Tag Archives: deforestation Amazon

Don’t Cut that Tree!

CO2 in Earth's atmosphere if half of global-warming emissions are not absorbed] (NASA computer simulation). Image from wikipedia

A revolutionary new approach to measuring changes in forest carbon density has helped scientists determine that the tropics now emit more carbon than they capture, countering their role as a net carbon “sink.”*

“These findings provide the world with a wakeup call on forests,” said scientist Alessandro Baccini, the report’s lead author….Forests are the only carbon capture and storage ‘technology’ we have in our grasp that is safe, proven, inexpensive, immediately available at scale, and capable of providing beneficial ripple effects—from regulating rainfall patterns to providing livelihoods to indigenous communities.”

Using 12 years (2003-2014) of satellite imagery, laser remote sensing technology and field measurements, Baccini and his team were able to capture losses in forest carbon from wholesale deforestation as well as from more difficult-to-measure fine-scale degradation and disturbance …from smallholder farmers removing individual trees for fuel wood. These losses can be relatively small in any one place, but added up across large areas they become considerable.

[T] he researchers discovered that tropics represent a net source of carbon to the atmosphere — about 425 teragrams of carbon annually – which is more than the annual emissions from all cars and trucks in the United States.

Excerpts from New approach to measuring forest carbon density shows tropics now emit more carbon than they capture, Woods Hole Research Institute Press Release, Sept. 28, 2017

*Tropical forests are a net carbon source based on aboveground measurements of gain and loss by A. Baccini et al., Science, Sept. 28, 2017

Bird Predators and the Survival of Tropical Forests


[T]he Amazon rainforest contains more than 1,500 bird species. Around a quarter of them are found nowhere else on Earth. Many of these birds have evolved to fill a specific role – whether that means eating particular types of insects, or scattering a certain size of seed….A new paper published in Proceedings of the Royal Society explores  the link between deforestation in the Amazon and local bird diversity…[B]ird data was collected in 330 different sites in the Brazilian state of Pará, including arable and pastoral farmland and both primary and secondary forests. Primary forests are the original native vegetation, now increasingly degraded by logging and wild fires. Secondary forests are those which grow back in areas, often farmland, which have been abandoned by people…

The study focused on seed dispersal and insect predation, two ecosystem processes where birds play important roles. Fruit-eating (or frugivorous) birds spread the seeds of forest trees. Insect-eating (insectivorous) birds ensure that any germinating saplings have a fighting chance at survival. ..[S]witching from primary tropical forests to farmland dramatically reduced the “services” birds were able to provide.

This may seem fairly intuitive so far, given that there is a world of difference between a forest and cattle pasture. However, more significantly it was found that the traits were only partially restored in regenerating secondary forests. These areas have been branded as the “forests of the future” but we found them coming up short. These “forests of the future” cannot conserve all the biological interactions realised in primary forests, undisturbed or otherwise, which are essential for biodiversity conservation.  Once large seed-dispersing birds such as guans or cotingas are lost in an area, trees species with large seeds find it harder to recover. Regeneration becomes unlikely or impossible. Research from Brazil’s coastal Atlantic Forest has shown that the loss of such key species is driving the evolution of palm trees with smaller seeds. Some of these links may have been lost before we even knew them….The sorts of generalist insect-eaters that come to dominate farmland aren’t generally able to capture the well-disguised insects found in adjacent patches of forest.

Excerpt from Without birds, tropical forests won’t bounce back from deforestation, the conversation.com, Nov. 8, 2016

How to Discover an Illegal Logger

Image from http://blog.globalforestwatch.org/2016/02/how-did-the-worlds-forests-change-last-week-new-alerts-show-us/?utm_campaign=glad%20alerts&utm_source=blog&utm_medium=caption&utm_content=gif

Tropical forests nearly the size of India are set to be destroyed by 2050 if current trends continue causing species loss, displacement and a major increase in climate-changing greenhouse gas emissions.  Prior to the launch of the Global Land Analysis and Discovery (GLAD) alerts, researchers would have to manually track images of logging in specific areas.

The new process, developed by scientists at the University of Maryland and Google, uses an algorithm to analyze weekly updates of satellite images and sends automatic notifications about new logging activity.”This is a game changer,” said Matt Finer from the Amazon Conservation Association, an environmental group.

His organization tracks illegal logging in Peru, sending images of deforestation to policymakers, environmentalists and government officials to try and protect the Amazon rainforest.  In the past, he would rely on tips from local people about encroachment by loggers, then look at older satellite images to try and corroborate the claims.

“With this new data we can focus on getting actionable information to policy makers,” Finer told the Thomson Reuters Foundation.  “We have seen how powerful these images can be,” he said, citing a case where his group brought pictures of illegal gold miners cutting down trees to the Peruvian government, who then removed the miners.

Excerpt from  CHRIS ARSENAULT, New satellite program aims to cut down illegal logging in real time, Reuters, Mar. 2, 2016

Demand for Gold Causes Deforestation

gold mine

The global gold rush, driven by increasing consumption in developing countries and uncertainty in financial markets, is an increasing threat for tropical ecosystems. Gold mining causes significant alteration to the environment, yet mining is often overlooked in deforestation analyses because it occupies relatively small areas. As a result, we lack a comprehensive assessment of the spatial extent of gold mining impacts on tropical forests.

The study Global demand for gold is another threat for tropical forests published in Environmental Research Letters provides a regional assessment of gold mining deforestation in the tropical moist forest biome of South America. Specifically, we analyzed the patterns of forest change in gold mining sites between 2001 and 2013, and evaluated the proximity of gold mining deforestation to protected areas (PAs)….Approximately 1680 km2 of tropical moist forest was lost in these mining sites between 2001 and 2013. Deforestation was significantly higher during the 2007–2013 period, and this was associated with the increase in global demand for gold after the international financial crisis….In addition, some of the more active zones of gold mining deforestation occurred inside or within 10 km of ~32 PAs. There is an urgent need to understand the ecological and social impacts of gold mining because it is an important cause of deforestation in the most remote forests in South America, and the impacts, particularly in aquatic systems, spread well beyond the actual mining sites.

Excerpt from Abstract, Global demand for gold is another threat for tropical forests

Deforestation: the mixed picture

slash and burn agriculture

In a new study of the Centre for Global Development (CGD), a Washington think-tank, Jonah Busch and Kalifi Ferretti-Gallon look at 117 cases of deforestation round the world. They find that two of the influences most closely correlated with the loss of forests are population and proximity to cities (the third is proximity to roads). Dramatic falls in fertility in Brazil, China and other well-forested nations therefore help explain why (after a lag) deforestation is slowing, too. Demography even helps account for what is happening in Congo, where fertility is high. Its people are flocking to cities, notably Kinshasa, with the result that the population in more distant, forested areas is thinning out.

Two of the countries that have done most to slow forest decline also have impressive agricultural records: Brazil, which became the biggest food exporter of all tropical countries over the past 20 years; and India, home of the green revolution. Brazil’s agricultural boom took place in the cerrado, the savannah-like region south and east of the Amazon (there is farming in the Amazon, too, but little by comparison). The green revolution took place mostly in India’s north-west and south, whereas its biggest forests are in the east and north.

But if population and agricultural prowess were the whole story, Indonesia, where fertility has fallen and farm output risen, would not be one of the worst failures. Figures published inNature Climate Change in June show that in the past decade it destroyed around 60,000 sq km of primary forests; its deforestation rate overtook Brazil’s in 2011. Policies matter, too—and the political will to implement them.

The central problem facing policymakers is that trees are usually worth more dead than alive; that is, land is worth more as pasture or cropland than as virgin forest. The benefits from forests, such as capturing carbon emissions, cleaning up water supplies and embodying biodiversity, are hard to price….The most successful policies therefore tend to be top-down bans, rather than incentives (though these have been tried, too). India’s national forest policy of 1988 explicitly rejects the idea of trying to make money from stewardship. “The derivation of direct economic benefit”, it says, “must be subordinated to this principal aim” (maintaining the health of the forest). In Brazil 44% of the Amazon is now national park, wildlife reserve or indigenous reserve, where farming is banned; much of that area was added recently. In Costa Rica half the forests are similarly protected. In India a third are managed jointly by local groups and state governments.

Top-down bans require more than just writing a law. Brazil’s regime developed over 15 years and involved tightening up its code on economic activity in forested areas, moratoriums on sales of food grown on cleared land, a new land registry, withholding government-subsidised credit from areas with the worst deforestation and strengthening law enforcement through the public prosecutor’s office. (The most draconian restriction, requiring 80% of any farm in the Amazon to be set aside as a wildlife reserve, is rarely enforced.)

Two developments make bans easier to impose. Cheaper, more detailed satellite imagery shows in real time where the violations are and who may be responsible. Brazil put the data from its system online, enabling green activists to help police the frontier between forest and farmland. Its moratoriums on soyabeans and beef from the Amazon, which require tracing where food is coming from, would not have worked without satellites…

The Forestry Ministry of Indonesia, [on the other hand] is rated the most corrupt among 20 government institutions by Indonesia’s Corruption Eradication Commission in 2012. Some within government are hostile to anti-deforestation schemes, which they see as “foreign”, says Ade Wahyudi of Katadata, an Indonesian firm of analysts. Perhaps the biggest problem is the lack of a single, unified map including all information on land tenure and forest licensing: efforts to create one have been slowed by unco-operative government ministries and difficulties created by overlapping land claims.

Excerpts from Tropical Forests: A Clearing in the Trees, Economist,  Aug. 23, 2014, at 56