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World Agricultural Production, Resource Use, and Productivity, 1961–2020

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  • Fuglie, Keith O.
  • Morgan, Stephen
  • Jelliffe, Jeremy

Abstract

Over the past six decades, the role of agriculture has undergone a vast transformation in the world economy. Agricultural output increased nearly fourfold, while the global population grew by 2.6 times, leading to a 53-percent increase in agricultural output per capita between 1961 and 2020. Real food prices declined relative to the general price level, supplying more affordable and diverse diets. Most of the growth in agricultural production was achieved by raising productivity rather than expanding resource use. There was a pronounced and sustained shift in the location of production to the Global South (developing countries), which between 1961 and 2020 increased their share of global agricultural output from 44 to 73 percent. The composition of world agricultural production, however, remained generally stable, changing slightly to include a larger share of oil crops, nonruminant livestock products, and aquaculture. Global agricultural land area increased by 8 percent to 4.76 billion hectares, or 32 percent of the world’s land area. The total number of people working on farms peaked in 2003 at just over 1 billion and then declined to 841 million by 2020, working on approximately 600 million farms. Major technological developments included the spread of Green Revolution crop genetic improvements, increased fertilizer use in the Global South, and the development of biotechnology and genetically modified crops offering pest and disease resistance. Further, aquaculture was developed as an important food source. However, by the decade of the 2010s, the pace of output and productivity growth in world agriculture slowed, food prices rose in real terms, the number of food-insecure people increased, and pressure to expand the use of natural resources to produce food intensified.

Suggested Citation

  • Fuglie, Keith O. & Morgan, Stephen & Jelliffe, Jeremy, 2024. "World Agricultural Production, Resource Use, and Productivity, 1961–2020," Economic Information Bulletin 341638, United States Department of Agriculture, Economic Research Service.
    • Handle: RePEc:ags:uersib:341638
    DOI: 10.22004/ag.econ.341638
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    as
    1. Ligon, Ethan & Sadoulet, Elisabeth, 2018. "Estimating the Relative Benefits of Agricultural Growth on the Distribution of Expenditures," World Development, Elsevier, vol. 109(C), pages 417-428.
    2. Stephan Pfaffenzeller & Paul Newbold & Anthony Rayner, 2007. "A Short Note on Updating the Grilli and Yang Commodity Price Index," The World Bank Economic Review, World Bank, vol. 21(1), pages 151-163.
    3. Thomas Reardon & C. Peter Timmer & Christopher B. Barrett & Julio Berdegué, 2003. "The Rise of Supermarkets in Africa, Asia, and Latin America," American Journal of Agricultural Economics, Agricultural and Applied Economics Association, vol. 85(5), pages 1140-1146.
    4. Scott Rozelle & Johan F.M. Swinnen, 2004. "Success and Failure of Reform: Insights from the Transition of Agriculture," Journal of Economic Literature, American Economic Association, vol. 42(2), pages 404-456, June.
    5. Courbois, Claude & Delgado, Christopher L. & Ehui, Simeon K. & Rosegrant, Mark W. & Steinfeld, Henning, 1999. "Livestock to 2020: the next food revolution," 2020 vision discussion papers 28, International Food Policy Research Institute (IFPRI).
    6. Giovanni Federico, 2005. "Introduction to Feeding the World: An Economic History of World Agriculture, 1800-2000," Introductory Chapters, in: Feeding the World: An Economic History of World Agriculture, 1800-2000, Princeton University Press.
    7. Caesar B. Cororaton & Govinda R. Timilsina, 2014. "Biofuels and Poverty," Natural Resource Management and Policy, in: Govinda R. Timilsina & David Zilberman (ed.), The Impacts of Biofuels on the Economy, Environment, and Poverty, edition 127, chapter 0, pages 79-89, Springer.
    8. Fuglie, Keith, 2015. "Accounting for growth in global agriculture," Bio-based and Applied Economics Journal, Italian Association of Agricultural and Applied Economics (AIEAA), vol. 4(3), pages 1-34, December.
    9. Judd, M Ann & Boyce, James K & Evenson, Robert E, 1986. "Investing in Agricultural Supply: The Determinants of Agricultural Research and Extension Investment," Economic Development and Cultural Change, University of Chicago Press, vol. 35(1), pages 77-113, October.
    10. Karina Winkler & Richard Fuchs & Mark Rounsevell & Martin Herold, 2021. "Global land use changes are four times greater than previously estimated," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
    11. Davis, Kristin E. & Babu, Suresh Chandra & Ragasa, Catherine, 2020. "Agricultural extension: Global status and performance in selected countries," IFPRI books, International Food Policy Research Institute (IFPRI), number 9780896293755.
    12. Matin Qaim, 2009. "The Economics of Genetically Modified Crops," Annual Review of Resource Economics, Annual Reviews, vol. 1(1), pages 665-694, September.
    13. Uwe Deichmann & Aparajita Goyal & Deepak Mishra, 2016. "Will digital technologies transform agriculture in developing countries?," Agricultural Economics, International Association of Agricultural Economists, vol. 47(S1), pages 21-33, November.
    14. Philip G. Pardey & Julian M. Alston & Connie Chan-Kang, 2013. "Public agricultural R&D over the past half century: an emerging new world order," Agricultural Economics, International Association of Agricultural Economists, vol. 44(s1), pages 103-113, November.
    15. Ivanic, Maros & Martin, Will, 2018. "Sectoral Productivity Growth and Poverty Reduction: National and Global Impacts," World Development, Elsevier, vol. 109(C), pages 429-439.
    16. Oliver T. Coomes & Bradford L. Barham & Graham K. MacDonald & Navin Ramankutty & Jean-Paul Chavas, 2019. "Leveraging total factor productivity growth for sustainable and resilient farming," Nature Sustainability, Nature, vol. 2(1), pages 22-28, January.
    17. Kislev, Yoav & Peterson, Willis, 1982. "Prices, Technology, and Farm Size," Journal of Political Economy, University of Chicago Press, vol. 90(3), pages 578-595, June.
    18. Rosamond L. Naylor & Ronald W. Hardy & Alejandro H. Buschmann & Simon R. Bush & Ling Cao & Dane H. Klinger & David C. Little & Jane Lubchenco & Sandra E. Shumway & Max Troell, 2021. "A 20-year retrospective review of global aquaculture," Nature, Nature, vol. 591(7851), pages 551-563, March.
    19. George W. Norton & Jeffrey Alwang, 2020. "Changes in Agricultural Extension and Implications for Farmer Adoption of New Practices," Applied Economic Perspectives and Policy, John Wiley & Sons, vol. 42(1), pages 8-20, March.
    20. repec:oup:apecpp:v:40:y:2018:i:3:p:421-444. is not listed on IDEAS
    21. Ramsey, Steven & Williams, Brian & Jarrell, Philip & Hubbs, Todd, 2023. "Global Demand for Fuel Ethanol Through 2030," Amber Waves:The Economics of Food, Farming, Natural Resources, and Rural America, United States Department of Agriculture, Economic Research Service, vol. 2023(Bioenergy), February.
    22. Rada, Nicholas E. & Fuglie, Keith O., 2019. "New perspectives on farm size and productivity," Food Policy, Elsevier, vol. 84(C), pages 147-152.
    23. Wilhelm Klümper & Matin Qaim, 2014. "A Meta-Analysis of the Impacts of Genetically Modified Crops," PLOS ONE, Public Library of Science, vol. 9(11), pages 1-7, November.
    24. Ariel Ortiz-Bobea & Toby R. Ault & Carlos M. Carrillo & Robert G. Chambers & David B. Lobell, 2021. "Anthropogenic climate change has slowed global agricultural productivity growth," Nature Climate Change, Nature, vol. 11(4), pages 306-312, April.
    25. Morgan, Stephen & Fuglie, Keith & Jelliffe, Jeremy, 2022. "World Agricultural Output Growth Continues to Slow, Reaching Lowest Rate in Six Decades," Amber Waves:The Economics of Food, Farming, Natural Resources, and Rural America, United States Department of Agriculture, Economic Research Service, vol. 2022, December.
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