Heated debate
The latest climate prediction modelling shows that the Amazon basin may not suffer a catastrophic drought later this century due to global warming, despite recent fears
Although Brazil’s environmental policing has many imperfections, Gilberto Câmara, Inpe’s director-general, insists that the alerts have led to a substantial reduction in Amazonian deforestation in recent years. In 2011, 6,238 sq km of forest were lost – the smallest area since satellite monitoring started in 1988. As recently as 2005, the annual deforestation rate was more than 25,000 sq km.
Inpe does not send the satellite observations only to its own government and law enforcement agencies – all the data are made freely available to anyone, anywhere in the world.
“We used to sell remote sensing data, like other space agencies,” says Câmara, “but in 2004 we opened it all up for free. We used to sell 1,000 images a year; now we distribute 500,000 images freely around the world. Full and open access to space-based information is indispensable for global sustainable development.” Câmara is critical of agencies elsewhere that restrict public access to environmental monitoring data.
Satellite monitoring shows not only how much forest is lost, but also what the cleared land is used for – most becomes pasture for low-intensity cattle ranching.
“Of the 720,000 sq km of Amazon forest lost so far, about 65 per cent is used for cattle,” Câmara says. “This means that Brazil has lost an enormous amount of biodiversity just to graze cattle at about one head per hectare.” Just 5 per cent of former forest land is devoted to growing commercial crops – mainly soya beans.
Such information can be commercially, as well as environmentally, valuable. For instance, Inpe provides the data to enforce a soya moratorium. In place since 2006, and endorsed by Greenpeace, this agreement commits all of Brazil’s big soya traders to buy only from farmers who can prove that their land did not come from illegal deforestation. So, soya grown on uncertified land is worth less on the market.
Câmara says that most space agencies around the world exist at least partly “for geopolitical and military reasons”, such as supporting a domestic aerospace industry. Inpe is different, he claims: “Our aim is to support the development of a peaceful, green economy in Brazil.”
October 7, 2011 10:09 pm The Better Angels of Our Nature
Review by Clive Cookson Financial Times
Despite appearances, the human race is losing its appetite for violence
Fratricide 'Cain murdering Abel' by Bartolomo Manfredi (c1610)
Readers, rejoice: we are living at a time that is not only the healthiest, wealthiest and best-educated in history but also by far the least violent.
That is the message from Steven Pinker, Harvard psychology professor and one of the world’s most celebrated science writers. He expects it to be controversial, given our constant exposure to stories in the media about contemporary violence and horrific images of mass carnage in the recent past.
To demonstrate that people have become progressively more peaceful since Neolithic times – and that the trend is continuing into the 21st century – Pinker devotes much of The Better Angels of Our Nature to a historical and statistical analysis of violence at all scales and of many types, from warfare between tribes and nations to individual murders, from torture and rape to slavery and cruelty to animals. This takes up about two-thirds of the book, before Pinker the historian hands over to the more familiar figure of Pinker the psychologist, who analyses why the “inner demons” behind violent behaviour are giving way to the “better angels” of co-operation and altruism.
Unlike the sceptical reader set up by Pinker in his introduction, who laments the growing violence of the modern world and refuses to believe that things are getting better, I felt that I knew enough about the past to accept his basic thesis before I started the book. Even so, I was astonished by the extent to which violence has declined in every shape, form and scale.
In his statistical argument Pinker rightly focuses on the rate of violence relative to the size of population, rather than the number of violent acts. What matters to an individual living at a particular time and place is their risk of becoming a victim of violence. In moral terms too, Pinker believes the experience of those who enjoy full lives should be included in any reckoning.
The second world war was the worst episode in human history in terms of absolute numbers killed on the battlefield and indirect deaths of non-combatants. But when adjusted for population size, the death toll of 55m makes it only the ninth most deadly event over the past 1,200 years.
The worst of all, according to Pinker’s interpretation of figures from the “atrocitologist” Matthew White, was the eighth-century An Lushan revolt and civil war that killed 36m in and around China (equivalent to 429m deaths in the mid-20th century). Second worst was the 13th-century Mongol conquests (40m deaths, equivalent to 278m in the mid-20th century). Although statistics for ancient atrocities are far from reliable, they are good enough – combined with contemporary accounts – to demonstrate the astonishing bloodlust of past warlords.
Pinker begins his pacification story thousands of years ago with the transition from the hunting, gathering and gardening societies of prehistory to more settled agricultural civilisations with cities and governments. Anyone who has read recent forensic archaeology reports about bodies and skeletons excavated from stone and bronze-age European burial sites will be struck by the frequent evidence of violence. Pinker estimates that the end of raiding and feuding between prehistoric tribes led to a fivefold decrease in violent death rates.
But, by today’s standards, life remained nasty, brutish and short. The next stage, according to Pinker, was the “civilisation process” after the Middle Ages, in which a patchwork of feudal territories was consolidated into large nations with an infrastructure of commerce and the authority to enforce law and order. While nations still went to war, the advent of centralised government greatly reduced the violence between individuals and small groups.
Analysis of court records and official documents shows an astonishing decline in murder across western Europe between the 13th and 20th centuries. Murder rates fell between tenfold and a hundredfold. For example, the murder rate per 100,000 people was 110 in 14th-century Oxford and less than one in 20th-century London.
“The discovery confounds every stereotype about the idyllic past and the degenerate present,” Pinker says. When he surveyed public perceptions in an internet questionnaire, the average guess was that 20th-century England was about 14 per cent more violent than 14th-century England; in fact it was 95 per cent less violent.
Pinker proposes several historical forces that have promoted peaceful behaviour by suppressing the “inner demons” of human psychology and stimulating our “better angels”. Besides government and commerce, they include feminisation and cosmopolitanism.
Since violence is largely a male pastime, the increasing respect for the interests and values of women has led society away from the glorification of violence. A more cosmopolitan culture – resulting from growing literacy, mobility and the mass media – can prompt people to understand the perspective of those unlike themselves and expand their circle of sympathy to embrace them.
Finally, Pinker says, an intensifying application of knowledge and rationality to human affairs, “the escalator of reason”, can force people to recognise the futility of violence and reframe it as a problem to be solved rather than a contest to be won. Less than a century ago, many Europeans were positively looking forward to what became the first world war – it is unthinkable that anyone besides a deranged eccentric would look forward to war today.
The Better Angels of Our Nature is written in Pinker’s distinctively entertaining and clear personal style, which will be recognised and welcomed by many who enjoyed previous books such as The Language Instinct and How the Mind Works.
At 830 pages, the book might be too long. Although Pinker says he needed the length to make his argument and convince the sceptics, I found some passages repetitive. Readers of a squeamish disposition might feel that he has included too many detailed accounts of murder and excruciating torture through the ages, in his effort to illustrate how deeply brutality was once woven into the fabric of daily existence.
Overall, however, this is a marvellous synthesis of science, history and storytelling, demonstrating how fortunate the vast majority of us are today to experience serious violence only through the mass media.
Clive Cookson is the FT’s science editor
Photography with the FT, featuring Stephen Pinker, see FT magazine
The Better Angels of Our Nature: The Decline of Violence in History and Its Causes, by Steven Pinker, Allen Lane, RRP£30, 830 pages
China scientists lead world in research growth By Clive Cookson Published: January 25 2010 18:06 | Last updated: January 25 2010 18:06 FINANCIAL TIMES
China has experienced the strongest growth in scientific research over the past three decades of any country, according to figures compiled for the Financial Times, and the pace shows no sign of slowing. Jonathan Adams, research evaluation director at Thomson Reuters, said China’s “awe-inspiring” growth had put it in second place to the US – and if it continues on its trajectory it will be the largest producer of scientific knowledge by 2020. Thomson Reuters, which indexes scientific papers from 10,500 journals worldwide, analysed the performance of four emerging markets countries: Brazil, Russia, India and China, over the past 30 years. China far outperformed every other nation, with a 64-fold increase in peer-reviewed scientific papers since 1981, with particular strength in chemistry and materials science.
“China is out on its own, far ahead of the pack,” said James Wilsdon, science policy director at the Royal Society in London. “If anything, China’s recent research performance has exceeded even the high expectations of four or five years ago, while India has not moved as fast as expected and may have missed an opportunity.”
Although its quality remains mixed, Chinese research has also become more collaborative, with almost 9 per cent of papers originating in China having at least one US-based co-author.
Brazil has also been building up a formidable research effort, particularly in agricultural and life sciences. In 1981 its output of scientific papers was one-seventh that of India; by 2008 it had almost caught up with India.
At the opposite extreme is Russia, which produced fewer research papers than Brazil or India in 2008.
Just 20 years ago, on the eve of the Soviet Union’s disintegration, Russia was a scientific superpower, carrying out more research than China, India and Brazil combined. Since then it has been left behind.
The Thomson Reuters figures show not only the “awe-inspiring” expansion of Chinese science but also a very powerful performance by Brazil, much slower growth in India and relative decline in Russia.
According to James Wilsdon, science policy director at the Royal Society in London, three main factors are driving Chinese research. First is the government’s enormous investment, with funding increases far above the rate of inflation, at all levels of the system from schools to postgraduate research.
Second is the organised flow of knowledge from basic science to commercial applications. Third is the efficient and flexible way in which China is tapping the expertise of its extensive scientific diaspora in north America and Europe, tempting back mid-career scientists with deals that allow them to spend part of the year working in the west and part in China.
Although the statistics measure papers in peer-reviewed journals that pass a threshold of respectability, “the quality [in China] is still rather mixed,” says Jonathan Adams, research evaluation director at Thomson Reuters. But it is improving, he adds: “They have some pretty good incentives to produce higher quality research in future.”
Like China, India has a large diaspora – and many scientifically trained NRIs (non-resident Indians) are returning but they go mainly into business rather research. “In India there is a very poor connection between high-tech companies and the local research base,” says Mr Wilsdon. “Even the Indian Institutes of Technology (IITs), the highest level institutions in the system, find it difficult to recruit top faculty.”
A symptom of this is the poor performance of India in international comparisons of university standards. The 2009 Asian University Rankings, prepared by the higher education consultancy QS, shows the top Indian institution to be IIT Bombay at number 30; 10 universities in China and Hong Kong are higher in the table.
Part of India’s academic problem may be the way red tape ties up its universities, says Ben Sowter, head of the QS intelligence unit. Another issue is that the best institutions are so overwhelmed with applications from would-be students and faculty within India that they do not cultivate the international outlook essential for world-class universities. This looks set to change as India’s human resource minister has stepped up efforts to build links with US and UK institutions.
In contrast to China, India and Russia, whose research strengths tend to be in the physical sciences, chemistry and engineering, Brazil stands out in health, life sciences, agriculture and environmental research. It is a world leader in using biofuels in auto and aero engines.
Russia produced fewer research papers than Brazil or India in 2008.
“The issue is the huge reduction in funding for research and development in Russia after the collapse of the Soviet Union,” says Mr Adams. “Although there has been an exodus of many of the rising stars of Russian research, there is still a great pool of talent there. It is not in the interests of the rest of the world for the exodus to continue, and we need more co-funding arrangements to help Russian research get back up to speed.”
Modern hope for ancient scripts By Clive Cookson in York Published: Sep 13, 2007 Financial Times
Britain's biggest scientific instrument, the new £380m Diamond x-ray source, will help historians to save the world's ancient documents written on parchment, many of which are suffering chemical disintegration that could turn them to jelly. It will also enable researchers for the first time to read inside folded and rolled-up documents that are too fragile to open, the BA Festival of Science in York heard on Wednesday. Diamond is a giant synchrotron "super-microscope " coming into operation near Didcot in the Oxfordshire countryside. It emits x-rays 100bn times more intense than a hospital x-ray machine. Scientists in many fields will use it to probe the inner structure of materials.
Tim Wess, head of Cardiff University's Institute of Vision, who specialises in the scientific study of ancient documents, will be using Diamond to analyse parchment from several sources, from fragments of the Dead Sea Scrolls to 18th-century Scottish legal documents.
For millennia parchment, made from dried animal skins, has been the material of choice for writing important documents. Prof Wess said the problem was that collagen, the main material in parchment, slowly changed into gelatine - which is brittle when dry and jelly-like when wet. "The progressive degeneration ... leaves written history at risk in both iconic individual documents and extensive archives, " he said.
Using x-rays from Diamond, Prof Wess is analysing the reaction that converts collagen to gelatine.
"This has aided our understanding of the deterioration process and allows us to advise on the way in which parchment can be preserved for future generations, " he said. "In cases where precious parchments may be too damaged or at risk, we have developed techniques to image written work without unrolling the fragile documents. "
Prof Wess hopes that, within three or four years, it will be possible to read writing through as many as 20 unopened sheets of parchment. Early tests show that intense x-rays do not damage the documents, he said, but "we will not look at the most valuable documents such as whole Dead Sea Scrolls until we have validated the technique ".
For the validation process, Prof Wess's team is using small fragments of Dead Sea Scrolls in the collection of Manchester University's Rylands Library, together with large 18th-century legal documents weeded out by the National Archives of Scotland because they are of little value.
The research shows that documents written with "iron gall ink ", the traditional ink for parchment, contain the seeds of their own destruction. The natural ingredients in the ink - tannin from oak galls and iron sulphate - catalyse the chemical deterioration of parchment.
"In addition to identifying ways in which we might be able to prevent the loss of important records, our research aims to understand how we might recover documents damaged in natural disasters across the ages, such as the fire at the Library of Alexandria or more recent flooding in Europe, " Prof Wess added.
Cocaine found on all banknotes
Every banknote circulating in every part of Britain is tainted with cocaine residues, according to a comprehensive geographical study released on Wednesday at the BA Festival of Science in York. The survey, carried out by Bristol University and Mass Spec Analytical, a Bristol company, extends the results of smaller studies that show universal contamination of banknotes with illegal drugs to be reality rather than an urban myth. There is no difference in the average level of contamination between quiet rural areas and urban drug-dealing hotspots. Defendants sometimes claim in court that banknotes seized by the police have very high levels of drug residues because they were circulating in drug hotspots. The Bristol research shows that this defence is invalid, because "innocent " banknotes in such hotspots carry no more contamination than notes elsewhere in the country.
Cocaine contamination is so pervasive that even new notes issued by ATMs contain traces of the drug (measurable in nanograms or billionths of a gram) that have been picked up in banks' sorting systems. Traces of heroin and cannabis are detectable on one banknote in 20.
By Clive Cookson Financial Times March 29, 2013 6:21 pm
Research in the Panama Canal watershed is part of a growing effort to give the environment a realistic financial value
©Christian Ziegler
The Panama Canal watershed, where scientists are measuring the economic benefits of nature conservation
Under the wide green umbrella of the Panamanian rainforest, the only signs of human intrusion are yellow, orange and blue marks painted around some of the tree trunks. Those marks help measure the plants’ water efficiency, as trees are believed to steady the flow of rivers.
“We are trying to understand the services provided by forests,” says Jefferson Hall, a Yale-educated forest ecologist with the Smithsonian Tropical Research Institute in Panama.
For the past five years Hall has been working on the Panama Canal watershed, on forest regeneration and measuring the effects of different land uses on water flows, as well as carbon sequestration and biodiversity. At the same time he is assessing the potential economic return from investment in environmental protection.
His research, in one of the most bio-diverse countries in a region at the forefront of carbon negotiations, is part of a growing effort to give the environment a realistic financial value.
According to recent findings by the Inter-American Development Bank or IDB, Latin America and the Caribbean are home to half of the earth’s tropical forests. The region hosts 40 per cent of global biodiversity, which in turn supports 15 per cent of its GDP and 50 per cent of its exports.
In a novel initiative, the IDB believes this “wild wealth” could be turned into a spur for growth and innovation by including the value of biodiversity in key economic sectors.
The wealth of biodiversity generates some critical benefits, such as food, shelter, clean water and air, flood and drought mitigation, disease and pest control. These “ecosystem services” directly support important economic sectors – mostly agriculture, fisheries, forestry and tourism – which together employ 17 per cent of the region’s labour force.
The list of current “services” is long. To name a few, eco-tourism generates $60bn annually in the region; coral reefs in the Caribbean protect the shores and allow the generation of $15bn in revenues; the global economic value of bee pollination is estimated at $200bn.
“Investing in nature is one of the smartest investments you can make,” says Mark Tercek, a former Goldman Sachs banker currently heading The Nature Conservancy, the world’s largest conservation organisation with more than $5bn in assets.
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