The environment in the news wednesday April 6, 2011


The Independent (UK): Ozone layer damaged by unusually harsh winter



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The Independent (UK): Ozone layer damaged by unusually harsh winter

6th April 2011


The stratospheric ozone layer, which shields the Earth from the Sun's harmful ultraviolet rays, has been damaged to its greatest-ever extent over the Arctic this winter.

The protective layer of gas, which can be destroyed by reactions with industrial chemicals, has suffered a loss of about 40 per cent from the start of winter until late March, exceeding the previous seasonal loss of about 30 per cent, according to the World Meteorological Organisation (WMO).

The phenomenon is annual in the Antarctic, where after its discovery in the 1980s it came to be known as the "ozone hole". Although CFC levels are now dropping, they remain in the atmosphere for so long that they will still be causing ozone depletion for decades in certain conditions, particularly the intense cold of the stratosphere.

Arctic ozone conditions vary more and the temperatures are always warmer than over Antarctica, where the ozone hole forms high in the stratosphere near the South Pole each winter and spring. Because of changing weather and temperatures, some Arctic winters experience almost no ozone loss – but others with exceptionally cold stratospheric conditions can occasionally lead to substantial ozone depletion.

This is what has happened over the Arctic this winter; for while at ground level the Arctic region was unusually warm, temperatures 15-20km above the Earth's surface plummeted. WMO officials say the latest losses, which are unprecedented, were detected in observations from the ground and from balloons and satellites over the Arctic.

"The Arctic stratosphere continues to be vulnerable to ozone destruction caused by ozone-depleting substances linked to human activities," said the WMO's secretary general, Michel Jarraud.

Loss of ozone allows more of the Sun's harmful ultraviolet-B rays to penetrate the atmosphere. They have been linked to increased rates of skin cancer, cataracts and immune system damage.

In late March, winds blew the ozone-depleted region over Greenland and Scandinavia, and the WMO is warning people there to heed national alerts and forecasts of ozone levels. The development is unlikely to be risky for humans as the depleted ozone will soon merge into the background atmosphere, according to one of the world's leading ozone experts, Professor John Pyle, professor of chemistry at Cambridge University and co-director of the National Centre for Atmospheric Science.


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BBC News (UK): Climate 'technical fix' may yield warming, not cooling

6th April 2011


Whitening clouds by spraying them with seawater, proposed as a "technical fix" for climate change, could do more harm than good, according to research.

Whiter clouds reflect more solar energy back into space, cooling the Earth.

But a study presented at the European Geosciences Union meeting found that using water droplets of the wrong size would lead to warming, not cooling.

One of the theory's scientific fathers said it should be possible to make sure droplets were the correct size.

Cloud whitening was originally proposed back in 1990 by John Latham, now of the University Corporation for Atmospheric Research in Boulder, US.

It has since been developed by a number of other researchers including University of Edinburgh wave energy pioneer Stephen Salter, joining a number of other "geoengineering" techniques that would attempt either to reduce solar radiation reaching earth or absorb carbon dioxide from the air.

One version envisages specially designed ships, powered by wind, operating in areas of the ocean where reflective stratocumulus clouds are scarce.

The ships would continually spray fine jets of seawater droplets into the sky, where tiny salt crystals would act as nuclei around which water vapour would condense, producing clouds or thickening them where they already exist.

It has not yet been trialled in practice, although proponents say it ought to be.

Drop kick

But Kari Alterskjaer from the University of Oslo in Norway came to the European Geosciences Union (EGU) meeting in Vienna with a cautionary tale.

Her study, using observations of clouds and a computer model of the global climate, confirmed earlier findings that if cloud whitening were to be done, the best areas would be just to the west of North and South America, and to the west of Africa.

But it concluded that about 70 times more salt would have to be carried aloft than proponents have calculated.

And using droplets of the wrong size, she found, could reduce cloud cover rather than enhancing it - leading to a net warming, not the desired cooling.

“The trouble is that clouds are very complicated; as soon as you start manipulating them in one way, there are a lot of different interactions”

End Quote Piers Forster University of Leeds

"If the particles are too small, they will not brighten the clouds - instead they will influence particles that are already there, and there will be competition between them," she told BBC News.

"Obviously the particle size is of crucial importance, not only for whether you get a positive or negative effect, but also whether particles can actually reach the clouds - if they're too large, they just fall to the sea."

The possibility of this technique having a warming impact has been foreseen by cloud-whitening's developers.

In a 2002 scientific paper, Dr Latham wrote: "... the overall result could be a reduction in cloud droplet concentration, with concomitant reductions in albedo and cloud longevity, ie a warming effect".

But, he argued, this possibility could be eliminated by careful design of the spray system.

Contacted after the presentation in Vienna, Professor Salter took the same line.

"I agree that the drop size has to be correct and that the correct value may vary according to local conditions," he said.

"However, I am confident that we can control drop size by adjusting the frequency of an ultrasonic pressure wave which ejects drop from micro-nozzles etched in silicon.

"We can test this at very small scale in the lab."

Professor Salter is working with engineers in Edinburgh to produce extremely fine yet robust nozzles from semiconductor sheets.

Small cuts

In an era when many climate scientists are frustrated by slow progress in reducing greenhouse gas emissions, cloud whitening has sometimes been held up as an example of a technology that could make a real difference, at least to "buy time".

The technique's prospects depend crucially on how droplet size affects reflectivity

It has been calculated that a fairly modest increase in the reflectivity of these marine clouds could balance the warming from a doubling of carbon dioxide in the atmosphere - although even proponents admit it would do nothing to combat the other major consequence of carbon emissions, ocean acidification.

One scientist at Ms Alterskjaer's presentation, having heard her outline why it might not work, commented that it was the most depressing thing he had heard in a long time.

And Piers Forster from the UK's University of Leeds, who is leading a major UK project on geoengineering techniques, suggested more research would be needed before cloud whitening could be considered for "prime time" use.

"The trouble is that clouds are very complicated; as soon as you start manipulating them in one way, there are a lot of different interactions," he said.

"We need real-world data and we need modelling that tries to simulate clouds on more appropriate scales, and that means less than 100m or so, because if you look at a deck of stratocumulus it's not one big thing, it has pockets and cells and other features.

"Far more uncertain is the idea that you'd inject a particular drop size, because it won't stay that size for long - it will spread out, and that would be uncertain."

Professor Salter, too, believes more research needs to be done, including building a prototype injector ship and studying how it works in practice.

Interviewed by the BBC late last year, he said that such research was urgently needed because there was little sign of real cuts being made in the world's greenhouse gas emissions.
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