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Economics Of Sequestering Carbon In The U.S. Agricultural Sector

Author

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  • Lewandrowski, Jan
  • Peters, Mark
  • Jones, Carol Adaire
  • House, Robert M.
  • Sperow, Mark
  • Eve, Marlen
  • Paustian, Keith H.

Abstract

Atmospheric concentrations of greenhouse gases can be reduced by withdrawing carbon from the atmosphere and sequestering it in soils and biomass. This report analyzes the performance of alternative incentive designs and payment levels if farmers were paid to adopt land uses and management practices that raise soil carbon levels. At payment levels below $10 per metric ton for permanently sequestered carbon, analysis suggests landowners would find it more cost effective to adopt changes in rotations and tillage practices. At higher payment levels, afforestation dominates sequestration activities, mostly through conversion of pastureland. Across payment levels, the economic potential to sequester carbon is much lower than the technical potential reported in soil science studies. The most cost-effective payment design adjusts payment levels to account both for the length of time farmers are willing to commit to sequestration activities and for net sequestration. A 50-percent cost-share for cropland conversion to forestry or grasslands would increase sequestration at low carbon payment levels but not at high payment levels.

Suggested Citation

  • Lewandrowski, Jan & Peters, Mark & Jones, Carol Adaire & House, Robert M. & Sperow, Mark & Eve, Marlen & Paustian, Keith H., 2004. "Economics Of Sequestering Carbon In The U.S. Agricultural Sector," Technical Bulletins 33569, United States Department of Agriculture, Economic Research Service.
    • Handle: RePEc:ags:uerstb:33569
    DOI: 10.22004/ag.econ.33569
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    Cited by:

    1. van Kooten, G. Cornelis & Sohngen, Brent, 2007. "Economics of Forest Ecosystem Carbon Sinks: A Review," International Review of Environmental and Resource Economics, now publishers, vol. 1(3), pages 237-269, September.
    2. Brown, Tristan R. & Thilakaratne, Rajeeva & Brown, Robert C. & Hu, Guiping, 2013. "Regional differences in the economic feasibility of advanced biorefineries: Fast pyrolysis and hydroprocessing," Energy Policy, Elsevier, vol. 57(C), pages 234-243.
    3. Tas Thamo & David J. Pannell & Marit E. Kragt & Michael J. Robertson & Maksym Polyakov, 2017. "Dynamics and the economics of carbon sequestration: common oversights and their implications," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 22(7), pages 1095-1111, October.
    4. Majeed, Fahd & Khanna, Madhu & Miao, Ruiqing & Blanc, Elena & Hudiburg, Tara & DeLucia, Evan, 2020. "Designing payments for GHG mitigation to induce low carbon bioenergy production," 2020 Annual Meeting, July 26-28, Kansas City, Missouri 304394, Agricultural and Applied Economics Association.
    5. G. Cornelis van Kooten, 2004. "Economics of Forest and Agricultural Carbon Sinks," Working Papers 2004-11, University of Victoria, Department of Economics, Resource Economics and Policy Analysis Research Group.
    6. Monge, Juan J. & Bryant, Henry L. & Gan, Jianbang & Richardson, James W., 2016. "Land use and general equilibrium implications of a forest-based carbon sequestration policy in the United States," Ecological Economics, Elsevier, vol. 127(C), pages 102-120.
    7. Yong Jiang & Won W. Koo, 2013. "Estimating regional agricultural supply of greenhouse gas abatements by land-based biological carbon sequestration: a Bayesian sampling-based simulation approach," Journal of Environmental Economics and Policy, Taylor & Francis Journals, vol. 2(3), pages 266-287, November.
    8. Carlo Giupponi & Francesco Bosello & Andrea Povellato, 2007. "A Review of Recent Studies on Cost Effectiveness of GHG Mitigation Measures in the European Agro-Forestry Sector," Working Papers 2007.14, Fondazione Eni Enrico Mattei.
    9. Zeng Tang & Zhibiao Nan, 2013. "The potential of cropland soil carbon sequestration in the Loess Plateau, China," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 18(7), pages 889-902, October.
    10. Thakur Upadhyay & Birger Solberg & Prem Sankhayan & Chander Shahi, 2013. "Land-use changes, forest/soil conditions and carbon sequestration dynamics: A bio-economic model at watershed level in Nepal," Journal of Bioeconomics, Springer, vol. 15(2), pages 135-170, July.
    11. Szulczyk, Kenneth R. & McCarl, Bruce A., 2010. "Market penetration of biodiesel," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(8), pages 2426-2433, October.
    12. Pablo Benítez & G. Cornelis van Kooten, 2005. "Carbon Sinks and Reservoirs: The Value of Permanence and Role of Discounting," Working Papers 2005-10, University of Victoria, Department of Economics, Resource Economics and Policy Analysis Research Group.
    13. Lewandrowski, Jan & Kim, C.S. & Aillery, Marcel, 2014. "Carbon sequestration through afforestation under uncertainty," Forest Policy and Economics, Elsevier, vol. 38(C), pages 90-96.
    14. Mark Sperow, 2019. "Marginal cost to increase soil organic carbon using no-till on U.S. cropland," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 24(1), pages 93-112, January.
    15. van Kooten, G. Cornelis & Laaksonen-Craig, Susanna & Wang, Yichuan, 2007. "Costs of Creating Carbon Offset Credits via Forestry Activities: A Meta-Regression Analysis," Working Papers 37039, University of Victoria, Resource Economics and Policy.
    16. Kim, Man-Keun & Peralta, Denis & McCarl, Bruce A., 2014. "Land-based greenhouse gas emission offset and leakage discounting," Ecological Economics, Elsevier, vol. 105(C), pages 265-273.
    17. Seong-Hoon Cho & Bijay P. Sharma, 2020. "Optimal spatial budget distribution of forest carbon payments that balances the returns and risks associated with conservation costs," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 22(8), pages 7239-7267, December.
    18. Gascoigne, William R. & Hoag, Dana & Koontz, Lynne & Tangen, Brian A. & Shaffer, Terry L. & Gleason, Robert A., 2011. "Valuing ecosystem and economic services across land-use scenarios in the Prairie Pothole Region of the Dakotas, USA," Ecological Economics, Elsevier, vol. 70(10), pages 1715-1725, August.
    19. Lyubov Kurkalova & Catherine Kling & Jinhua Zhao, 2004. "Value of agricultural non-point source pollution measurement technology: assessment from a policy perspective," Applied Economics, Taylor & Francis Journals, vol. 36(20), pages 2287-2298.
    20. Jones, Carol Adaire & Nickerson, Cynthia J. & Heisey, Paul W., 2012. "New Uses of Old Tools: An Assessment of Current and Potential Agricultural Greenhouse Gas Mitigation with Sector-based Policies," 2012 Annual Meeting, August 12-14, 2012, Seattle, Washington 124735, Agricultural and Applied Economics Association.

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    Keywords

    Environmental Economics and Policy;

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