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Meta-Analysis for Quantifying Carbon Sequestration and Greenhouse Gas Emission in Paddy Soils One Year after Biochar Application

Fei Bu, Qiong Nan, Wushuang Li, Nanthi Bolan, Binoy Sarkar, Jun Meng, Hailong Wang

2022Agronomy21 citationsDOIOpen Access PDF

Abstract

The incorporation of biochar into soils has been recognized as a promising method to combat climate change. However, the full carbon reduction potential of biochar in paddy soils is still unclear. To give an overview of the quantified carbon reduction, a meta-analysis model of different carbon emission factors was established, and the life cycle-based carbon reduction of biochar was estimated. After one year of incorporation, biochar significantly increased the total soil carbon (by 27.2%) and rice production (by 11.3%); stimulated methane (CH4) and carbon dioxide (CO2) emissions by 13.6% and 1.41%, respectively, but having insignificant differences with no biochar amendment; and reduced nitrous oxide (N2O) emissions by 25.1%. The soil total carbon increase was mainly related to the biochar rate, whereas CH4 emissions were related to the nitrogen fertilizer application rate. Biochar pyrolysis temperature, soil type, and climate were the main factors to influence the rice yield. The total carbon reduction potential of biochar incorporation in Chinese paddy soils in 2020 ranged from 0.0066 to 2.0 Pg C using a biochar incorporation rate from 2 to 40 t ha−1. This study suggests that biochar application has high potential to reduce carbon emissions, thereby contributing to the carbon neutrality goal, but needs field-scale long-term trials to validate the predictions.

Topics & Concepts

BiocharSlash-and-charGreenhouse gasCarbon sequestrationSoil waterEnvironmental scienceSoil carbonCarbon fibersCharcoalAmendmentMethaneFertilizerCarbon dioxidePyrolysisAgronomyEnvironmental chemistryChemistrySoil scienceMaterials scienceEcologyOrganic chemistryPolitical scienceComposite materialLawComposite numberBiologySoil Carbon and Nitrogen DynamicsSoil and Unsaturated FlowAtmospheric and Environmental Gas Dynamics