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Forest cover

From Wikipedia, the free encyclopedia

Forest cover is the amount of trees that covers a particular area of land. It may be measured as relative (in percent) or absolute (in square kilometres/square miles). Nearly a third of the world's land surface is covered with forest, with closed-canopy forest accounting for 4 - 5 billion hectares of land.[1] Forests provide many ecosystem services that humans and animals cannot survive without, but anthropogenic actions and climate change are threatening global forest cover in potentially irreversible ways.

Global patterns

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Forest cover by the numbers

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According to the FAO's Global Forest Resources Assessment 2020, the world has a total forest area of 4.06 billion hectares (10.0 billion acres), which is 31% of the total land area. More than one-third of the world's forest cover is primary forest: naturally regenerated forests with native species and no visible indication of human activity.[2]

More than half (54%) of the world's forests are found in only five countries (Brazil, Canada, China, Russia and the United States). Russia has the largest forest area in the world, at 815 million hectares (a fifth of global forest cover). The other four countries all house more than 100 million hectares of forest each. The small African nation of Gabon, while only containing 0.58% of the world's forest cover, has the largest forest-to-land ratio of any country (91.3%).[3]

Variation in forest ecosystems

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Forests are found throughout the world on a spatial scale determined by temperature and precipitation. There are four types of forest biomes: tropical, temperate, subtropical, and boreal. Most of the world's forest cover (45%) is found in the tropics, which is defined by high temperature and humidity. The boreal zone, which includes Russia and the Arctic, contains the second largest amount of forest (33%). The temperate/subtropical zone, located between the tropical and the boreal, contains 25%. Almost half of global forest cover (49%) is relatively continuous, while 9% is found in fragments with little to no connectivity. Roughly 80% of the world's forest area is found in patches larger than 1 million hectares (2.5 million acres). The remaining 20% is located in more than 34 million patches across the world[4] with the vast majority being less than 1,000 hectares (2,500 acres) in size. Tropical rainforests and boreal coniferous forests are the least fragmented, whereas subtropical dry forest and temperate oceanic forests are among the most fragmented.

Ecological impacts

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Benefits of forest cover

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The World Health Organization has compiled a list of ecological goods and services that depend on forests and without which humans could not survive, including: flood and drought mitigation, water purification, erosion control, and disease reduction.[5] Tropical forests especially act as one of the world's largest carbon sinks, accumulating atmospheric carbon dioxide during photosynthesis and thus mitigating climate change. Maintaining the size, continuity, and biodiversity of the world's forests is crucial for human health and prosperity. However, forest cover is severely threatened by deforestation, as a direct consequence of agriculture, grazing,[6] and mining.[7] Since the onset of agriculture (about 12,000 years ago), the number of trees worldwide has dropped by 46%.[8] Since 1990, the world has lost 178 million ha of forest (an area roughly the size of Libya).

Forest cover remediation tactics

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Although global forest area is decreasing, the rate at which we are losing trees has slowed. In the 1990s the world was losing 7.8 million ha of area per year, but in the 2000s this rate slowed to 5.2 million ha, and in the 2010s it shrank even further (down to 4.7 million). This pattern is due to the regeneration abilities of forests, as well as a conscious global effort to reduce deforestation. Plantation forests are one method of reforestation/afforestation that has become increasingly popular since the 1990s. Intensively planned to be biodiverse and well-managed, these forests exist for the purpose of regenerating our global forest cover.[9] Although it is impossible to gain back the ecosystem services lost when a plot of forest is destroyed for industrial purposes, these new regenerative methods carry hope for the future of our global forest biome.[citation needed]

See also

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Sources

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 This article incorporates text from a free content work. Licensed under CC BY-SA 3.0 (license statement/permission). Text taken from Global Forest Resources Assessment 2020 Key findings​, FAO, FAO.

 This article incorporates text from a free content work. Licensed under CC BY-SA 3.0 (license statement/permission). Text taken from The State of the World's Forests 2020. In brief – Forests, biodiversity and people​, FAO & UNEP, FAO & UNEP.

References

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  1. ^ "Forest Cover - an overview | ScienceDirect Topics". www.sciencedirect.com. Retrieved 2022-11-17.
  2. ^ Global Forest Resources Assessment 2020 – Terms and definitions (PDF). Rome: FAO. 2018.
  3. ^ Ritchie, Hannah; Roser, Max (2021-02-09). "Forests and Deforestation". Our World in Data.
  4. ^ The State of the World's Forests 2020. In brief – Forests, biodiversity and people. Rome: FAO & UNEP. 2020. pp. 7–9. doi:10.4060/ca8985en. ISBN 978-92-5-132707-4. S2CID 241416114.
  5. ^ Karjalainen, Eeva; Sarjala, Tytti; Raitio, Hannu (January 2010). "Promoting human health through forests: overview and major challenges". Environmental Health and Preventive Medicine. 15 (1): 1–8. Bibcode:2010EHPM...15....1K. doi:10.1007/s12199-008-0069-2. ISSN 1342-078X. PMC 2793342. PMID 19568838.
  6. ^ State of the World's Forests 2016. Rome: FAO. 2016. ISBN 978-92-5-109208-8.
  7. ^ Weisse, Mikaela; Goldman, Elizabeth Dow (2017-10-23). "Global Tree Cover Loss Rose 51 Percent in 2016". World Resources Institute. Retrieved 2018-02-16.
  8. ^ Ehrenberg, Rachel (2 September 2015). "Global forest survey finds trillions of trees". Nature. doi:10.1038/nature.2015.18287. S2CID 189415504.
  9. ^ Global Forest Resources Assessment 2020 In brief – key findings (PDF). Rome: FAO. 2020. pp. 2–6. doi:10.4060/ca8753en. ISBN 978-92-5-132581-0. S2CID 130116768.
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