Emission of CO2 from biochar‐amended soils and implications for soil organic carbon

Soil amendment with pyrogenic organic matter (PyOM), also named biochar, is claimed to sequester carbon (C). However, possible interactions between PyOM and native soil organic carbon (SOC) may accelerate the loss of SOC, thus reducing PyOM's C sequestration potential. We combined the results o...

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Published inGlobal change biology. Bioenergy Vol. 7; no. 6; pp. 1294 - 1304
Main Authors Sagrilo, Edvaldo, Jeffery, Simon, Hoffland, Ellis, Kuyper, Thomas W.
Format Journal Article
LanguageEnglish
Published Oxford John Wiley & Sons, Inc 01.11.2015
Subjects
additive effects
Carbon
Carbon dioxide
Carbon dioxide emissions
Carbon sequestration
Charcoal
Decomposition
Emission analysis
Experiments
Independent study
Laboratories
Organic carbon
Organic matter
priming
pyrogenic organic matter
recalcitrance
Soil amendment
Soil analysis
Soil investigations
Soils
Statistical analysis
Studies
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Abstract Soil amendment with pyrogenic organic matter (PyOM), also named biochar, is claimed to sequester carbon (C). However, possible interactions between PyOM and native soil organic carbon (SOC) may accelerate the loss of SOC, thus reducing PyOM's C sequestration potential. We combined the results of 46 studies in a meta‐analysis to investigate changes in CO2 emission of PyOM‐amended soils and to identify the causes of these changes and the possible factors involved. Our results showed a statistically significant increase of 28% in CO2 emission from PyOM‐amended soils. When grouped by PyOM C (PyC):SOC ratios, the group of studies with a ratio >2 showed a significant increase in CO2 emissions, but those with a ratio <2 showed no significant effect of PyOM application on CO2 emission. Our data are consistent with the hypothesis that increased CO2 emission after PyOM addition is additive and mainly derived from PyOM's labile C fractions. The PyC:SOC ratio provided the best predictor of increases in CO2 production after PyOM addition to soil. This meta‐analysis highlights the importance of taking into account the amount of applied PyC in relation to SOC for designing future decomposition experiments.
AbstractList Soil amendment with pyrogenic organic matter (PyOM), also named biochar, is claimed to sequester carbon (C). However, possible interactions between PyOM and native soil organic carbon (SOC) may accelerate the loss of SOC, thus reducing PyOM's C sequestration potential. We combined the results of 46 studies in a meta-analysis to investigate changes in CO2 emission of PyOM-amended soils and to identify the causes of these changes and the possible factors involved. Our results showed a statistically significant increase of 28% in CO2 emission from PyOM-amended soils. When grouped by PyOM C (PyC):SOC ratios, the group of studies with a ratio >2 showed a significant increase in CO2 emissions, but those with a ratio <2 showed no significant effect of PyOM application on CO2 emission. Our data are consistent with the hypothesis that increased CO2 emission after PyOM addition is additive and mainly derived from PyOM's labile C fractions. The PyC:SOC ratio provided the best predictor of increases in CO2 production after PyOM addition to soil. This meta-analysis highlights the importance of taking into account the amount of applied PyC in relation to SOC for designing future decomposition experiments.
Author Hoffland, Ellis
Kuyper, Thomas W.
Sagrilo, Edvaldo
Jeffery, Simon
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Snippet Soil amendment with pyrogenic organic matter (PyOM), also named biochar, is claimed to sequester carbon (C). However, possible interactions between PyOM and...
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wiley
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SubjectTerms additive effects
Carbon
Carbon dioxide
Carbon dioxide emissions
Carbon sequestration
Charcoal
Decomposition
Emission analysis
Experiments
Independent study
Laboratories
Organic carbon
Organic matter
priming
pyrogenic organic matter
recalcitrance
Soil amendment
Soil analysis
Soil investigations
Soils
Statistical analysis
Studies
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Title Emission of CO2 from biochar‐amended soils and implications for soil organic carbon
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fgcbb.12234
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