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- Title
Biochar and Its Potential to Deliver Negative Emissions and Better Soil Quality in Europe.
- Authors
Tisserant, Alexandre; Hu, Xiangping; Liu, Qi; Xie, Zubin; Zhao, Wenwu; Cherubini, Francesco
- Abstract
Negative emissions are essential to limit global warming, but their large‐scale deployment rises sustainability concerns. At the same time, agricultural soils are under increasing threat of degradation, as measured by losses in soil organic matter, water holding capacity, and nutrient retention, with increasing negative effects on plant productivity. Biochar from biomass residues is a technically mature option that does not compete for land and can typically restore key functions of degraded soils while delivering negative emissions. However, quantitative estimates of its potentials in Europe and a detailed spatially‐explicit analysis of the co‐benefits and trade‐offs for agricultural land are unclear. Here, we estimate an annual negative emission potential of biochar from forest and crop residues available in Europe from 1.7% to 3.9% of 2021s European greenhouse gas emissions (15.2%–35% of the agricultural emissions), depending on residue potentials and biochar scenarios. At the same time, biochar application to cropland increases water holding capacity (+6.5%‐9%), crop production (+7.1%‐8.4%), NH3 volatilization (+21.7%‐24.2%), and reduces soil N2O emissions (−13.7%–34.7%) and nitrogen leaching (−17.5%–22.7%). There are spatially heterogeneous trade‐offs for some soil effects (ammonia volatilization and yields) and air pollution (mainly due to emissions from biochar systems). Biochar offers synergistic solutions that co‐deliver across different sustainability challenges, but its optimal deployment requires strategies tailored to local conditions. Plain Language Summary: Limiting global warming requires a large‐scale deployment of negative emission technologies (NETs) to capture and store atmospheric carbon dioxide. However, many NETs typically require land use and compete with food security or nature conservation. Biochar, a stable charcoal‐like material, can be produced from biomass residues without competing for land and, when applied to agricultural soils, it delivers negative emissions while providing agronomic benefits. An analysis of the environmental and agronomic effects of biochar production and use in Europe is key to identify sustainable pathways. Our results offer high‐resolution estimates of negative emissions and maps of biochar‐induced co‐benefits and trade‐offs with crop production, soil quality and soil emissions. When correctly implemented, biochar can co‐deliver for multiple global challenges (climate change, food security, contrast land degradation) and help a cross‐sectoral sustainability transition in Europe. Key Points: Biochar from biomass residues in Europe has a negative emission potential of 70–290 MtCO2 yr−1Biochar application to cropland generally increases soil carbon, water holding capacity, crop production, and reduces soil nitrogen lossesSome trade‐offs can occur in few locations, mainly for lower yields and air pollution
- Subjects
EUROPE; BIOCHAR; SOIL quality; GREENHOUSE gases; ATMOSPHERIC carbon dioxide; CROP residues; AGRICULTURE
- Publication
Earth's Future, 2023, Vol 11, Issue 10, p1
- ISSN
2328-4277
- Publication type
Article
- DOI
10.1029/2022EF003246