How much forest was lost in 2019?

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This is an archive of the Forest Pulse, which is updated annually using annual tree cover loss data to provide a comprehensive overview on where forests have been lost around the world. Annual updates are released each year and cover the previous year’s trends. View the latest analysis here

We Lost a Football Pitch of Primary Rainforest Every 6 Seconds in 2019

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The 2019 data reveal that several countries suffered record losses, and fires created astonishing impacts in primary forests and beyond. Though the situation remains bleak at the global level, some countries showed signs of improvement, offering lessons for other nations. Here are the locations of note for tree cover loss in 2019:

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Fires in Bolivia spread out of control

Bolivia experienced record-breaking tree cover loss due to fires, both within primary forests and in surrounding woodlands. The country’s total tree cover loss in 2019 was over 80% greater than the next-highest year on record.

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Burn scar in Southeast Bolivia from with overlay of tree cover loss from 2019 (pink).

The widespread fires in 2019 occurred due to a combination of climatic conditions and human activity. Many of Bolivia’s fires were likely started by people, as they are every year to clear agricultural land for planting, but spread out of control into forests due to sustained winds and dry weather.

Large-scale agriculture is a major driver of deforestation in Bolivia, particularly for soy and cattle ranching. The Bolivian government made several regulatory changes in recent years to promote the expansion of agriculture, including loosening restrictions on controlled burning just months before the 2019 fires.

The province of Santa Cruz, where forests were hardest hit by fires, is Bolivia’s epicenter of large-scale agriculture. Its highly biodiverse Chiquitano Dry Forest was particularly affected, with reports that nearly 12% of it burned. Experts believe it could take hundreds of years for this unique Bolivian forest to recover fully. 

Forest fires also spread into parts of Paraguay, prompting the country to consider requesting compensation from Bolivia for damages.

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Brazil accounted for a third of the world’s tropical primary forest loss

Brazil single-handedly accounted for over a third of all loss of humid tropical primary forests worldwide, with more primary forest lost than any other tropical country in 2019. Outside of 2016 and 2017, when forest fires resulted in unprecedented forest loss, 2019 was Brazil’s worst year for primary forests in 13 years.

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The primary forest loss data detect a wide range of forest disturbances – from deforestation for agriculture to understory fires to selective logging. While the increase in primary forest loss from 2018 to 2019 was modest, government data indicate that one particular form of forest loss — clear-cut deforestation for agriculture and other new land uses — has rapidly increased in the Brazilian Amazon over the past year (read more about different data sources here).

Unlike in neighboring Bolivia, forest fires in Brazil were not a major contributor to primary forest loss in 2019. The Brazilian Amazon did face unusually high fire counts in August 2019, but many of these occurred on already-deforested areas as farmers prepared land for agriculture and cattle pastures. The lack of drought, the public attention early in the fire season, and subsequent preventative action may have averted further burning in Brazil’s primary forests.

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How is Primary Forest Loss Connected to Fires?

In the Brazilian Amazon, fire and primary forest loss are closely linked, even when the former does not directly result in the latter. Naturally occurring fires in the Brazilian Amazon and other tropical rainforests are very rare. Often, fires signal previous deforestation — farmers and ranchers commonly set fire to recently deforested land to clear branches and stumps. Fire also plays a role in agricultural cycles, so land that had been cleared of forest in years past may be burned again to prepare for re-planting or to clear weeds from pastures. 

 

Of course, any burning on these cleared lands has the potential to escape into surrounding forests. Escaped fires are more common in forests that have already been degraded by human activities. If the resulting damage is severe enough, the burned areas will appear on Global Forest Watch as primary forest loss, as was the case for the widespread understory fires in 2016 and 2017.

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Spatial analyses of the pattern of primary forest loss in Brazil also indicate troubling new hot spots of loss within indigenous territories in the state of Pará. In the Trincheira/Bacajá indigenous territory, deforestation as a result of illegal land-grabbing accelerated in 2019. Mining threatens forests in other Brazilian territories, such as Munduruku and Kayapó. Meanwhile, Brazil’s administration proposed new legislation in February that would allow commercial mining and oil and gas extraction within indigenous territories.

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Central Africa experienced sustained loss, as things improved in West Africa

Several countries in the Congo Basin experienced sustained or worsening primary forest loss in 2019, including the Democratic Republic of Congo (DRC). Although primary forest loss slightly decreased from 2018, 2019 recorded the third-highest total annual loss on record.

Most of the primary forest loss in the DRC still appears to be in cyclical agriculture areas which typically feed local populations, but there is emerging evidence that some may be tied to large-scale commercial logging, mining and plantations. Primary forest loss in the DRC’s protected areas increased slightly, especially in reserves and hunting areas that have fewer financial resources for enforcing protection than national parks do, as well as in the eastern part of the country where there is more population pressure from displaced persons and conflict.  

West Africa experienced promising downward trends after a large increase in primary forest loss last year. Ghana and Côte d’Ivoire both reduced primary forest loss by over 50% in 2019 compared to the previous year. A number of positive initiatives could be responsible, including REDD+ programs and pledges by both countries and major cocoa and chocolate companies to end deforestation. A one-year drop is encouraging, but time will tell if these efforts make an enduring impact.

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Indonesia maintained lower losses for third year in a row

In positive news, primary forest loss in Indonesia decreased by 5% in 2019 compared to the year before, marking the third year in a row of lower levels of loss. Indonesia hasn’t seen such low levels of primary forest loss since the beginning of the century.

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The decrease comes despite an intense fire season, which in previous yearsresulted in large areas of primary forest loss. While some of the damage from late-year fires might not be detected until 2020 data are available, three consecutive years of historically low loss numbers suggests that Indonesia may have turned a corner in its efforts to reduce deforestation.

Several Indonesian policies have likely contributed to this decline, including increased law enforcement to prevent forest fires and land clearing, and the now-permanent forest moratorium on clearing for oil palm plantations and logging. Papua and West Papua, which together contain over a third of Indonesia’s remaining primary forest, also continued to experience low levels of loss in 2019, coinciding with their governors declaring them “sustainable provinces.” 

Loss within protected forests and protected peat areas in Indonesia was still very low, but ticked up slightly from 2018, primarily due to natural causes such as storm damage. However, the mandate of the Peat Restoration Agency(BRG), responsible for protecting and restoring carbon-rich peatlands under the direction of the president, is set to end in 2020. Indonesia will need to continue monitoring peatlands to ensure its permanent moratorium on peat draining and clearing is respected.

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Colombia showed signs of curbing dramatic forest loss

Colombia also experienced a significant decrease in primary forest loss in 2019, offering hope that the country may be changing course after heavy forest losses over the previous two years. Primary forest loss in Colombia rapidly increased after a 2016 peace agreement between the government and the Revolutionary Armed Forces of Colombia (FARC), which ended the violent conflict, but also led to a power vacuum on previously occupied lands in the Amazon.

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The trend reversal suggests that the Colombian government’s actions may be making an impact. The country set ambitious goals both to reduce deforestation and plant millions of trees in deforested areas. In April 2019, Colombia’s president launched “Operation Artemisa,” which employs the military, police and other public entities to stop deforestation in the country’s national parks – though its activities are not without controversy

Despite the decline, Colombia’s struggle to reduce deforestation is far from over. Colombia’s primary forest loss in 2019 was still higher than any year on record before the peace agreement, with large losses detected in a number of protected areas and continued clearing for land grabbing and cattle ranching. The number of near-real-time deforestation alerts in Colombia were unusually high in the first part of 2020, raising concerns that the decline in primary forest loss may be short-lived.

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Australia’s fires caused staggering tree cover loss

Outside of the tropics, wildfires scorched Australia towards the end of 2019 and into early 2020, causing a massive surge in tree cover loss. 2019 was easily Australia’s worst year on record, with a six-fold increase in tree cover loss compared to the year before. And the true impact of Australia’s fires on tree cover loss is likely worse, as burning that continued into 2020 is not captured in the data.

The wildfires in Australia caused dozens of deaths, destroyed thousands of homes and killed hundreds of millions of animals. The eucalyptus-dominated woodlands where many of the blazes burned are well-adapted to cycles of fire, but the intensity, unprecedented scale and interaction of Australia’s fires with drought may result in longer-term damage.

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Now is the time to double down on forest protection

Despite apparent successes by some countries in curbing forest loss, the 2019 data underscore one fact: the fight to curb tropical forest loss is far from over.

Most countries and companies will fail to meet their 2020 commitmentsaround forests, with tropical primary forest loss remaining as high as ever. The coronavirus pandemic poses additional threats to the world’s forests in the months and years ahead. In the short-term, forests may be affected by a lack of enforcement, resulting in a higher incidence of illegal clearing and fires. In the medium-term, economic declines and stimulus measures may result in greater forest loss as countries attempt to stimulate their economies with extractive industries, as was the case in Indonesia during the Asian Financial Crisis

Rather than sacrificing forests in pursuit of economic recovery, which will only lead to future complications for the health and livelihoods of millions of people around the world, governments can build back better. Investing in the restoration and sound stewardship of forests will create jobs, contribute to more sustainable economies and protect the forest ecosystems our world needs.


The authors would like to acknowledge Peter Potapov and Svetlana Turubanova from the University of Maryland, who updated the tree cover loss data set.


 

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Dark surfaces absorb the rays from the sun (low albedo).\r\n"},"94":{"name":"biodiversity intactness","description":"The proportion and abundance of a location\u0027s original forest community (number of species and individuals) that remain.\u0026nbsp;\r\n"},"95":{"name":"biodiversity significance","description":"The importance of an area for the persistence of forest-dependent species based on range rarity.\r\n"},"142":{"name":"boundary plantings","description":"Trees planted along boundaries or property lines to mark them well.\r\n"},"98":{"name":"carbon dioxide equivalent (CO2e)","description":"Carbon dioxide equivalent (CO2e) is a measure used to aggregate emissions from various greenhouse gases (GHGs) on the basis of their 100-year global warming potentials by equating non-CO2 GHGs to the equivalent amount of CO2.\r\n"},"99":{"name":"CO2e","description":"Carbon dioxide equivalent (CO2e) is a measure used to aggregate emissions from various greenhouse gases (GHGs) on the basis of their 100-year global warming potentials by equating non-CO2 GHGs to the equivalent amount of CO2.\r\n"},"1":{"name":"deforestation","description":"The change from forest to another land cover or land use, such as forest to plantation or forest to urban area.\r\n"},"77":{"name":"deforested","description":"The change from forest to another land cover or land use, such as forest to plantation or forest to urban area.\r\n"},"76":{"name":"degradation","description":"The reduction in a forest\u2019s ability to perform ecosystem services, such as carbon storage and water regulation, due to natural and anthropogenic changes.\r\n"},"75":{"name":"degraded","description":"The reduction in a forest\u2019s ability to perform ecosystem services, such as carbon storage and water regulation, due to natural and anthropogenic changes.\r\n"},"79":{"name":"disturbances","description":"A discrete event that changes the structure of a forest ecosystem.\r\n"},"68":{"name":"disturbed","description":"A discrete event that changes the structure of a forest ecosystem.\r\n"},"65":{"name":"driver of tree cover loss","description":"The direct cause of forest disturbance.\r\n"},"70":{"name":"drivers of loss","description":"The direct cause of forest disturbance.\r\n"},"81":{"name":"drivers of tree cover loss","description":"The direct cause of forest disturbance.\r\n"},"102":{"name":"evapotranspiration","description":"When solar energy hitting a forest converts liquid water into water vapor (carrying energy as latent heat) through evaporation and transpiration.\r\n"},"2":{"name":"forest","description":"Forests include tree cover greater than 30 percent tree canopy density and greater than 5 meters in height as mapped at a 30-meter Landsat pixel scale.\r\n"},"3":{"name":"forest concession","description":"A legal agreement allowing an entity the right to manage a public forest for production purposes.\r\n"},"90":{"name":"forest concessions","description":"A legal agreement allowing an entity the right to manage a public forest for production purposes.\r\n"},"53":{"name":"forest degradation","description":"The reduction in a forest\u2019s ability to perform ecosystem services, such as carbon storage and water regulation, due to natural and anthropogenic changes.\r\n"},"54":{"name":"forest disturbance","description":"A discrete event that changes the structure of a forest ecosystem.\r\n"},"100":{"name":"forest disturbances","description":"A discrete event that changes the structure of a forest ecosystem.\r\n"},"5":{"name":"forest fragmentation","description":"The breaking of large, contiguous forests into smaller pieces, with other land cover types interspersed.\r\n"},"6":{"name":"forest management plan","description":"A plan that documents the stewardship and use of forests and other wooded land to meet environmental, economic, social, and cultural objectives. 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Tree cover gain may indicate a number of potential activities, including natural forest growth or the crop rotation cycle of tree plantations.\r\n"},"143":{"name":"global land squeeze","description":"Pressure on finite land resources to produce food, feed and fuel for a growing human population while also sustaining biodiversity and providing ecosystem services.\r\n"},"7":{"name":"hectare","description":"One hectare equals 100 square meters, 2.47 acres, or 0.01 square kilometers and is about the size of a rugby field. A football pitch is slightly smaller than a hectare (pitches are between 0.62 and 0.82 hectares).\r\n"},"66":{"name":"hectares","description":"One hectare equals 100 square meters, 2.47 acres, or 0.01 square kilometers and is about the size of a rugby field. A football pitch is slightly smaller than a hectare (pitches are between 0.62 and 0.82 hectares).\r\n"},"67":{"name":"intact","description":"A forest that contains no signs of human activity or habitat fragmentation as determined by remote sensing images and is large enough to maintain all native biological biodiversity.\r\n"},"78":{"name":"intact forest","description":"A forest that contains no signs of human activity or habitat fragmentation as determined by remote sensing images and is large enough to maintain all native biological biodiversity.\r\n"},"8":{"name":"intact forests","description":"A forest that contains no signs of human activity or habitat fragmentation as determined by remote sensing images and is large enough to maintain all native biological biodiversity.\r\n"},"55":{"name":"land and environmental defenders","description":"People who peacefully promote and protect rights related to land and\/or the environment.\r\n"},"9":{"name":"loss driver","description":"The direct cause of forest disturbance.\r\n"},"10":{"name":"low tree canopy density","description":"Less than 30 percent tree canopy density.\r\n"},"84":{"name":"managed forest concession","description":"Areas where governments have given rights to private companies to harvest timber and other wood products from natural forests on public lands.\r\n"},"83":{"name":"managed forest concession maps for nine countries","description":"Cameroon, Canada, Central African Republic, Democratic Republic of the Congo, Equatorial Guinea, Gabon, Indonesia, Liberia, and the Republic of the Congo\r\n"},"104":{"name":"managed natural forests","description":"Naturally regenerated forests with signs of management, including logging, clear cuts, etc.\r\n"},"91":{"name":"megacities","description":"A city with more than 10 million people.\r\n"},"57":{"name":"megacity","description":"A city with more than 10 million people."},"56":{"name":"mosaic restoration","description":"Restoration that integrates trees into mixed-use landscapes, such as agricultural lands and settlements, where trees can support people through improved water quality, increased soil fertility, and other ecosystem services. This type of restoration is more likely in deforested or degraded forest landscapes with moderate population density (10\u2013100 people per square kilometer). "},"86":{"name":"natural","description":"A forest that is grown without human intervention.\r\n"},"12":{"name":"natural forest","description":"A forest that is grown without human intervention.\r\n"},"63":{"name":"natural forests","description":"A forest that is grown without human intervention.\r\n"},"144":{"name":"open canopy systems","description":"Individual tree crowns that do not overlap to form a continuous canopy layer.\r\n"},"82":{"name":"persistent gain","description":"Forests that have experienced one gain event from 2001 to 2016.\r\n"},"13":{"name":"persistent loss and gain","description":"Forests that have experienced one loss or one gain event from 2001 to 2016."},"97":{"name":"plantation","description":"An area in which trees have been planted, generally for commercial purposes.\u0026nbsp;\r\n"},"93":{"name":"plantations","description":"An area in which trees have been planted, generally for commercial purposes.\u0026nbsp;\r\n"},"88":{"name":"planted","description":"A forest composed of trees that have been deliberately planted and\/or seeded by humans.\r\n"},"14":{"name":"planted forest","description":"Stand of planted trees \u2014 other than tree crops \u2014 grown for wood and wood fiber production or for ecosystem protection against wind and\/or soil erosion.\r\n"},"73":{"name":"planted forests","description":"Stand of planted trees \u2014 other than tree crops \u2014 grown for wood and wood fiber production or for ecosystem protection against wind and\/or soil erosion."},"148":{"name":"planted trees","description":"Stand of trees established through planting, including both planted forest and tree crops."},"149":{"name":"Planted trees","description":"Stand of trees established through planting, including both planted forest and tree crops."},"15":{"name":"primary forest","description":"Old-growth forests that are typically high in carbon stock and rich in biodiversity. 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"},"96":{"name":"shifting agriculture","description":"Temporary loss or permanent deforestation due to small- and medium-scale agriculture.\r\n"},"103":{"name":"surface roughness","description":"Surface roughness of forests creates\u0026nbsp;turbulence that slows near-surface winds and cools the land as it lifts heat from low-albedo leaves and moisture from evapotranspiration high into the atmosphere and slows otherwise-drying winds. \r\n"},"17":{"name":"tree cover","description":"All vegetation greater than five meters in height and may take the form of natural forests or plantations across a range of canopy densities. Unless otherwise specified, the GFR uses greater than 30 percent tree canopy density for calculations.\r\n"},"71":{"name":"tree cover canopy density is low","description":"Less than 30 percent tree canopy density.\r\n"},"60":{"name":"tree cover gain","description":"The establishment of tree canopy in an area that previously had no tree cover. Tree cover gain may indicate a number of potential activities, including natural forest growth or the crop rotation cycle of tree plantations.\u0026nbsp;As such, tree cover gain does not equate to restoration.\r\n"},"18":{"name":"tree cover loss","description":"The removal or mortality of tree cover, which can be due to a variety of factors, including mechanical harvesting, fire, disease, or storm damage. As such, loss does not equate to deforestation.\r\n"},"150":{"name":"tree crops","description":"Stand of perennial trees that produce agricultural products, such as rubber, oil palm, coffee, coconut, cocoa and orchards."},"19":{"name":"tree plantation","description":"An agricultural plantation of fast-growing tree species on short rotations for the production of timber, pulp, or fruit.\r\n"},"72":{"name":"tree plantations","description":"An agricultural plantation of fast-growing tree species on short rotations for the production of timber, pulp, or fruit.\r\n"},"85":{"name":"trees outside forests","description":"Trees found in urban areas, alongside roads, or within agricultural land\u0026nbsp;are often referred to as Trees Outside Forests (TOF).\u202f\r\n"},"151":{"name":"unmanaged","description":"Naturally regenerated forests without any signs of management, including primary forest."},"105":{"name":"unmanaged natural forests","description":"Naturally regenerated forests without any signs of management, including primary forest.\r\n"}}}