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Impacts of soil carbon sequestration on life cycle greenhouse gas emissions in Midwestern USA beef finishing systems

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  • Stanley, Paige L.
  • Rowntree, Jason E.
  • Beede, David K.
  • DeLonge, Marcia S.
  • Hamm, Michael W.

Abstract

Beef cattle have been identified as the largest livestock-sector contributor to greenhouse gas (GHG) emissions. Using life cycle analysis (LCA), several studies have concluded that grass-finished beef systems have greater GHG intensities than feedlot-finished (FL) beef systems. These studies evaluated only one grazing management system – continuous grazing – and assumed steady-state soil carbon (C), to model the grass-finishing environmental impact. However, by managing for more optimal forage growth and recovery, adaptive multi-paddock (AMP) grazing can improve animal and forage productivity, potentially sequestering more soil organic carbon (SOC) than continuous grazing. To examine impacts of AMP grazing and related SOC sequestration on net GHG emissions, a comparative LCA was performed of two different beef finishing systems in the Upper Midwest, USA: AMP grazing and FL. We used on-farm data collected from the Michigan State University Lake City AgBioResearch Center for AMP grazing. Impact scope included GHG emissions from enteric methane, feed production and mineral supplement manufacture, manure, and on-farm energy use and transportation, as well as the potential C sink arising from SOC sequestration. Across-farm SOC data showed a 4-year C sequestration rate of 3.59 Mg C ha−1 yr−1 in AMP grazed pastures. After including SOC in the GHG footprint estimates, finishing emissions from the AMP system were reduced from 9.62 to −6.65 kg CO2-e kg carcass weight (CW)−1, whereas FL emissions increased slightly from 6.09 to 6.12 kg CO2-e kg CW−1 due to soil erosion. This indicates that AMP grazing has the potential to offset GHG emissions through soil C sequestration, and therefore the finishing phase could be a net C sink. However, FL production required only half as much land as AMP grazing. While the SOC sequestration rates measured here were relatively high, lower rates would still reduce the AMP emissions relative to the FL emissions. This research suggests that AMP grazing can contribute to climate change mitigation through SOC sequestration and challenges existing conclusions that only feedlot-intensification reduces the overall beef GHG footprint through greater productivity.

Suggested Citation

  • Stanley, Paige L. & Rowntree, Jason E. & Beede, David K. & DeLonge, Marcia S. & Hamm, Michael W., 2018. "Impacts of soil carbon sequestration on life cycle greenhouse gas emissions in Midwestern USA beef finishing systems," Agricultural Systems, Elsevier, vol. 162(C), pages 249-258.
    • Handle: RePEc:eee:agisys:v:162:y:2018:i:c:p:249-258
    DOI: 10.1016/j.agsy.2018.02.003
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    1. Beauchemin, Karen A. & Henry Janzen, H. & Little, Shannan M. & McAllister, Tim A. & McGinn, Sean M., 2010. "Life cycle assessment of greenhouse gas emissions from beef production in western Canada: A case study," Agricultural Systems, Elsevier, vol. 103(6), pages 371-379, July.
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    1. Clifford, McKenna E. & McKendree, Melissa G.S. & Hodbod, Jennifer & Swanson, Janice C., 2020. "Adaptive Multi-Paddock Grazing: Cattle Producer Survey Results," Staff Paper Series 307453, Michigan State University, Department of Agricultural, Food, and Resource Economics.
    2. Jason A. Hubbart & Nathan Blake & Ida Holásková & Domingo Mata Padrino & Matthew Walker & Matthew Wilson, 2023. "Challenges in Sustainable Beef Cattle Production: A Subset of Needed Advancements," Challenges, MDPI, vol. 14(1), pages 1-15, February.
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    9. McGee, M. & Lenehan, C. & Crosson, P. & O'Riordan, E.G. & Kelly, A.K. & Moran, L. & Moloney, A.P., 2022. "Performance, meat quality, profitability, and greenhouse gas emissions of suckler bulls from pasture-based compared to an indoor high-concentrate weanling-to-beef finishing system," Agricultural Systems, Elsevier, vol. 198(C).
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    14. Ortiz, C. & García-Luna, S. & Carro, A. & Chacartegui, R. & Pérez-Maqueda, L., 2023. "Negative emissions power plant based on flexible calcium-looping process integrated with renewables and methane production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 185(C).
    15. Thorn, Alexandra M. & Baker, Michael J. & Peters, Christian J., 2021. "Estimating biological capacity for grass-finished ruminant meat production in New England and New York," Agricultural Systems, Elsevier, vol. 189(C).
    16. Amber Campbell & Terrie A. Becerra & Gerad Middendorf & Peter Tomlinson, 2019. "Climate change beliefs, concerns, and attitudes of beef cattle producers in the Southern Great Plains," Climatic Change, Springer, vol. 152(1), pages 35-46, January.
    17. Cécile M. Godde & Imke J. M. Boer & Erasmus zu Ermgassen & Mario Herrero & Corina E. Middelaar & Adrian Muller & Elin Röös & Christian Schader & Pete Smith & Hannah H. E. Zanten & Tara Garnett, 2020. "Soil carbon sequestration in grazing systems: managing expectations," Climatic Change, Springer, vol. 161(3), pages 385-391, August.
    18. Fabiellen C. Pereira & Stuart Charters & Carol M. S. Smith & Thomas M. R. Maxwell & Pablo Gregorini, 2023. "A Geospatial Modelling Approach to Assess the Capability of High-Country Stations in Delivering Ecosystem Services," Land, MDPI, vol. 12(6), pages 1-18, June.
    19. Etumnu, Chinoso E. & Wang, Tong & Kreuter, Urs & Davis, Christopher & Cheye, Stephen, 2022. "Beef Production and Climate Change," 2022 Annual Meeting, July 31-August 2, Anaheim, California 323980, Agricultural and Applied Economics Association.
    20. Tran, Duy X. & Pearson, Diane & Palmer, Alan & Gray, David & Lowry, John & Dominati, Estelle J., 2022. "A comprehensive spatially-explicit analysis of agricultural landscape multifunctionality using a New Zealand hill country farm case study," Agricultural Systems, Elsevier, vol. 203(C).
    21. Yue Wang & Imke J. M. Boer & U. Martin Persson & Raimon Ripoll-Bosch & Christel Cederberg & Pierre J. Gerber & Pete Smith & Corina E. Middelaar, 2023. "Risk to rely on soil carbon sequestration to offset global ruminant emissions," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    22. Lim, Kar Ho & Nayga, Rodolfo M., 2021. "Plant-based Meat: a competitor to Organic and Grass-fed," 2021 Annual Meeting, August 1-3, Austin, Texas 313866, Agricultural and Applied Economics Association.
    23. Ren, Yongwang & Lambert, Dayton M. & Clark, Christopher D. & Boyer, Christopher N. & Griffith, Andre P., 2021. "Adoption of Warm Season Grasses by Beef Cattle Producers in the Fescue Belt," Journal of Agricultural and Resource Economics, Western Agricultural Economics Association, vol. 47(1), January.

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