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A Review of the Environmental Impacts of Biobased Materials

Author

Listed:
  • Martin Weiss
  • Juliane Haufe
  • Michael Carus
  • Miguel Brandão
  • Stefan Bringezu
  • Barbara Hermann
  • Martin K. Patel

Abstract

Concerns over climate change and the security of industrial feedstock supplies have been opening a growing market for biobased materials. This development, however, also presents a challenge to scientists, policy makers, and industry because the production of biobased materials requires land and is typically associated with adverse environmental effects. This article addresses the environmental impacts of biobased materials in a meta‐analysis of 44 life cycle assessment (LCA) studies. The reviewed literature suggests that one metric ton (t) of biobased materials saves, relative to conventional materials, 55 ± 34 gigajoules of primary energy and 3 ± 1 t carbon dioxide equivalents of greenhouse gases. However, biobased materials may increase eutrophication by 5 ± 7 kilograms (kg) phosphate equivalents/t and stratospheric ozone depletion by 1.9 ± 1.8 kg nitrous oxide equivalents/t. Our findings are inconclusive with regard to acidification (savings of 2 ± 20 kg sulfur dioxide equivalents/t) and photochemical ozone formation (savings of 0.3 ± 2.4 kg ethene equivalents/t). The variability in the results of life cycle assessment studies highlights the difficulties in drawing general conclusions. Still, common to most biobased materials are impacts caused by the application of fertilizers and pesticides during industrial biomass cultivation. Additional land use impacts, such as the potential loss of biodiversity, soil carbon depletion, soil erosion, deforestation, as well as greenhouse gas emissions from indirect land use change are not quantified in this review. Clearly these impacts should be considered when evaluating the environmental performance of biobased materials.

Suggested Citation

  • Martin Weiss & Juliane Haufe & Michael Carus & Miguel Brandão & Stefan Bringezu & Barbara Hermann & Martin K. Patel, 2012. "A Review of the Environmental Impacts of Biobased Materials," Journal of Industrial Ecology, Yale University, vol. 16(s1), pages 169-181, April.
    • Handle: RePEc:bla:inecol:v:16:y:2012:i:s1:p:s169-s181
    DOI: 10.1111/j.1530-9290.2012.00468.x
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    1. Meeks, Diana & Hottle, Troy & Bilec, M.M. & Landis, A.E., 2015. "Compostable biopolymer use in the real world: Stakeholder interviews to better understand the motivations and realities of use and disposal in the US," Resources, Conservation & Recycling, Elsevier, vol. 105(PA), pages 134-142.
    2. Anja Hansen & Jörn Budde & Annette Prochnow, 2016. "Resource Usage Strategies and Trade-Offs between Cropland Demand, Fossil Fuel Consumption, and Greenhouse Gas Emissions—Building Insulation as an Example," Sustainability, MDPI, vol. 8(7), pages 1-24, June.
    3. Naiara Cañado & Erlantz Lizundia & Ortzi Akizu‐Gardoki & Rikardo Minguez & Blanca Lekube & Alex Arrillaga & Maider Iturrondobeitia, 2022. "3D printing to enable the reuse of marine plastic waste with reduced environmental impacts," Journal of Industrial Ecology, Yale University, vol. 26(6), pages 2092-2107, December.
    4. Amy Fitzgerald & Will Proud & Ali Kandemir & Richard J. Murphy & David A. Jesson & Richard S. Trask & Ian Hamerton & Marco L. Longana, 2021. "A Life Cycle Engineering Perspective on Biocomposites as a Solution for a Sustainable Recovery," Sustainability, MDPI, vol. 13(3), pages 1-25, January.
    5. Gerssen-Gondelach, S.J. & Saygin, D. & Wicke, B. & Patel, M.K. & Faaij, A.P.C., 2014. "Competing uses of biomass: Assessment and comparison of the performance of bio-based heat, power, fuels and materials," Renewable and Sustainable Energy Reviews, Elsevier, vol. 40(C), pages 964-998.
    6. Pawelzik, P. & Carus, M. & Hotchkiss, J. & Narayan, R. & Selke, S. & Wellisch, M. & Weiss, M. & Wicke, B. & Patel, M.K., 2013. "Critical aspects in the life cycle assessment (LCA) of bio-based materials – Reviewing methodologies and deriving recommendations," Resources, Conservation & Recycling, Elsevier, vol. 73(C), pages 211-228.
    7. Sarah Schmidt & David Laner, 2023. "The environmental performance of plastic packaging waste management in Germany: Current and future key factors," Journal of Industrial Ecology, Yale University, vol. 27(6), pages 1447-1460, December.
    8. Raphael Asada & Tamás Krisztin & Fulvio di Fulvio & Florian Kraxner & Tobias Stern, 2020. "Bioeconomic transition?: Projecting consumption‐based biomass and fossil material flows to 2050," Journal of Industrial Ecology, Yale University, vol. 24(5), pages 1059-1073, October.
    9. Saygin, D. & Gielen, D.J. & Draeck, M. & Worrell, E. & Patel, M.K., 2014. "Assessment of the technical and economic potentials of biomass use for the production of steam, chemicals and polymers," Renewable and Sustainable Energy Reviews, Elsevier, vol. 40(C), pages 1153-1167.
    10. Hottle, Troy A. & Bilec, Melissa M. & Landis, Amy E., 2017. "Biopolymer production and end of life comparisons using life cycle assessment," Resources, Conservation & Recycling, Elsevier, vol. 122(C), pages 295-306.
    11. Albers, Ariane & Collet, Pierre & Lorne, Daphné & Benoist, Anthony & Hélias, Arnaud, 2019. "Coupling partial-equilibrium and dynamic biogenic carbon models to assess future transport scenarios in France," Applied Energy, Elsevier, vol. 239(C), pages 316-330.
    12. Korhonen, Jouni & Honkasalo, Antero & Seppälä, Jyri, 2018. "Circular Economy: The Concept and its Limitations," Ecological Economics, Elsevier, vol. 143(C), pages 37-46.
    13. Broeren, Martijn L.M. & Kuling, Lody & Worrell, Ernst & Shen, Li, 2017. "Environmental impact assessment of six starch plastics focusing on wastewater-derived starch and additives," Resources, Conservation & Recycling, Elsevier, vol. 127(C), pages 246-255.
    14. Kevin Joseph Dillman & Áróra Árnadóttir & Jukka Heinonen & Michał Czepkiewicz & Brynhildur Davíðsdóttir, 2020. "Review and Meta-Analysis of EVs: Embodied Emissions and Environmental Breakeven," Sustainability, MDPI, vol. 12(22), pages 1-28, November.
    15. Pannicke, Nadine & Gawe, Erik & Hagemann, Nina & Purkus, Alexandra & Strunz, Sebastian, 2015. "The Political Economy of Fostering a Wood-based Bioeconomy in Germany," German Journal of Agricultural Economics, Humboldt-Universitaet zu Berlin, Department for Agricultural Economics, vol. 64(04), December.
    16. Johann Wackerbauer & Tilmann Rave & Lara Dammer & Stephan Piotrowski & Wiebke Jander & Philipp Grundmann & Sven Wydra & Ulrich Schmoch, 2019. "Determination of Economic Indicators and Indicators for Monitoring the Progress of the Bio-Economy," ifo Forschungsberichte, ifo Institute - Leibniz Institute for Economic Research at the University of Munich, number 104.
    17. Beike Sumfleth & Stefan Majer & Daniela Thrän, 2020. "Recent Developments in Low iLUC Policies and Certification in the EU Biobased Economy," Sustainability, MDPI, vol. 12(19), pages 1-34, October.

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