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Integrated biochar solutions can achieve carbon-neutral staple crop production.

Longlong XiaLiang CaoYi YangChaopu TiYize LiuPatrizia SchweglerKees Jan van GroenigenJohannes LehmannRattan LalKlaus Butterbach-BahlRalf KieseMinghao ZhuangXi LuXiaoyuan Yan
Published in: Nature food (2023)
Agricultural food production is a main driver of global greenhouse gas emissions, with unclear pathways towards carbon neutrality. Here, through a comprehensive life-cycle assessment using data from China, we show that an integrated biomass pyrolysis and electricity generation system coupled with commonly applied methane and nitrogen mitigation measures can help reduce staple crops' life-cycle greenhouse gas emissions from the current 666.5 to -37.9 Tg CO 2 -equivalent yr -1 . Emission reductions would be achieved primarily through carbon sequestration from biochar application to the soil, and fossil fuel displacement by bio-energy produced from pyrolysis. We estimate that this integrated system can increase crop yield by 8.3%, decrease reactive nitrogen losses by 25.5%, lower air pollutant emissions by 125-2,483 Gg yr -1 and enhance net environmental and economic benefits by 36.2%. These results indicate that integrated biochar solutions could contribute to China's 2060 carbon neutrality objective while enhancing food security and environmental sustainability.
Keyphrases
  • life cycle
  • sewage sludge
  • anaerobic digestion
  • heavy metals
  • climate change
  • human health
  • municipal solid waste
  • risk assessment
  • organic matter
  • electronic health record
  • global health
  • data analysis