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http://comment.independent.co.uk/commentators/article338830.ece

James Lovelock: The Earth is about to catch a morbid fever that may last as long as 100,000 years

Each nation must find the best use of its resources to sustain civilisation for as long as they can

Published: 16 January 2006

Imagine a young policewoman delighted in the fulfilment of her vocation; then imagine her having to tell a family whose child had strayed that he had been found dead, murdered in a nearby wood. Or think of a young physician newly appointed who has to tell you that the biopsy revealed invasion by an aggressive metastasising tumour. Doctors and the police know that many accept the simple awful truth with dignity but others try in vain to deny it.

Whatever the response, the bringers of such bad news rarely become hardened to their task and some dread it. We have relieved judges of the awesome responsibility of passing the death sentence, but at least they had some comfort from its frequent moral justification. Physicians and the police have no escape from their duty.

This article is the most difficult I have written and for the same reasons. My Gaia theory sees the Earth behaving as if it were alive, and clearly anything alive can enjoy good health, or suffer disease. Gaia has made me a planetary physician and I take my profession seriously, and now I, too, have to bring bad news.

The climate centres around the world, which are the equivalent of the pathology lab of a hospital, have reported the Earth's physical condition, and the climate specialists see it as seriously ill, and soon to pass into a morbid fever that may last as long as 100,000 years. I have to tell you, as members of the Earth's family and an intimate part of it, that you and especially civilisation are in grave danger.

Our planet has kept itself healthy and fit for life, just like an animal does, for most of the more than three billion years of its existence. It was ill luck that we started polluting at a time when the sun is too hot for comfort. We have given Gaia a fever and soon her condition will worsen to a state like a coma. She has been there before and recovered, but it took more than 100,000 years. We are responsible and will suffer the consequences: as the century progresses, the temperature will rise 8 degrees centigrade in temperate regions and 5 degrees in the tropics.

Much of the tropical land mass will become scrub and desert, and will no longer serve for regulation; this adds to the 40 per cent of the Earth's surface we have depleted to feed ourselves.

Curiously, aerosol pollution of the northern hemisphere reduces global warming by reflecting sunlight back to space. This "global dimming" is transient and could disappear in a few days like the smoke that it is, leaving us fully exposed to the heat of the global greenhouse. We are in a fool's climate, accidentally kept cool by smoke, and before this century is over billions of us will die and the few breeding pairs of people that survive will be in the Arctic where the climate remains tolerable.

By failing to see that the Earth regulates its climate and composition, we have blundered into trying to do it ourselves, acting as if we were in charge. By doing this, we condemn ourselves to the worst form of slavery. If we chose to be the stewards of the Earth, then we are responsible for keeping the atmosphere, the ocean and the land surface right for life. A task we would soon find impossible - and something before we treated Gaia so badly, she had freely done for us.

To understand how impossible it is, think about how you would regulate your own temperature or the composition of your blood. Those with failing kidneys know the never-ending daily difficulty of adjusting water, salt and protein intake. The technological fix of dialysis helps, but is no replacement for living healthy kidneys.

My new book The Revenge of Gaia expands these thoughts, but you still may ask why science took so long to recognise the true nature of the Earth. I think it is because Darwin's vision was so good and clear that it has taken until now to digest it. In his time, little was known about the chemistry of the atmosphere and oceans, and there would have been little reason for him to wonder if organisms changed their environment as well as adapting to it.

Had it been known then that life and the environment are closely coupled, Darwin would have seen that evolution involved not just the organisms, but the whole planetary surface. We might then have looked upon the Earth as if it were alive, and known that we cannot pollute the air or use the Earth's skin - its forest and ocean ecosystems - as a mere source of products to feed ourselves and furnish our homes. We would have felt instinctively that those ecosystems must be left untouched because they were part of the living Earth.

So what should we do? First, we have to keep in mind the awesome pace of change and realise how little time is left to act; and then each community and nation must find the best use of the resources they have to sustain civilisation for as long as they can. Civilisation is energy-intensive and we cannot turn it off without crashing, so we need the security of a powered descent. On these British Isles, we are used to thinking of all humanity and not just ourselves; environmental change is global, but we have to deal with the consequences here in the UK.

Unfortunately our nation is now so urbanised as to be like a large city and we have only a small acreage of agriculture and forestry. We are dependent on the trading world for sustenance; climate change will deny us regular supplies of food and fuel from overseas.

We could grow enough to feed ourselves on the diet of the Second World War, but the notion that there is land to spare to grow biofuels, or be the site of wind farms, is ludicrous. We will do our best to survive, but sadly I cannot see the United States or the emerging economies of China and India cutting back in time, and they are the main source of emissions. The worst will happen and survivors will have to adapt to a hell of a climate.

Perhaps the saddest thing is that Gaia will lose as much or more than we do. Not only will wildlife and whole ecosystems go extinct, but in human civilisation the planet has a precious resource. We are not merely a disease; we are, through our intelligence and communication, the nervous system of the planet. Through us, Gaia has seen herself from space, and begins to know her place in the universe.

We should be the heart and mind of the Earth, not its malady. So let us be brave and cease thinking of human needs and rights alone, and see that we have harmed the living Earth and need to make our peace with Gaia. We must do it while we are still strong enough to negotiate, and not a broken rabble led by brutal war lords. Most of all, we should remember that we are a part of it, and it is indeed our home.

The writer is an independent environmental scientist and Fellow of the Royal Society. 'The Revenge of Gaia' is published by Penguin on 2 February http://news.independent.co.uk/environment/article338878.ece

Environment in crisis: 'We are past the point of no return'

Thirty years ago, the scientist James Lovelock worked out that the Earth possessed a planetary-scale control system which kept the environment fit for life. He called it Gaia, and the theory has become widely accepted. Now, he believes mankind's abuse of the environment is making that mechanism work against us. His astonishing conclusion - that climate change is already insoluble, and life on Earth will never be the same again. By Michael McCarthy Environment Editor

Published: 16 January 2006

The world has already passed the point of no return for climate change, and civilisation as we know it is now unlikely to survive, according to James Lovelock, the scientist and green guru who conceived the idea of Gaia - the Earth which keeps itself fit for life.

In a profoundly pessimistic new assessment, published in today's Independent, Professor Lovelock suggests that efforts to counter global warming cannot succeed, and that, in effect, it is already too late.

The world and human society face disaster to a worse extent, and on a faster timescale, than almost anybody realises, he believes. He writes: " Before this century is over, billions of us will die, and the few breeding pairs of people that survive will be in the Arctic where the climate remains tolerable."

In making such a statement, far gloomier than any yet made by a scientist of comparable international standing, Professor Lovelock accepts he is going out on a limb. But as the man who conceived the first wholly new way of looking at life on Earth since Charles Darwin, he feels his own analysis of what is happening leaves him no choice. He believes that it is the self-regulating mechanism of Gaia itself - increasingly accepted by other scientists worldwide, although they prefer to term it the Earth System - which, perversely, will ensure that the warming cannot be mastered.

This is because the system contains myriad feedback mechanisms which in the past have acted in concert to keep the Earth much cooler than it otherwise would be. Now, however, they will come together to amplify the warming being caused by human activities such as transport and industry through huge emissions of greenhouse gases such as carbon dioxide (CO2 ).

It means that the harmful consequences of human beings damaging the living planet's ancient regulatory system will be non-linear - in other words, likely to accelerate uncontrollably.

He terms this phenomenon "The Revenge of Gaia" and examines it in detail in a new book with that title, to be published next month.

The uniqueness of the Lovelock viewpoint is that it is holistic, rather than reductionist. Although he is a committed supporter of current research into climate change, especially at Britain's Hadley Centre, he is not looking at individual facets of how the climate behaves, as other scientists inevitably are. Rather, he is looking at how the whole control system of the Earth behaves when put under stress.

Professor Lovelock, who conceived the idea of Gaia in the 1970s while examining the possibility of life on Mars for Nasa in the US, has been warning of the dangers of climate change since major concerns about it first began nearly 20 years ago.

He was one of a select group of scientists who gave an initial briefing on global warming to Margaret Thatcher's Cabinet at 10 Downing Street in April 1989.

His concerns have increased steadily since then, as evidence of a warming climate has mounted. For example, he shared the alarm of many scientists at the news last September that the ice covering the Arctic Ocean is now melting so fast that in 2005 it reached a historic low point.

Two years ago he sparked a major controversy with an article in The Independent calling on environmentalists to drop their long-standing opposition to nuclear power, which does not produce the greenhouses gases of conventional power stations.

Global warming was proceeding so fast that only a major expansion of nuclear power could bring it under control, he said. Most of the Green movement roundly rejected his call, and does so still.

Now his concerns have reached a peak - and have a new emphasis. Rather than calling for further ways of countering climate change, he is calling on governments in Britain and elsewhere to begin large-scale preparations for surviving what he now sees as inevitable - in his own phrase today, "a hell of a climate", likely to be in Europe up to 8C hotter than it is today.

In his book's concluding chapter, he writes: "What should a sensible European government be doing now? I think we have little option but to prepare for the worst, and assume that we have passed the threshold."

And in today's Independent he writes: "We will do our best to survive, but sadly I cannot see the United States or the emerging economies of China and India cutting back in time, and they are the main source of [CO2] emissions. The worst will happen ..."

He goes on: "We have to keep in mind the awesome pace of change and realise how little time is left to act, and then each community and nation must find the best use of the resources they have to sustain civilisation for as long as they can." He believes that the world's governments should plan to secure energy and food supplies in the global hothouse, and defences against the expected rise in sea levels. The scientist's vision of what human society may ultimately be reduced to through climate change is " a broken rabble led by brutal warlords."

Professor Lovelock draws attention to one aspect of the warming threat in particular, which is that the expected temperature rise is currently being held back artificially by a global aerosol - a layer of dust in the atmosphere right around the planet's northern hemisphere - which is the product of the world's industry.

This shields us from some of the sun's radiation in a phenomenon which is known as "global dimming" and is thought to be holding the global temperature down by several degrees. But with a severe industrial downturn, the aerosol could fall out of the atmosphere in a very short time, and the global temperature could take a sudden enormous leap upwards.

One of the most striking ideas in his book is that of "a guidebook for global warming survivors" aimed at the humans who would still be struggling to exist after a total societal collapse.

Written, not in electronic form, but "on durable paper with long-lasting print", it would contain the basic accumulated scientific knowledge of humanity, much of it utterly taken for granted by us now, but originally won only after a hard struggle - such as our place in the solar system, or the fact that bacteria and viruses cause infectious diseases.

Rough guide to a planet in jeopardy

Global warming, caused principally by the large-scale emissions of industrial gases such as carbon dioxide (CO2), is almost certainly the greatest threat that mankind has ever faced, because it puts a question mark over the very habitability of the Earth.

Over the coming decades soaring temperatures will mean agriculture may become unviable over huge areas of the world where people are already poor and hungry; water supplies for millions or even billions may fail. Rising sea levels will destroy substantial coastal areas in low-lying countries such as Bangladesh, at the very moment when their populations are mushrooming. Numberless environmental refugees will overwhelm the capacity of any agency, or indeed any country, to cope, while modern urban infrastructure will face devastation from powerful extreme weather events, such as Hurricane Katrina which hit New Orleans last summer.

The international community accepts the reality of global warming, supported by the UN's Intergovernmental Panel on Climate Change. In its last report, in 2001, the IPCC said global average temperatures were likely to rise by up to 5.8C by 2100. In high latitudes, such as Britain, the rise is likely to be much higher, perhaps 8C. The warming seems to be proceeding faster than anticipated and in the IPCC's next report, 2007, the timescale may be shortened. Yet there still remains an assumption that climate change is controllable, if CO2 emissions can be curbed. Lovelock is warning: think again.

'The Revenge of Gaia' by James Lovelock is published by Penguin on 2 February, price 16.99


http://news.independent.co.uk/environment/article338879.ece

Why Gaia is wreaking revenge on our abuse of the environment

By Michael McCarthy

Published: 16 January 2006

With anyone else, you would not really take it seriously: the proposition that because of climate change, human society as we know it on this planet may already be condemned, whatever we do. It would seem not just radical, but outlandish, mere hyperbole. And we react against it instinctively: it seems simply too sombre to be countenanced.

But James Lovelock, the celebrated environmental scientist, has a unique perspective on the fate of the Earth. Thirty years ago he conceived the idea that the planet was special in a way no one had ever considered before: that it regulated itself, chemically and atmospherically, to keep itself fit for life, as if it were a great super-organism; as if, in fact, it were alive.

The complex mechanism he put forward for this might have remained in the pages of arcane geophysical journals had he continued to refer to it as "the biocybernetic universal system tendency".

But his neighbour in the village of Bowerchalke, Wiltshire, the Nobel Prize-winning novelist William Golding (who wroteLord of The Flies), suggested he christen it after the Greek goddess of the Earth; and Gaia was born.

Gaia has made Professor Lovelock world famous, but at first his fame was in an entirely unexpected quarter. Research scientists, who were his original target audience, virtually ignored his theory.

To his surprise, it was the burgeoning New Age and environmental movements who took it up - the generation who had just seen the first pictures of the Earth taken by the Apollo astronauts, the shimmering pastel-blue sphere hanging in infinite black space, fragile and vulnerable, but our only home. They seized on his metaphor of a reinvented Mother Earth, who needed to be revered and respected - or else.

It has been only gradually that the scientific establishment has become convinced of the essential truth of the theory, that the Earth possesses a planetary control system, founded on the interaction of living organisms with their environment, which has operated for billions of years to allow life to exist, by regulating the temperature, the chemical composition of the atmosphere, even the salinity of the seas.

But accepted it is, and now (under the term Earth System Science) it has been subsumed into the scientific mainstream; two years ago, for example, Nature, the world's premier scientific journal, gave Professor Lovelock two pages to sum up recent developments in it.

Yet now too, by a savage irony, it is Gaia that lies behind his profound pessimism about how climate change will affect us all. For the planetary control system, he believes, which has always worked in our favour, will now work against us. It has been made up of a host of positive feedback mechanisms; now, as the temperature starts to rise abnormally because of human activity, these will turn harmful in their effect, and put the situation beyond our control.

To give just a single example out of very many: the ice of the Arctic Ocean is now melting so fast it is likely to be gone in a few decades at most. Concerns are already acute about, for example, what that will mean for polar bears, who need the ice to live and hunt.

But there is more. For when the ice has vanished, there will be a dark ocean that absorbs the sun's heat, instead of an icy surface that reflects 90 per cent of it back into space; and so the planet will get even hotter still.

Professor Lovelock visualises it all in the title of his new book, The Revenge of Gaia. Now 86, but looking and sounding 20 years younger, he is by nature an optimistic man with a ready grin, and it felt somewhat unreal to talk calmly to him in his Cornish mill house last week, with a coffee cup to hand and birds on the feeder outside the study window, about such a dark future. You had to pinch yourself.

He too saw the strangeness of it. "I'm usually a cheerful sod, so I'm not happy about writing doom books," he said. "But I don't see any easy way out."

His predictions are simply based on the inevitable nature of the Gaian system.

"If on Mars, which is a dead planet, you doubled the CO2, you could predict accurately what the temperature would rise to," he said.

"On the Earth, you can't do it, because the biota [the ensemble of life forms] reacts. As soon as you pump up the temperature, everything changes. And at the moment the system is amplifying change. "So our problem is that anything we do, like increasing the carbon dioxide, mucking about with the land, destroying forests, farming too much, things like that - they don't just produce a linear increase in temperature, they produce an amplified increase in temperature.

"And it's worse than that. Because as you approach one of the tipping points, the thresholds, the extent of amplification rapidly increases and tends towards infinity.

"The analogy I use is, it's as if we were in a pleasure boat above the Niagara Falls. You're all right as long as the engines are going, and you can get out of it. But if the engines fail, you're drawn towards the edge faster and faster, and there's no hope of getting back once you've gone over - then you're going down.

"And the uprise is just like that, the steep jump of temperature on Earth. It is exactly like the drop in the Falls."

Professor Lovelock's unique viewpoint is that he is just not looking at this or that aspect of the Earth's climate, as are other scientists; he is looking at the whole planet in terms of a different discipline, control theory.

"Most scientists are not trained in control theory. They follow Descartes, and they think that everything can be explained if you take it down to its atoms, and then build it up again.

"Control theory looks at it in a very different way. You look at whole systems and how do they work. Gaia is very much about control theory. And that's why I spot all these positive feedbacks."

I asked him how he would sum up the message of his new book. He said simply: "It's a wake-up call.''

With anyone else, you would not really take it seriously: the proposition that because of climate change, human society as we know it on this planet may already be condemned, whatever we do. It would seem not just radical, but outlandish, mere hyperbole. And we react against it instinctively: it seems simply too sombre to be countenanced.

But James Lovelock, the celebrated environmental scientist, has a unique perspective on the fate of the Earth. Thirty years ago he conceived the idea that the planet was special in a way no one had ever considered before: that it regulated itself, chemically and atmospherically, to keep itself fit for life, as if it were a great super-organism; as if, in fact, it were alive.

The complex mechanism he put forward for this might have remained in the pages of arcane geophysical journals had he continued to refer to it as "the biocybernetic universal system tendency".

But his neighbour in the village of Bowerchalke, Wiltshire, the Nobel Prize-winning novelist William Golding (who wroteLord of The Flies), suggested he christen it after the Greek goddess of the Earth; and Gaia was born.

Gaia has made Professor Lovelock world famous, but at first his fame was in an entirely unexpected quarter. Research scientists, who were his original target audience, virtually ignored his theory.

To his surprise, it was the burgeoning New Age and environmental movements who took it up - the generation who had just seen the first pictures of the Earth taken by the Apollo astronauts, the shimmering pastel-blue sphere hanging in infinite black space, fragile and vulnerable, but our only home. They seized on his metaphor of a reinvented Mother Earth, who needed to be revered and respected - or else.

It has been only gradually that the scientific establishment has become convinced of the essential truth of the theory, that the Earth possesses a planetary control system, founded on the interaction of living organisms with their environment, which has operated for billions of years to allow life to exist, by regulating the temperature, the chemical composition of the atmosphere, even the salinity of the seas.

But accepted it is, and now (under the term Earth System Science) it has been subsumed into the scientific mainstream; two years ago, for example, Nature, the world's premier scientific journal, gave Professor Lovelock two pages to sum up recent developments in it.

Yet now too, by a savage irony, it is Gaia that lies behind his profound pessimism about how climate change will affect us all. For the planetary control system, he believes, which has always worked in our favour, will now work against us. It has been made up of a host of positive feedback mechanisms; now, as the temperature starts to rise abnormally because of human activity, these will turn harmful in their effect, and put the situation beyond our control.

To give just a single example out of very many: the ice of the Arctic Ocean is now melting so fast it is likely to be gone in a few decades at most. Concerns are already acute about, for example, what that will mean for polar bears, who need the ice to live and hunt.
But there is more. For when the ice has vanished, there will be a dark ocean that absorbs the sun's heat, instead of an icy surface that reflects 90 per cent of it back into space; and so the planet will get even hotter still.

Professor Lovelock visualises it all in the title of his new book, The Revenge of Gaia. Now 86, but looking and sounding 20 years younger, he is by nature an optimistic man with a ready grin, and it felt somewhat unreal to talk calmly to him in his Cornish mill house last week, with a coffee cup to hand and birds on the feeder outside the study window, about such a dark future. You had to pinch yourself.

He too saw the strangeness of it. "I'm usually a cheerful sod, so I'm not happy about writing doom books," he said. "But I don't see any easy way out."

His predictions are simply based on the inevitable nature of the Gaian system.

"If on Mars, which is a dead planet, you doubled the CO2, you could predict accurately what the temperature would rise to," he said.

"On the Earth, you can't do it, because the biota [the ensemble of life forms] reacts. As soon as you pump up the temperature, everything changes. And at the moment the system is amplifying change. "So our problem is that anything we do, like increasing the carbon dioxide, mucking about with the land, destroying forests, farming too much, things like that - they don't just produce a linear increase in temperature, they produce an amplified increase in temperature.

"And it's worse than that. Because as you approach one of the tipping points, the thresholds, the extent of amplification rapidly increases and tends towards infinity.

"The analogy I use is, it's as if we were in a pleasure boat above the Niagara Falls. You're all right as long as the engines are going, and you can get out of it. But if the engines fail, you're drawn towards the edge faster and faster, and there's no hope of getting back once you've gone over - then you're going down.

"And the uprise is just like that, the steep jump of temperature on Earth. It is exactly like the drop in the Falls."

Professor Lovelock's unique viewpoint is that he is just not looking at this or that aspect of the Earth's climate, as are other scientists; he is looking at the whole planet in terms of a different discipline, control theory.

"Most scientists are not trained in control theory. They follow Descartes, and they think that everything can be explained if you take it down to its atoms, and then build it up again.

"Control theory looks at it in a very different way. You look at whole systems and how do they work. Gaia is very much about control theory. And that's why I spot all these positive feedbacks."

I asked him how he would sum up the message of his new book. He said simply: "It's a wake-up call.''