Biochar Carbon Stability in a Clayey Soil As a Function of Feedstock and Pyrolysis Temperature

Singh, Bhupinder Pal; Cowie, Annette; Smernik, Ronald J

doi:10.1021/es302545b

Author(s)

Singh, Bhupinder Pal

Cowie, Annette

Smernik, Ronald J

Publication Date

2012

Abstract

The stability of biochar carbon (C) is the major determinant of its value for long-term C sequestration in soil. A long-term (5 year) laboratory experiment was conducted under controlled conditions using 11 biochars made from five C3 biomass feedstocks (Eucalyptus saligna wood and leaves, papermill sludge, poultry litter, cow manure) at 400 and/or 550 °C. The biochars were incubated in a vertisol containing organic C from a predominantly C4-vegetation source, and total CO₂-C and associated δ¹³C were periodically measured. Between 0.5% and 8.9% of the biochar C was mineralized over 5 years. The C in manure-based biochars mineralized faster than that in plant-based biochars, and C in 400 °C biochars mineralized faster than that in corresponding 550 °C biochars. The estimated mean residence time (MRT) of C in biochars varied between 90 and 1600 years. These are conservative estimates because they represent MRT of relatively labile and intermediate-stability biochar C components. Furthermore, biochar C MRT is likely to be higher under field conditions of lower moisture, lower temperatures or nutrient availability constraints. Strong relationships of biochar C stability with the initial proportion of nonaromatic C and degree of aromatic C condensation in biochar support the use of these properties to predict biochar C stability in soil.

Citation

Environmental Science & Technology, 46(21), p. 11770-11778

ISSN

1520-5851

0013-936X

Link

https://hdl.handle.net/1959.11/12048

Language

en

Publisher

American Chemical Society

Title

Biochar Carbon Stability in a Clayey Soil As a Function of Feedstock and Pyrolysis Temperature

Type of document

Journal Article

Entity Type

Publication

Author(s)	Singh, Bhupinder Pal Cowie, Annette Smernik, Ronald J
Publication Date	2012
Abstract	The stability of biochar carbon (C) is the major determinant of its value for long-term C sequestration in soil. A long-term (5 year) laboratory experiment was conducted under controlled conditions using 11 biochars made from five C3 biomass feedstocks (Eucalyptus saligna wood and leaves, papermill sludge, poultry litter, cow manure) at 400 and/or 550 °C. The biochars were incubated in a vertisol containing organic C from a predominantly C4-vegetation source, and total CO₂-C and associated δ¹³C were periodically measured. Between 0.5% and 8.9% of the biochar C was mineralized over 5 years. The C in manure-based biochars mineralized faster than that in plant-based biochars, and C in 400 °C biochars mineralized faster than that in corresponding 550 °C biochars. The estimated mean residence time (MRT) of C in biochars varied between 90 and 1600 years. These are conservative estimates because they represent MRT of relatively labile and intermediate-stability biochar C components. Furthermore, biochar C MRT is likely to be higher under field conditions of lower moisture, lower temperatures or nutrient availability constraints. Strong relationships of biochar C stability with the initial proportion of nonaromatic C and degree of aromatic C condensation in biochar support the use of these properties to predict biochar C stability in soil.
Citation	Environmental Science & Technology, 46(21), p. 11770-11778
ISSN	1520-5851 0013-936X
Link	https://hdl.handle.net/1959.11/12048
Language	en
Publisher	American Chemical Society
Title	Biochar Carbon Stability in a Clayey Soil As a Function of Feedstock and Pyrolysis Temperature
Type of document	Journal Article
Entity Type	Publication

Biochar Carbon Stability in a Clayey Soil As a Function of Feedstock and Pyrolysis Temperature

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