Deforestation in the 21st century
When it comes to cutting down trees, satellite data reveals a shift from the patterns of the past
Globally, Q16 roughly 13 million hectares of forest are destroyed each year. Such deforestation has long been driven by farmers desperate to earn a living or by loggers building new roads into pristine forests. But now new data appears to show that big, block clearings that reflect industrial deforestation have come to dominate, rather than these smaller-scale efforts that leave behind long, narrow swaths of cleared land.
Geographer Ruth DeFries of Columbia University and her colleagues used satellite images to analyse Q18 tree-clearing in countries ringing the tropics, representing 98 percent of all remaining tropical forests. Instead of the usual ‘fish bone’ signature of deforestation from small-scale operations, large, chunky blocks of cleared land reveal a new motive for cutting down wood.
In fact, a statistical analysis of 41 countries showed that forest loss rates were most closely linked with urban population growth and agricultural exports in the early part of the 21st century – even overall population growth was not as strong an influence. ‘In previous decades, deforestation was associated with planned colonisation, resettlement schemes in local areas, and farmers clearing land to grow food for subsistence,’ DeFries says. ‘What we’re seeing now is a shift from small-scale farmers driving deforestation to distant demands from urban growth, agricultural trade and exports being more important drivers.’
In other words, the increasing urbanisation of the developing world, as populations leave rural areas to concentrate in booming cities, is driving deforestation, rather than containing it. Coupled with this there is an ongoing increase in consumption in the developed world of products that have an impact on forests, whether furniture, shoe leather, or chicken feed. ‘One of the really striking characteristics of this century is urbanisation and rapid urban growth in the developing world,’ DeFries says, ‘People in cities Q20 need to eat.’ ‘There’s no surprise there,’ observes Scott Poynton, executive director of the Tropical Forest Trust, a Switzerland-based organisation that helps businesses implement and manage sustainable forestry in countries such as Brazil, Congo, and Indonesia. ‘It’s not about people chopping down trees. It’s all the people in New York, Europe and elsewhere who want Q21 cheap products, primarily food.’
Dearies argues that in order to help sustain this increasing urban and global demand, agricultural productivity will need to be increased on lands that have already been cleared. This means that Q14 better crop varieties or better management techniques will need to be used on the many Q22 degraded and abandoned lands in the tropics. And the Tropical Forest Trust is building management systems to keep illegally harvested wood from ending up in, for example, deck chairs, as well as expanding its efforts to look at how to reduce the ‘Q24 forest footprint’ of agricultural products such as palm oil. Poynton says, ‘The point is to give forests value as forests, to keep them as forests and give them a use as forests. They’re not going to be locked away as national parks. That’s not going to happen.’
But it is not all bad news. Halts in tropical deforestation have resulted in Q23 forest regrowth in some areas where tropical lands were previously cleared. And Q15 forest clearing in the Amazon, the world’s largest tropical forest, dropped from roughly 1.9 million hectares a year in the 1990s to 1.6 million hectares a year over the last decade, according to the Brazilian government. ‘We know that deforestation has slowed down in at least the Brazilian Amazon,’ DeFries says. ‘Every place is different. Every country has its own particular situation, circumstances, and driving forces.’
Regardless of this, deforestation continues, and cutting down forests is one of the largest sources of greenhouse gas emissions from human activity – a double blow that both eliminates a biological system to suck up C02 and creates a new source of greenhouse gases in the form of Q25 decaying plants. The United Nations Environment Programme estimates that slowing such deforestation could reduce some 50 billion metric tons of C02 or more than a year of global emissions. Indeed, international climate negotiations continue to attempt to set up a system to encourage this, known as the UN Development Programme’s fund for reducing emissions from deforestation and forest degradation in developing countries (REDD). If policies [like REDD] are to be effective, we need to understand what the driving forces are behind deforestation, DeFries argues. Q17 This is particularly important in the light of new pressures that are on the horizon: the need to reduce our dependence on fossil fuels and find alternative power sources, particularly for private cars, is forcing governments to make products such as biofuels more readily accessible. This will only exacerbate the pressures on tropical forests.
But millions of hectares of pristine forest remain to protect, according to this new analysis from Columbia University. Approximately Q26 60 percent of the remaining tropical forests are in countries or areas that currently Q19 have little agricultural trade or urban growth. The amount of forest area in places like central Africa, Guyana and Suriname, DeFries notes, is huge. ‘There’s a lot of forests that has not yet faced these pressures.’