Reducing the land-use impact of wooden buildings with fast-growing biobased materials: A Danish case study

Rasmus Nøddegaard Hansen, Endrit Hoxha, Harpa Birgisdóttir, Francesco Pittau

This study explores the potential of the reduced demand for land and increase in biogenic CO2 storage for incorporating crop-based products in wooden buildings. It uses case studies to create a material-flow analysis of future Danish building stock with four market-implementation scenarios. Alternative biobased materials show reductions in the land requirements and improved CO2 storage, especially for single-family and multifamily houses.

This causes a decrease of 50–61 % in the use of wooded land. Danish straw can supply almost a 50 % implementation, rising to 100 % when combined with grass materials. Building designers and planners are encouraged to prioritize fast-growing biobased materials to minimize the requirements for land in wooden buildings. To achieve this, policy-makers should harmonize inclusive biobased building codes, upskill the workforce and financially support pre-approved solutions. Equally important is to investigate the cross-sectoral synergies between construction and agriculture to govern land for its enhanced environmental and social benefits.

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