Forestry Statistics 2024 – Everything You Need to Know

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Are you looking to add Forestry to your arsenal of tools? Maybe for your business or personal use only, whatever it is – it’s always a good idea to know more about the most important Forestry statistics of 2024.

My team and I scanned the entire web and collected all the most useful Forestry stats on this page. You don’t need to check any other resource on the web for any Forestry statistics. All are here only 🙂

How much of an impact will Forestry have on your day-to-day? or the day-to-day of your business? Should you invest in Forestry? We will answer all your Forestry related questions here.

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On this page, you’ll learn about the following:

Best Forestry Statistics

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Forestry Latest Statistics

  • There were 159 million hectares of forests in the European Union in 2020, making up about 38% of its land area. [0]
  • U.S. urban land increased from 2.6% in 2000 to 3.0% in 2010. [1]
  • Between 2010 and 2060, urban land is projected to increase another 95.5 million acres to 163.1 million acres (8.6%). [1]
  • Overall, there are an estimated 5.5 billion trees (39.4% tree cover). [1]
  • Employment of forest and conservation workers is projected to decline 8 percent from 2020 to 2030. [2]
  • Forest covers more than 60 percent of Mississippi. [3]
  • Most of this land, 72 percent, is owned by private, non. [3]
  • Forest industries are located throughout Mississippi and employ 25 percent of the states manufacturing workforce. [3]
  • Miss. Forestry is the third largest agricultural commodity in Mississippi for the second straight year with a production value of nearly $1.29 billion in 2021, up 5.7% over last year. [3]
  • Coming in with an estimated production value of $1.15 billion, timber followed the state’s poultry industry, which generated an estimated value of $2.78 billion in 2019. [3]
  • John Auel, an assistant Extension professor of forestry at Mississippi State University, estimates the value of forest products is $1.4 billion, which is a decrease of 8.6 percent from 2016. [3]
  • However, 2017 numbers are almost 40 percent higher than they were in 2009, when the industry experienced its lowest valued harvest of the 2007. [3]
  • In 2010, the world had 3.92Gha of tree cover, extending over 30% of its land area. [4]
  • From 2002 to 2020, there was a total of 64.7Mha humid primary forest lost globally, making up 16% of its total tree cover loss in the same time period. [4]
  • Total area of humid primary forest decreased globally by 6.3% in this time period. [4]
  • Primary forest extent remaining From 2001 to 2020, there was a total of 411Mha of tree cover loss globally, equivalent to a 10% decrease in tree cover since 2000 and 165Gt of COâ‚‚ emissions. [4]
  • As of 2000, 30% of global land cover was tree cover. [4]
  • Globally as of 2010, the top 5 countries represent 55% of all tree cover. [4]
  • The largest under reporting was for China for which the reported consumption of industrial roundwood was 237 million m3, or 57 per cent less than the estimated. [5]
  • The largest over reporting was for India, by 11 million m3, or 24 per cent. [5]
  • For paper making fibers, reported consumption was less than the estimated in 62 countries for a total of 11.3 million t, and it was more than the estimated in 61 countries, for a total of 3.2 million t. [5]
  • The largest underreported amount was for India 2.6 million t, or 20 per cent of the estimated, a difference that was entirely attributed to the under reporting of recovered paper consumption. [5]
  • The largest over reported consumption of paper making fibers was for Spain, nearly 1 million t, or 24 per cent, attributed to over reporting of recovered paper consumption. [5]
  • The variables and parameters used in the model were Cim estimated amount of input m consumed in country i, C0im. [5]
  • estimated total amount of multiple inputs per unit of output p in country i, Q0ip. [5]
  • , in which case the estimated consumption of the input in country falls short of the reported, or is positive and is zero, indicating that estimated consumption exceeds the reported. [5]
  • The difference between reported and estimated consumption was then, from constraint. [5]
  • And the per cent relative difference was Rim=C0im−CimCim*100∀i,m. [5]
  • The results in Tables 2– show, for each input type from industrial roundwood to recovered paper, the absolute and per cent differences between reported and estimated input, obtained with equations and above and for the 10 countries in Appendix A. [5]
  • Table 2 shows that for 17 of the 180 countries in Appendix A, the reported consumption was at least 1 million m3 less than the estimated. [5]
  • For two countries reported consumption exceeded the estimated by more than 1 million m3. [5]
  • The largest national undereporting was for China for which the reported consumption of industrial roundwood was 237 million m3, or 57 per cent less than the estimated. [5]
  • The second largest under reporting was for the USA where reported consumption was 10 per cent less than estimated. [5]
  • Vietnam, Japan and Thailand came next in absolute differences, with reported consumption 147 per cent, 23 per cent and 68 per cent less than estimated, respectively. [5]
  • Difference of more than 1000 m3 between reported and estimated consumption of industrial roundwood Country. [5]
  • 7 95 Difference of more than 1000 m3 between reported and estimated consumption of industrial roundwood Country. [5]
  • Far behind was Paraguay where the reported consumption exceeded the estimated by about 1 million m3, or 45 per cent. [5]
  • In 21 of the 180 countries considered, the reported annual consumption fell short of the estimated consumption by at least 100,000 t. [5]
  • In 6 countries, the reported consumption exceeded the estimated by 100 000 t. For the whole world, the underreported production of total paper making fiber amounted to 11.3 million t, while the over reported was 3.2 million t. [5]
  • In India, the reported production fell short of the estimated by 2.6 million t, or 20 per cent, an amount nearly equal to all the total paper making fiber reported production for Austria. [5]
  • The other two largest inferred under reporting countries were Finland by 1.6 million t, or 17 per cent, and Canada by 1.1 million t, or 11 per cent. [5]
  • Differences of more than 1000 t between reported and estimated consumption of total paper. [5]
  • Table 4 shows that in 16 countries the reported consumption of mechanical pulp was less than the estimated consumption. [5]
  • The largest inferred under reporting of consumption was for Austria for which reported consumption fell short of the estimated by 373 000 t, or 49 per cent. [5]
  • Differences of more than 1000 t between reported and estimated mechanical pulp consumption. [5]
  • 224 000 t instead the estimated zero consumption, followed by Switzerland. [5]
  • and Bangladesh. [5]
  • According to the results in Table 5, in 22 of the 180 countries considered, the difference between reported and inferred consumption of chemical pulp exceeded 1 000t in 2014. [5]
  • The largest national under reporting was for Canada 1.15 million t or 64 per cent of the expected consumption, followed by Finland , and Hungary. [5]
  • Among countries where the reported consumption exceeded the estimated, Bangladesh and Singapore had the largest differences. [5]
  • For these two countries, the discrepancy between reported and estimated chemical pulp consumption covered only a part of the discrepancy for total paper. [5]
  • Difference of more than 1000 t between reported and estimated consumption of chemical pulp. [5]
  • For 37 countries, the reported consumption of recovered paper was 1000 t less than the estimated amount , and the total under reporting at world level amounted to 5.1 million t. [5]
  • Reported consumption exceeded the estimated in 42 countries, with a world total of 1.8 million t. [5]
  • The largest difference between reported and estimated consumption was for India 2.6 million t, or 32 per cent. [5]
  • Among the countries where the reported consumption exceeded the estimated, the largest differences were for Spain and Argentina. [5]
  • Difference of more than 1000 t between reported and estimated consumption of recovered paper Country. [5]
  • 52 6 Difference of more than 1000 t between reported and estimated consumption of recovered paper Country. [5]
  • As shown in Table 7, the reported consumption of papermaking fiber other than wood pulp or recovered paper was less than the estimated amount by at least 1000 m3 in 16 countries, for a total world under reporting of 1.5 million t. [5]
  • In 7 countries the reported consumption exceeded the estimated by a total of 212 000. [5]
  • The largest inferred under reporting was for Belgium 375 000 t, or 99 per cent less than the estimated consumption based on the production of newsprint, printing and writing paper, and other paper and paperboard in Belgium. [5]
  • This discrepancy covered only part of the underreporting of total papermaking fiber , Difference of more than 1000 t between reported and estimated consumption of paper making fiber other than wood pulp and recovered paper Country. [5]
  • 366 Difference of more than 1000 t between reported and estimated consumption of paper making fiber other than wood pulp and recovered paper Country. [5]
  • For industrial roundwood the largest difference was for China where reported consumption fell short of the estimated by 237 million m3, or 57 per cent. [5]
  • where reported consumption was 2.6 million t, or 20 per cent less than estimated consumption. [5]
  • It is known that all trade statistics are subject to errors, and this is also true for forest products trade , however, because of customs duties and regulations, they are likely to be more accurate than production statistics. [5]
  • This could explain the large under reported consumption in China, where illegal logging may reach 50 per cent of the reported harvest. [5]
  • Thus, the reported industrial roundwood consumption in India was 10 770 thousand m3, or 24 per cent less than the estimated consumption, and the reported recovered paper consumption was 2 610 thousand t, or 12 per cent less than the estimated. [5]
  • The estimated industrial roundwood used in making sawnwood, panels and wood pulp was. [5]
  • and the estimated amounts of the various fibers used in making paper and paperboard were. [5]
  • Which, given the reported production in Table B1 gave the following estimated input–output coefficients r81,83. [5]
  • About 7.5% of the world’s forests are in the United States; and all together, U.S. forests cover over 800 million acres. [6]
  • Over 50% of U.S. forestland is owned and managed by more than 10 million private owners. [6]
  • Non corporate, individual and family forest ownerships control 39% of the forestland in the U.S., excluding interior Alaska. [6]
  • An estimated 93% of this family owned forestland is in holdings of 10 or more acres, but most (62%). [6]
  • Nationwide , there are an estimated 3.7 million family forestland owners of 10+ acres who collectively own 253 million forested acres, or 34% of U.S. forests. [6]

I know you want to use Forestry Software, thus we made this list of best Forestry Software. We also wrote about how to learn Forestry Software and how to install Forestry Software. Recently we wrote how to uninstall Forestry Software for newbie users. Don’t forgot to check latest Forestry statistics of 2024.

Reference

  1. europa – https://ec.europa.eu/eurostat/web/forestry.
  2. fs – https://www.nrs.fs.fed.us/pubs/55818.
  3. bls – https://www.bls.gov/ooh/farming-fishing-and-forestry/forest-and-conservation-workers.htm.
  4. msstate – http://extension.msstate.edu/forestry-statistics-for-mississippi-counties.
  5. globalforestwatch – https://www.globalforestwatch.org/dashboards/global.
  6. oup – https://academic.oup.com/forestry/article/91/5/541/5075443.
  7. stateforesters – https://www.stateforesters.org/timber-assurance/legality/forest-ownership-statistics/.

How Useful is Forestry

One of the most significant benefits of forestry is its role in biodiversity conservation. Forests are home to a vast array of plant and animal species, many of which are threatened by habitat destruction and fragmentation. Forestry practices that prioritize conservation can help protect these species by providing them with the necessary habitat to thrive. By maintaining healthy and diverse ecosystems, forestry plays a crucial role in safeguarding our planet’s biodiversity.

Forestry also plays a vital role in combating climate change. Trees are natural carbon sinks, absorbing carbon dioxide from the atmosphere and storing it in their tissues. By planting and maintaining forests, foresters can help offset greenhouse gas emissions and reduce the impacts of climate change. Additionally, sustainable forestry practices can help mitigate the effects of deforestation, one of the leading causes of global warming.

In addition to its environmental benefits, forestry contributes to the economic well-being of communities around the world. The timber industry provides jobs for millions of people, from loggers and foresters to mill workers and craftsmen. Forest products, such as timber, pulp, and paper, are essential materials used in various industries, including construction, manufacturing, and packaging. Through sustainable forestry practices, communities can strike a balance between economic development and environmental conservation, ensuring the long-term viability of their forests.

Forestry also plays a crucial role in supporting human health and well-being. Forests provide a variety of ecosystem services that benefit people, such as clean air and water, recreational opportunities, and natural habitats for wildlife. Spending time in forests has been shown to have numerous health benefits, including reduced stress levels, improved mood, and enhanced cognitive function. As urbanization continues to rise, preserving natural areas through forestry becomes even more critical for maintaining the physical and mental health of individuals.

Furthermore, forestry is an essential tool for disaster risk reduction and adaptation to climate change. Well-managed forests can help mitigate the impacts of natural disasters, such as floods, landslides, and wildfires, by stabilizing soils, regulating water flow, and providing a barrier against extreme weather events. By incorporating forest management strategies into disaster planning and response, communities can enhance their resilience to environmental hazards and build a more sustainable future.

Overall, forestry is a valuable and indispensable practice that benefits society in numerous ways. From environmental conservation and climate change mitigation to economic development and human health, the contributions of forestry are vast and far-reaching. By recognizing the importance of forests and adopting sustainable forestry practices, we can ensure a healthy and prosperous future for both people and the planet.

In Conclusion

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