This post is co-authored with Dave Thau, senior developer advocate for Google Earth Engine, Google's satellite image processing platform.
By the time we find out about deforestation, it’s usually too late to take action.
Scientists have been studying forests for centuries, chronicling the vital importance of these ecosystems for human society. But most of us still lack timely and reliable information about where, when, and why forests are disappearing.
This is about to change with the launch of Global Forest Watch, an online forest monitoring system created by the World Resources Institute and more than 40 partners. Global Forest Watch uses cutting-edge technologies to map the world’s forests with satellite imagery, detect changes in tree cover in near-real-time, and make this information freely available to anyone with internet access.
With Global Forest Watch, everyone from business executives to policymakers to indigenous groups can find out what’s happening in forests around the world—and use this information to take action. Now that we have the ability to peer into forests around the globe, a number of telling stories are beginning to emerge:
1) Global tree cover loss far exceeds tree cover gain.
Data from the University of Maryland and Google shows that the world lost 2.3 million square kilometers of tree cover between 2000 and 2012—the equivalent of losing 50 soccer fields’ worth of forests every minute of every day for the past 13 years! By contrast, only 0.8 million square kilometers have regrown, been planted, or restored during the same period
2) Oil palm development is driving deforestation in Indonesia’s protected forests.
3) Biodiversity hotspots in the Congo Basin are under threat.
Forests are home to more than half of the world’s terrestrial biodiversity. Central Africa’s Eastern Afromonte eco-region—shown in teal—holds several populations of threatened and endangered animals, such as chimpanzees and gorillas. Significant tree cover loss appears to be occurring in this region, destroying important habitat for these species.
The Jane Goodall Institute, a GFW partner that uses University of Maryland and other forest data to help governments, local communities, and other partners detect the loss of great ape habitat, found that 2.4 percent of forests within chimpanzee ranges have been destroyed in Africa over the past 12 years. That's the equivalent of losing 2,000 soccer fields of forest every day!
4) Deforestation rates are falling in the Brazilian Amazon.
While Brazil still ranks as one of world’s largest deforesters, there’s positive news to report. The rate of deforestation in the country has actually decreased by an average of 1,318 square kilometers per year over the past decade, despite a recent uptick in 2013.
Brazil’s decreased deforestation rates are partly due to improved policies and law enforcement—supported by the country’s satellite-based, monthly deforestation alert systems. The map above compares deforestation from 2000-2006 with deforestation from 2006-2012 using data from the Deforestation Alert System (SAD) developed by Imazon, a Brazilian NGO and GFW partner.
5) Forests are protected in Brazil’s indigenous territories.
This is a troubling trend. These forests—also known as “old-growth forests”—have a history of minimal human impact, so they’re particularly valuable for biodiversity, carbon storage, and provision of ecosystem services such as water and air filtration.
British Columbia hosts a rich array of intact temperate rainforests, including the Great Bear Rainforest (seen above along the coastline). This forest is home to a rare subspecies of black bear that often display white coats and are considered sacred to the Native tribes of British Columbia.
7) Southern U.S. forests experience some of the highest rates of loss and regrowth in the world.
The Southern United States is home to the nation’s most heavily forested region, making up 29 percent of total U.S. forest land. The fine mosaic of tree cover loss (pink) and gain (blue) in the above map shows how forests throughout this region are used as crops, grown and harvested in five-year cycles to produce timber or wood pulp for paper production. In fact, between 2000 and 2012, nearly one-third of the tree cover in this region was either lost or regrown.
This practice of “intensive forestry” or “production forests” is used all over the world to provide valuable commodities and bolster regional and national economies. WRI analysis suggests that if managers of production forests embrace a “multiple ecosystem services strategy,” they will be able to generate additional benefits such as biodiversity, carbon storage, and water filtration.
8) Forest and peat fires are a chronic problem in Sumatra’s oil palm plantations.
Last summer, fires in Sumatra sent plumes of toxic haze across Southeast Asia, causing significant damage to the regional economy and human health. WRI analysis overlaid hotspots from NASA’s FIRMS fire alerting system with concession data from the Indonesian government. We found that nearly 50 percent of all hotspots occurred in oil palm and wood pulp concessions, indicating that some of these fires may have been set to clear forest and peatland for agricultural development.
9) Deforestation rates in South America’s Gran Chaco region exceed those in the Amazon.
While many media reports focus on deforestation of rainforests in the Amazon, the dry tropical forests and savannahs of the Gran Chaco region—which spans across sections of Paraguay, Argentina, and southern Brazil—have some of the highest rates of tree cover loss in the world. Zooming into one area of Paraguay demonstrates the important role of agriculture in this trend. The rectangular patches of forest loss show a pattern consistent with agricultural expansion for soy fields and beef pastureland. ]
Make Your Own Forest Map
Previously, the data required to make these maps was difficult to obtain and interpret. Most people lacked the expertise, special software, and resources necessary to access, view, and analyze the data.
GFW allows a host of users to readily access this information. For example:
- Governments can use GFW to better enforce forest laws, monitor concessions, and detect illegal forest clearing;
- NGOs can identify deforestation hotspots in near-real-time, mobilize action, and collect evidence to hold governments and companies accountable for forest-related commitments;
- Indigenous communities can upload alerts and photos when encroachment occurs on their customary forest lands;
- Buyers of major commodities such as palm oil, soy, timber, and beef can monitor compliance of their suppliers with relevant laws, commitments, and certification standards;
- Suppliers of these commodities can credibly demonstrate that their products are “deforestation-free” and legally produced;
- Media can quickly highlight trends in deforestation and gather evidence for reporting; and
- Concerned citizens everywhere can learn more about the state of forests and participate in forest monitoring.
So I encourage you to visit Global Forest Watch and make your own forest map. There are many stories to tell about what is happening to forests around the world—and those stories can lead to action that protects these special, threatened ecosystems.
What story will you tell?