CARBON ACCOUNTING IN THE FOREST-BASED INDUSTRY – MAXIMISING THE MITIGATION POTENTIAL OF WOOD PRODUCTS IN SLOVENIA

The MAXIWOOD project aimed to enhance carbon accounting practices in the forest-based industry (FBI) of Slovenia, focusing on maximizing the mitigation potential of wood products.
The project successfully defined methodologies for carbon sequestration in harvested wood products (HWPs) and comparative analysis using Life Cycle Assessment (LCA) frameworks. Notable achievements include the completion of a longitudinal study of material flow of wood products in Slovenia. The analysis of existing carbon accounting methodologies revealed a need for enhanced data quality and better-defined methodologies. Challenges with data acquisition related to HWPs led to the development of substantial insights into Slovenia's synthesized wood product flows, documenting an increase in the harvesting and processing of secondary wood products. This work effectively highlighted gaps in current practices and pointed toward substantial potential for improving domestic production systems to better utilize Slovenian resources. Furthermore, LCA analysis on bark-derived products and furniture items was also conducted in the framework of this project. The LCA case study on tree bark products highlighting potential substitutes for traditional materials. Additionally, workshops with industry stakeholders facilitated dialogue around carbon flow challenges in the FBI, identifying key challenges and future research directions. The LCA case study was initiated but not completed, however, a student whom the fellow supervised will continue this work.
The project’s socio-economic impact could significantly influence policy decisions aiming at sustainable forest management, carbon storage optimization, and overall ecosystem resilience. The results contribute to a deeper understanding of wood’s role in carbon sequestration and underscore the importance of fostering collaborations among researchers, policymakers, and industry professionals to drive effective environmental governance.

A key aspect of this research was the development of methodologies for carbon sequestration in harvested wood products (HWPs), which facilitated the identification of data gaps and opportunities for enhancing environmental performance in wood product manufacturing.

Overview of Carbon Accounting Methodologies: An extensive review was conducted to compare existing carbon flow methods used internationally for the FBI, including IPCC carbon flow accounting, material flow analysis, and Life Cycle Assessment (LCA). This work allowed for a better understanding of current practices and revealed the need for improved methodologies to accurately measure carbon storage and emissions associated with wood products.
Data Management Plan (DMP): A comprehensive DMP was completed and published within the first six months of the project, establishing a framework for data handling and ensuring compliance with project objectives.
Methodology for HWPs Sequestration: The project successfully defined a methodology for HWP carbon sequestration and future projections. However, additional data acquisition efforts were necessary, particularly in obtaining robust historical data from the Slovenian Office of Statistics, which delayed further application of the methodology.
Case Studies Utilizing LCA: Although LCA analyses were initially planned for implementation later in the project, one case study focusing on the environmental performance of tree bark as a source for high-value compounds such as polyphenols and suberinic acid was conducted earlier than scheduled. Results indicated that while climate impacts improved with the use of bio-based alternatives for fiberboards, other environmental categories did not show significant improvement.
Workshops with Stakeholders: A successful workshop was conducted with industry stakeholders, aimed at gathering insights into the challenges faced by the FBI and aligning project goals with industry needs. This workshop laid the groundwork for future surveys intended to capture stakeholder perspectives on forest-wood industry sustainability and carbon storage practices.
Publications and Dissemination: The project generated several publications and conference presentations, including topics around carbon accounting methodologies, environmental impacts of wood products, and identifying policy implications for the industry. The fellow's participation in various conferences and workshops ensured that results were disseminated to both academic and industry audiences, fostering engagement and dialogue.

The MAXIWOOD project has made significant advancements beyond the current state of the art in carbon accounting methodologies within the forest-based industry (FBI). The project has established a framework for evaluating carbon sequestration in harvested wood products (HWPs). This integrated approach addresses the common simplifications and data gaps, allowing for more accurate assessments of long-term carbon storage and emissions associated with wood products.

Key expected results include the publication of two peer-reviewed journal articles detailing the findings of the MFA and the LCA analyses. Furthermore, the developed survey based on the workshop with industry and policy stakeholder will also help to bridge the gap between research findings and practical applications in policymaking. Additionally, ongoing dissemination activities will further propagate the project's insights to a broader audience, including academia, industry practitioners, policy influencers and the general public.

MAXIWOOD project provides valuable evidence for stakeholders to make informed decisions. This analysis underscores the potential benefits of wood products in mitigating climate change while offering economic opportunities through enhanced product innovation and domestic resource utilization.
The potential impacts of the MAXIWOOD project are multifaceted, encompassing environmental, economic, and societal dimensions. The project aims to enhance the understanding of wood as a sustainable resource in carbon sequestration, supporting Slovenia's commitments to reduce greenhouse gas emissions and combat climate change. By promoting the utilization of harvested wood in long-lasting products rather than short-lived applications, the project contributes to a circular economy, fostering sustainable practices throughout the forest sector.
Economically, the insights generated by the project are expected to drive competitiveness within the Slovenian forest industry as more efficient and environmentally friendly practices are adopted. There are significant opportunities for innovation in product development, particularly in bio-based alternatives to conventional materials, which can improve market opportunities for domestic producers.
The wider societal implications include enhancing public awareness regarding the sustainability of wood products and their role in climate mitigation efforts. Engaging with stakeholders through workshops and knowledge transfer initiatives contributes to building a community of informed individuals who can advocate for sustainable forestry practices. Ultimately, by bridging the gap between research and application, the MAXIWOOD project aims to create a solid foundation for policy development that champions sustainability, benefiting both the environment and society as a whole.