期刊论文详细信息
Frontiers in Soil Science
Predicting changes in soil organic carbon after a low dosage and one-time addition of biochar blended with manure and nitrogen fertilizer
Soil Science
Runshan W. Jiang1  Meaghan A. Mechler2  Maren Oelbermann3 
[1] Department of Chemistry, University of Waterloo, Waterloo, ON, Canada;Department of Plant Agriculture, University of Guelph, Guelph, ON, Canada;School of Environment, Resources and Sustainability, University of Waterloo, Waterloo, ON, Canada;
关键词: carbon fractions;    carbon sequestration;    Century model;    organic matter;    soil amendments;    temperate agriculture;   
DOI  :  10.3389/fsoil.2023.1209530
 received in 2023-04-20, accepted in 2023-05-29,  发布年份 2023
来源: Frontiers
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【 摘 要 】

Modeling plays an important role in predicting the long-term effects of biochar on soil organic carbon dynamics. The objective of our study was to apply the Century model to assess changes in temporal soil organic carbon in soil amended with manure and nitrogen fertilizer (MN), with manure and biochar (MB) or with manure, nitrogen fertilizer and biochar (MNB). We determined that, after 115 years, soil organic carbon stocks could not reach a steady state (equilibrium) or pre-cultivation levels, regardless of amendment type. Our results showed that a biennial input of manure and nitrogen fertilizer (MN) led to a 84% increase in soil organic carbon compared to a 79% (MNB) and 70% (MB) increase when amendments contained biochar. However, the quantity of organic matter input from crop residues and amendments was sufficient to increase the active fraction, with a turnover time of months to years, by 86%. In fact, carbon associated with the slow fraction, with a turnover time of 20 to 50 years, was the key driver for soil organic carbon accumulation in all amendment types. Although the passive fraction is the most stable form of carbon in the soil, with a turnover time of 400 to 100 years, once manure and biochar were added to the soil, this fraction increased up to 32%. Our results provided further insight into the ability of Century to accurately predict changes in soil organic carbon stocks when a combination of manure, nitrogen fertilizer or biochar were added to soil. Century predicted soil organic carbon stocks within -1% to +9% of measured values. However, further fine-tuning of the model is required since biochar undergoes chemical transformations (e.g., ageing) and changes soil physical parameters (e.g., bulk density) that can not be currently accounted for in the Century model. Addressing these limitations of Century will also help to increase the relationship between measured and predicted values.

【 授权许可】

Unknown   
Copyright © 2023 Oelbermann, Jiang and Mechler

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