the atmosphere, it’s helping to cause absorption of incoming radiation.

When black carbon is deposited on ice or snow, it darkens the top layer, and instead of reflecting sunlight as under normal conditions, the darkened surface absorbs solar radiation, which in turn warms the surrounding area. As a result, more ice starts to melt.

Average sea temperatures have gone up between half and one degree (Celsius) worldwide in the last century and also average ocean salinities have gone down because of adding fresh water into the ocean from the retreat of glaciers. So there have been two very measurable effects on the ocean. And of course the biggest one is the warming of the ocean, which is helping to cause the sea ice retreat.

A study published by the Worldwatch Institute in 2009 calculated that at least 51% of human-caused global greenhouse gas emissions come from the cycle of producing and consuming animal products. The cycle includes cattle grazing, which results in vast tracts of barren land that can no longer absorb CO2 and the clearing of precious rainforest, that also acts as a carbon sink, to grow animal feed.

The livestock industry annually generates approximately 37% of the world’s human-induced releases of methane. Thus humanity embracing a plant-based diet would quickly lessen the release of poisonous greenhouse gases that are causing immense sea ice loss and rising planetary temperatures.

There’s many ways in which a vegetarian diet would help. One is reducing the amount of land that’s used for looking after domestic animals, and there’re massive amounts, especially as the world is tending towards more of a meat diet.

Our appreciation Professor Peter Wadhams for your clear explanation of the dangers our planet is facing and the need for the world to immediately address the fast disappearing sea ice at the polar ice caps. May you successfully continue your very important research that is bringing everyone invaluable information on the state of the Arctic and Antarctic as well as our Earth’s climate.

Concerned viewers, please join us again next Wednesday on Planet Earth: Our Loving Home for the conclusion of our discussion with Professor Peter Wadhams on the state of the Arctic and Antarctic.

For more details on Professor Peter Wadhams,
please visit www.DAMTP.cam.ac.uk/people/p.wadhams

Thank you for your presence today on our program. May we always do our utmost to care for our world.
If Antarctica joins in and starts to melt in the summer as well, the rate of global-sea level rise will really go up fast and that will be a big impact on countries like Bangladesh, which are low-lying and kind of helpless in the face of sea level rise.

Welcome, caring viewers, to the concluding episode of our two-part program on the quickly melting polar ice caps featuring a discussion with Professor Peter Wadhams who is the Professor of Ocean Physics at the Department of Applied Mathematics and Theoretical Physics at Cambridge University, UK.

I specialize in the study of sea ice and I run a research group which works on the thickness and properties of sea ice, and the motion of sea ice and at the moment, of course, the climatic effects of sea ice, the fact that it’s disappearing. So that involves working in the Arctic and in the Antarctic, using underwater vehicles to measure how the (ice) thickness is changing.

This week, in addition to addressing the precarious state of the Arctic and Antarctic, Professor Wadhams speaks about accelerating climate change and the serious threats to the future of civilization posed by sea level rise.

In 2009 the United Nations Climate Change Conference, or COP 15, took place in Copenhagen, Denmark. The participants agreed that it is absolutely vital to limit the Earth’s temperature increase to two degrees Celsius or less. Climate scientists say that if this point is exceeded, catastrophic events such as a loss of up to 30% of the world’s plants and animals are projected to eventually occur. Professor Wadhams says we’ve already entered this extreme danger zone.

The hope that global temperatures on average could be held to a two-degree (Celsius) rise has already passed. That was the crazy thing about the Copenhagen Agreement, that you should restrict the rise to two degrees. It was already at two degrees. So, the idea that the world could be held to a rise (of two degrees), which had in fact already happened, was ludicrous.

But the average predictions, for instance, for Europe are about four degrees (Celsius) of warming by the end of this century. And Britain being a bit lower, about two degrees because of the cooling effect of the Atlantic and the decline of the Gulf Stream. About four degrees for a region like the Mediterranean coast of Europe means that you’re converting the Mediterranean coast of Europe into the equivalent of North Africa.

You’re shifting climate zones, and four degrees all over the world is going to have similar big impacts everywhere. And that’s an average prediction based on the “business as usual” idea that we will keep on increasing our CO2 levels at roughly the same rate.

And of course, the optimistic hope is that we will reduce CO2levels, but in fact, the last few years we’ve been increasing them at more than the “business as usual” rate. The rate of increase has itself risen, so we’re doing worse than expected. We’re going into a worst-case scenario; we’re doing worse than nothing. And so we may well get warming that’s more than say four degrees by the end of the century.

If it’s five or six degrees (Celsius), in the Arctic it will be 10 or 12 degrees (Celsius), because there’s an amplifying factor of about two, and that will really be enough to have serious effects on both sea ice and land ice, and change the whole environment of the Arctic and the Antarctic. Around the coast of Greenland and the Antarctic you’re seeing a speeding up of the flow rate of glaciers that are flowing out to sea, and they’re carving off more icebergs.

If we’re thinking about runaway climate change, it might happen as far as something like the Arctic sea ice is concerned. Some features of the Earth’s surface could disappear permanently. The Sahara (Desert) could grow enormously in area. So in that sense you might get a runaway effect.

Low-lying island nations such as the Tuvalu and Kiribati in the South Pacific face the possibility of soon being submerged under the sea and their leaders have asked other nations to help them resettle their populations. Already a fifth of Tuvalu’s people have immigrated to New Zealand. However, without quick action, the rest of the world may soon feel the effects of higher waters to the same degree.

And so we think we’re in a bad way in Europe, but they’re in a much worse way in Asia from sea level rise. And that’s probably the most immediate and nastiest impact of global warming, global sea levels, especially around the coasts of poor countries. It’s the statistics of extremes; if you have a distribution of heights above normal sea level, it’s called a “bell-shaped curve,” but if you move the mean up a bit, the probability of getting some disastrous amount above the mean is greatly increased.

The melting of the Greenland ice sheet, which is part of the Arctic, is one of the main drivers of sea level rise and is of deep concern to climate researchers worldwide.

The Southern Greenland coast is still ice-free, which is very unusual. And that means that you’re getting a lot of evaporation from the ocean. You’re getting warm winds coming in over Greenland. And whenever you get sea ice retreating around Greenland, it tends to speed up the rate of loss from the ice sheet. And at the moment I don’t think the effect will be to destabilize the Greenland ice sheet in the short term, but there’s a big effect on sea level.

And at the moment about half the global, rising sea level is due to warming of the ocean and the other half is due to melting of ice from glaciers. Up to now it’s been mostly glaciers in mountains, low latitudes, (Mt.) Kilimanjaro and so on, but in the last few years the Greenland ice sheet has started to melt in the summer.

And the amount of melt that’s going on now is about half of the total from everything else, so suddenly the Greenland ice sheet is a major player in contributing to global sea level rise. And that can only get worse.

Moulins are burrows or tubular shafts in a glacier that allow running water to flow through from the surface to the bottom. These openings can be hundreds of meters deep, depending on the size of the glacier or ice sheet. These shafts are appearing in the Greenland ice sheet and are a warning signal we are fast losing a key part of the Arctic. If this ice sheet were to disintegrate entirely, scientists say it would raise sea levels by a staggering seven meters.

What seems to be happening in Greenland is that you never used to get surface melt on the ice sheet in summer, but now you do. The melt water finds holes, called moulins, through which it rushes down to the bedrock level and lubricates the bedrock, so that the bed of the glaciers flows faster. And then you’re getting more rapid flow of glaciers out to sea giving off more icebergs.

At the moment, many of the glaciers in Greenland are now flowing twice as fast as they did 10 years ago. It’s just producing more icebergs and it’s increasing the rate of loss from the ice sheet.

The situation in the Antarctic is grave as well, with the ice there disappearing at a rapid rate. A report in the journal Science states that the collapse of the West Antarctic Ice Sheet can produce an effect on the Earth’s spin great enough to cause the planet’s axis to shift as much as 500 meters. This alarming discovery was made by a scientific team from the Earth System Evolution program of the Canadian Institute for Advanced Research.

Other analysts have predicted that if this ice sheet collapses, sea level rise will be as high as five meters. However, the Canadian research team reasons that this prediction was based on oversimplified measurements that only involved the volume of the ice sheet and its associated water amount.

The new research on the West Antarctic Ice Sheet has found that its melting would cause more severe consequences due to reduced gravitational effects on the ocean from melting ice sheets, and would thus upset Earth’s balance. As a result, massive amounts of water would shift from one area to another. According to the report, “Water would migrate from the southern Atlantic and Pacific Oceans northward toward North America and into the southern Indian Ocean.”

One of the researchers involved in the new study is geophysicist Dr. Jerry Mitrovica, who states, “The net effect of all of these processes is that if the West Antarctic Ice Sheet collapses, the rise in sea levels around many coastal regions will be as much as 25% more than expected, for a total of between six and seven meters if the whole ice sheet melts.”

The fastest and easiest way to address climate change and its dire consequences, only some of which have been briefly covered today, is through a worldwide change to the planet-cooling, plant-based diet. Professor Wadhams too believes that what we choose to eat makes a tremendous difference.

When you’ve got so many people who are switching from one system to another, the change is enormous. So, if people ate less meat, you would have an impact on the amount of land used for looking after domestic animals. Instead you could grow food directly.

That would reduce the amount of methane being emitted, which would have an impact on the rate of global warming. You’d also be increasing the sheer amount of vegetation, which would be improving the way in which carbon dioxide is absorbed by the earth system. So it would be very good in lots of different ways.

Once again our appreciation Professor Peter Wadhams for your clear explanation of the many dangers our planet is facing. May the invaluable information on the state of the Arctic and Antarctic as well as our Earth’s climate you are disseminating continue to remind us all of our need to take urgent action on global warming.

For more details on Professor Peter Wadhams, please visit www.DAMTP.cam.ac.uk/people/p.wadhams

Thank you for your company today on Planet Earth: Our Loving Home. May we all soon create a world vegan community for world peace and planetary stability.

  Canadian Farmers and Gardeners: Making the Smart Switch to Organic 
 The Gathering Storm: The Human Cost of Climate Change 

 
  
 
 
Most popular
 Vegan: The Fastest Way to a Cooler Planet
 Saving Drylands: COP10 United Nations Convention to Combat Desertification
 Dr. Rajendra K. Pachauri-Global Warning: The Impact of Meat Production and Consumption on Climate Change
 “Changes in Climate, Changes in Lives” - A Message from Greenpeace Brasil, (In Portuguese)
 Dr. Robert Goodland on Climate Change and the Destructive Livestock Industry
 Lester Brown on Global Ecological Destruction and Imminent Civilization Collapse
 Harmful Algal Blooms: Devastating Domoic Acid
 The Magic of Findhorn: An Eco Eden on Earth
 "Home": An Eco-Documentary by Yann Arthus-Bertrand
 Ahimsa Agriculture:Organic Farming without Soil