Dominic Woolf scite author profile

Production of biochar (the carbon (C)-rich solid formed by pyrolysis of biomass) and its storage in soils have been suggested as a means of abating climate change by sequestering carbon, while simultaneously providing energy and increasing crop yields. Substantial uncertainties exist, however, regarding the impact, capacity and sustainability of biochar at the global level. In this paper we estimate the maximum sustainable technical potential of biochar to mitigate climate change. Annual net emissions of carbon dioxide (CO2), methane and nitrous oxide could be reduced by a maximum of 1.8 Pg CO2-C equivalent (CO2-Ce) per year (12% of current anthropogenic CO2-Ce emissions; 1 Pg=1 Gt), and total net emissions over the course of a century by 130 Pg CO2-Ce, without endangering food security, habitat or soil conservation. Biochar has a larger climate-change mitigation potential than combustion of the same sustainably procured biomass for bioenergy, except when fertile soils are amended while coal is the fuel being offset.

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Land‐based measures to mitigate climate change: Potential and feasibility by country

Roe

Streck

Beach

et al. 2021

Global Change Biology

182

177

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Biochar in climate change mitigation

et al. 2021

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Modelling the long-term response to positive and negative priming of soil organic carbon by black carbon

2012

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Dominic Woolf

Sustainable biochar to mitigate global climate change

Land‐based measures to mitigate climate change: Potential and feasibility by country

Biochar in climate change mitigation

Modelling the long-term response to positive and negative priming of soil organic carbon by black carbon

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