Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment

Marten  Koch; Sebastian Spierling; Venkateshwaran Venkatachalam; Hans-Josef Endres; Mikołaj Owsianiak; Eldbjørg Blikra Vea; Christina Daffert; Markus Neureiter; Ines Fritz

doi:10.1016/j.scitotenv.2022.160991

Details

Original language	English
Article number	160991
Journal	Science of the Total Environment
Volume	863
Early online date	16 Dec 2022
Publication status	Published - 10 Mar 2023

Abstract

Polyhydroxyalkanoates (PHA) are bio-based and biodegradable alternatives to conventional plastic types and have the potential to reduce the environmental impacts along the life cycle. In comparison to already established production routes for PHA (heterotrophic production) based on renewable feedstock like glucose (first generation feedstock), novel production routes, such as the photoautotrophic production of PHA based on CO₂ as feedstock (third generation feedstock) could offer new perspectives with regard to the reduction in the environmental impacts. To quantify the environmental impacts of PHA produced via photoautotrophic and heterotrophic production pathways, life cycle assessment (LCA) methodology based on ISO 14040/44 was applied, thus conducting a first of its kind comparative study for PHA based on third generation feedstock. The results show that the photoautotrophic production of PHA has advantages in comparison to heterotrophic PHA based on glucose originating from corn as feedstock in all the assessed environmental impact categories, thus showing the environmental potential of novel production routes for bioplastics. Additionally, the results of the LCA show that the chloroform-based extraction method, commonly used in the downstream processes of both the technologies, has a significant contribution of environmental impacts in the production of PHA. Therefore, the reduction of chloroform loss during the extraction process can reduce its environmental impact. Our results indicate that PHA production from CO₂ using the photoautotrophic production route is a promising technology with regard to the environmental impacts when compared to the heterotrophic production based on glucose feedstock.

Keywords

Bioplastic, Life cycle assessment, Polyhydroxyalkanoate, Sustainability

ASJC Scopus subject areas

Environmental Science(all)
Environmental Engineering
Environmental Science(all)
Environmental Chemistry
Environmental Science(all)
Waste Management and Disposal
Environmental Science(all)
Pollution

Sustainable Development Goals

Cite this

Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment. / Koch, Marten ; Spierling, Sebastian; Venkatachalam, Venkateshwaran et al.
In: Science of the Total Environment, Vol. 863, 160991, 10.03.2023.

Research output: Contribution to journal › Article › Research › peer review

Koch, M, Spierling, S, Venkatachalam, V, Endres, H-J, Owsianiak, M, Vea, EB, Daffert, C, Neureiter, M & Fritz, I 2023, 'Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment', Science of the Total Environment, vol. 863, 160991. https://doi.org/10.1016/j.scitotenv.2022.160991

Koch, M., Spierling, S., Venkatachalam, V., Endres, H.-J., Owsianiak, M., Vea, E. B., Daffert, C., Neureiter, M., & Fritz, I. (2023). Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment. Science of the Total Environment, 863, Article 160991. https://doi.org/10.1016/j.scitotenv.2022.160991

Koch M, Spierling S, Venkatachalam V, Endres HJ, Owsianiak M, Vea EB et al. Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment. Science of the Total Environment. 2023 Mar 10;863:160991. Epub 2022 Dec 16. doi: 10.1016/j.scitotenv.2022.160991

Koch, Marten ; Spierling, Sebastian ; Venkatachalam, Venkateshwaran et al. / Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment. In: Science of the Total Environment. 2023 ; Vol. 863.

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abstract = "Polyhydroxyalkanoates (PHA) are bio-based and biodegradable alternatives to conventional plastic types and have the potential to reduce the environmental impacts along the life cycle. In comparison to already established production routes for PHA (heterotrophic production) based on renewable feedstock like glucose (first generation feedstock), novel production routes, such as the photoautotrophic production of PHA based on CO2 as feedstock (third generation feedstock) could offer new perspectives with regard to the reduction in the environmental impacts. To quantify the environmental impacts of PHA produced via photoautotrophic and heterotrophic production pathways, life cycle assessment (LCA) methodology based on ISO 14040/44 was applied, thus conducting a first of its kind comparative study for PHA based on third generation feedstock. The results show that the photoautotrophic production of PHA has advantages in comparison to heterotrophic PHA based on glucose originating from corn as feedstock in all the assessed environmental impact categories, thus showing the environmental potential of novel production routes for bioplastics. Additionally, the results of the LCA show that the chloroform-based extraction method, commonly used in the downstream processes of both the technologies, has a significant contribution of environmental impacts in the production of PHA. Therefore, the reduction of chloroform loss during the extraction process can reduce its environmental impact. Our results indicate that PHA production from CO2 using the photoautotrophic production route is a promising technology with regard to the environmental impacts when compared to the heterotrophic production based on glucose feedstock.",

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AU - Koch, Marten

AU - Spierling, Sebastian

AU - Venkatachalam, Venkateshwaran

AU - Endres, Hans-Josef

AU - Owsianiak, Mikołaj

AU - Vea, Eldbjørg Blikra

AU - Daffert, Christina

AU - Neureiter, Markus

AU - Fritz, Ines

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Research@Leibniz University

Comparative assessment of environmental impacts of 1st generation (corn feedstock) and 3rd generation (carbon dioxide feedstock) PHA production pathways using life cycle assessment

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