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Greenhouse Gas Inventory Model for Biochar Additions to Soil

Dominic Woolf, Johannes Lehmann, Stephen M. Ogle, Ayaka W. Kishimoto‐Mo, B.G. McConkey, Jeff Baldock

2021Environmental Science & Technology202 citationsDOIOpen Access PDF

Abstract

removal practices, such as biochar sequestration, that have the potential to be deployed at scale. Here, we have developed a GHG accounting methodology for biochar application to mineral soils using simple parameterizations and readily accessible activity data that can be applied at a range of scales including farm, supply chain, national, or global. The method is grounded in a comprehensive analysis of current empirical data, making it a robust method that can be used for many applications including national inventories and voluntary and compliance carbon markets, among others. We show that the carbon content of biochar varies with feedstock and production conditions from as low as 7% (gasification of biosolids) to 79% (pyrolysis of wood at above 600 °C). Of this initial carbon, 63-82% will remain unmineralized in soil after 100 years at the global mean annual cropland-temperature of 14.9 °C. With this method, researchers and managers can address the long-term sequestration of C through biochar that is blended with soils through assessments such as GHG inventories and life cycle analyses.

Topics & Concepts

BiocharGreenhouse gasEnvironmental scienceWaste managementEnvironmental chemistryEnvironmental engineeringEnvironmental protectionChemistryPyrolysisGeologyEngineeringOceanographySoil Carbon and Nitrogen DynamicsEnvironmental Impact and SustainabilityThermochemical Biomass Conversion Processes