Background/objectives: Agricultural systems face increasing global pressure to address sustainability challenges, particularly regarding land use and environmental protection. In Romania, where traditional diets are heavily dependent on animal-based products, optimizing land use is critical. This study investigates the potential of plant-based diets to reduce agricultural land use, examining scenarios of partial and complete replacement of animal protein with plant protein sources (soy, peas, and potatoes).
Methods: The research modeled three dietary transition scenarios-replacing 33%, 50%, and 100% of animal protein with plant-based protein-using data from the Romanian National Institute of Statistics, the FAO, and international sources. Land use was calculated for each scenario using formulas that take into account protein content and land use intensity for animal and plant protein sources. The simulations quantify the reduction in agricultural land use at the per capita and national levels.
Results: The study reveals significant land-saving potential across all scenarios. At the national level, land use reductions ranged from 84,020 hectares (33% replacement) to 1,067,443 hectares (100% replacement). High-impact products such as beef and dairy continue to dominate land use, even in partial replacement scenarios. Conversely, replacing pork and chicken proteins shows substantial savings. The findings highlight the inefficiency of animal-based protein production and the ecological benefits of transitioning to plant-based diets.
Conclusions: A dietary shift towards plant-based protein in Romania could achieve significant reductions in agricultural land use, contributing to the Sustainable Development Goals. This transition not only supports environmental conservation and resource optimization, but also provides public health benefits by reducing consumption of red and processed meat. These results provide a basis for policies to promote sustainable and nutritionally balanced food systems.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11722955 | PMC |
| http://dx.doi.org/10.3390/nu17010175 | DOI Listing |
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