Bio-Based Production Systems: Why Environmental Assessment Needs to Include Supporting Systems

Lindqvist, Andreas Nicolaidis; Broberg, Sarah; Tufvesson, Linda; Khalil, Sammar; Prade, Thomas

doi:10.3390/su11174678

Cited by 9 publications

(5 citation statements)

References 129 publications

(294 reference statements)

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“…This potential can be further unlocked when quantitative environmental cause and effect chains in regard to absolute sustainability assessment methods are further developed and implemented in LCSA. A sustainable bioeconomy requires that the rate of extraction does not exceed the rate of regeneration and that this regenerativity and the surrounding supporting systems are maintained (Lindqvist et al 2019). Currently under development are planetary boundary LCIAs (Ryberg et al 2018) addressing challenges of relating LCIs and LCIAs to operational definitions of planetary boundaries (Robert et al 2020).…”

Section: Discussionmentioning

confidence: 99%

“…Rather, the goal is to avoid a piecemeal approach to sustainable transformation and the capability of delivering a holistic picture on trade-offs, synergies, hotspots, significant risks, and chances as well as a fundamental understanding (Zeug et al 2020). In addition, more indicators do not necessarily lead to a better quality necessarily, but an adequate impact category coverage is of particular importance (Lindqvist et al 2019). The 109 possbile indicators are already quite much compared to most other studies and potential data availability.…”

Section: Indicator Systemmentioning

confidence: 99%

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A framework for implementing holistic and integrated life cycle sustainability assessment of regional bioeconomy

Zeug

Bezama

Thrän

2021

Int J Life Cycle Assess

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Purpose Currently, social, environmental, and economic risks and chances of bioeconomy are becoming increasingly a subject of applied sustainability assessments. Based on life cycle assessment (LCA) methodology, life cycle sustainability assessment (LCSA) aims to combine or integrate social, environmental, and economic assessments. In order to contribute to the current early stage of LCSA development, this study seeks to identify a practical framework for integrated LCSA implementation. Methods We select possible indicators from existing suitable LCA and LCSA approaches as well as from the literature, and allocate them to a sustainability concept for holistic and integrated LCSA (HILCSA), based on the Sustainable Development Goals (SDGs). In order to conduct a practical implementation of HILCSA, we choose openLCA, because it offers the best current state and most future potential for application of LCSA. Therefore, not only the capabilities of the software and databases, but also the supported methods of life cycle impact assessments (LCIA) are evaluated regarding the requirements of the indicator set and goal and scope of future case studies. Results and discussion This study presents an overview of available indicators and LCIAs for bioeconomy sustainability assessments as well as their link to the SDGs. We provide a practical framework for HILCSA of regional bioeconomy, which includes an indicator set for regional (product and territorial) bioeconomy assessment, applicable with current software and databases, LCIA methods and methods of normalization, weighting, and aggregation. The implementation of HILCSA in openLCA allows an integrative LCSA by conducting all steps in a single framework with harmonized, aggregated, and coherent results. HILCSA is capable of a sustainability assessment in terms of planetary boundaries, provisioning system and societal needs, as well as communication of results to different stakeholders. Conclusions Our framework is capable of compensating some deficits of S-LCA, E-LCA, and economic assessments by integration, and shows main advantages compared to additive LCSA. HILCSA is capable of addressing 15 out of 17 SDGs. It addresses open questions and significant problems of LCSAs in terms of goal and scope, LCI, LCIA, and interpretation. Furthermore, HILCSA is the first of its kind actually applicable in an existing software environment. Regional bioeconomy sustainability assessment is bridging scales of global and regional effects and can inform stakeholders comprehensively on various impacts, hotspots, trade-offs, and synergies of regional bioeconomy. However, significant research needs in LCIAs, software, and indicator development remain.

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Section: Discussionmentioning

confidence: 99%

Section: Indicator Systemmentioning

confidence: 99%

A framework for implementing holistic and integrated life cycle sustainability assessment of regional bioeconomy

Zeug

Bezama

Thrän

2021

Int J Life Cycle Assess

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“…Ecosystem services (ES) have also been integrated in LCA studies because of their importance for the sustainable circular bioeconomy not only in terms of ecological sustainability and the intrinsic value of biodiversity, but also in ensuring high productivity, maintaining regenerative capacity and ensuring the resilience of biobased production systems [9,[48][49][50][51][52].…”

Section: Land Use and Biomass Production (A) Competition For Land And Biomassmentioning

confidence: 99%

“…Similarly, the integration of multiple environmental impacts is needed to avoid burden shifting and different LCA modelling principles can facilitate decision-making in different contexts and scales (e.g. consequential or attributional LCA) [8,9,[27][28][29]32,61].…”

Section: Conclusion (A) Resolving Future Development Challengesmentioning

confidence: 99%

“…However, environmental LCA also present some inherent limitations related to complex modelling, blurred or inconsistent boundary setting, short-time horizons during which the outputs are considered to be valid, budget, data availability, trends in politics, research, lack of well-established impact models and selective or partial application of LCA methodology. Any or all of these limitations can be a reason for controversy and rejection of LCA results [8,9]. These are particularly important for the assessment of biobased systems that are often complex combinations of technologies and practices over geographically dispersed and long distances and with wide and uncertain sets of indicators [10].…”

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confidence: 99%

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Life cycle assessment (LCA): informing the development of a sustainable circular bioeconomy?

Sevigné‐Itoiz

Mwabonje

Panoutsou

et al. 2021

Phil. Trans. R. Soc. A.

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The role of life cycle assessment (LCA) in informing the development of a sustainable and circular bioeconomy is discussed. We analyse the critical challenges remaining in using LCA and propose improvements needed to resolve future development challenges. Biobased systems are often complex combinations of technologies and practices that are geographically dispersed over long distances and with heterogeneous and uncertain sets of indicators and impacts. Recent studies have provided methodological suggestions on how LCA can be improved for evaluating the sustainability of biobased systems with a new focus on emerging systems, helping to identify environmental and social opportunities prior to large R&D investments. However, accessing economies of scale and improved conversion efficiencies while maintaining compatibility across broad ranges of sustainability indicators and public acceptability remain key challenges for the bioeconomy. LCA can inform, but not by itself resolve this complex dimension of sustainability. Future policy interventions that aim to promote the bioeconomy and support strategic value chains will benefit from the systematic use of LCA. However, the LCA community needs to develop the mechanisms and tools needed to generate agreement and coordinate the standards and incentives that will underpin a successful biobased transition. Systematic stakeholder engagement and the use of multidisciplinary analysis in combination with LCA are essential components of emergent LCA methods. This article is part of the theme issue ‘Bio-derived and bioinspired sustainable advanced materials for emerging technologies (part 1)’.

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Life Cycle Sustainability Assessment for Sustainable Bioeconomy, Societal-Ecological Transformation and Beyond

Zeug

Bezama

Thrän

2023

Sustainable Production, Life Cycle Engineering and Management

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Decoupling the fulfillment of societal needs from an ever-increasing production of goods together with decoupling this sufficient production from negative environmental, social and economic impacts, is and will be the major challenge of our economic systems to avoid an even deeper socio-ecological crisis. The ascending bioeconomy practices have to be assessed with regard to their potential to provide a good life for all within planetary boundaries Addressing this, life cycle sustainability assessment (LCSA) is necessary to integrate social, environmental and economic sustainability assessments. However, LCSAs are still in their infancy and a series of practical problems can be traced back to a lack of sound sustainability concepts and applied political economy/ecology. We reflect on social, ecological and economic sustainability, our societal relations to nature and a necessary societal-ecological transformation in order to structure a systemic framework for holistic and integrated LCSA (HILCSA). This framework allows an implementation in openLCA, conducting the inventory and impact assessment with harmonized databases and more coherent results compared to previous approaches. For further development we identify questions of political economy/ecology as significant. The idea of a bioeconomy as well as systemic assessments is a question of the perception of ends and means of a societal transformation.

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Bio-Based Production Systems: Why Environmental Assessment Needs to Include Supporting Systems

Cited by 9 publications

References 129 publications

A framework for implementing holistic and integrated life cycle sustainability assessment of regional bioeconomy

A framework for implementing holistic and integrated life cycle sustainability assessment of regional bioeconomy

Life cycle assessment (LCA): informing the development of a sustainable circular bioeconomy?

Life Cycle Sustainability Assessment for Sustainable Bioeconomy, Societal-Ecological Transformation and Beyond

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