Patrick Brassard1, Stéphane Godbout2, Vijaya Raghavan3. 1. Research and Development Institute for the Agri-Environment (IRDA), 2700 Einstein Street, Quebec City, Quebec G1P 3W8, Canada; Department of Bioresource Engineering, Macdonald Campus, McGill University, 21111 Lakeshore, Sainte-Anne-de-Bellevue, Quebec H9X 3V9, Canada. Electronic address: patrick.brassard@irda.qc.ca. 2. Research and Development Institute for the Agri-Environment (IRDA), 2700 Einstein Street, Quebec City, Quebec G1P 3W8, Canada. 3. Department of Bioresource Engineering, Macdonald Campus, McGill University, 21111 Lakeshore, Sainte-Anne-de-Bellevue, Quebec H9X 3V9, Canada.
Abstract
Biochar, a solid porous material obtained from the carbonization of biomass under low or no oxygen conditions, has been proposed as a climate change mitigation tool because it is expected to sequester carbon (C) for centuries and to reduce greenhouse gas (GHG) emissions from soils. This review aimed to identify key biochar properties and production parameters that have an effect on these specific applications of the biochar. Moreover, mechanisms involved in interactions between biochar and soils were highlighted. Following a compilation and comparison of the characteristics of 76 biochars from 40 research studies, biochars with a lower N content, and consequently a higher C/N ratio (>30), were found to be more suitable for mitigation of N2O emissions from soils. Moreover, biochars produced at a higher pyrolysis temperature, and with O/C ratio <0.2, H/Corg ratio <0.4 and volatile matter below 80% may have high C sequestration potential. Based on these observations, biochar production and application to the field can be used as a tool to mitigate climate change. However, it is important to determine the pyrolysis conditions and feedstock needed to produce a biochar with the desired properties for a specific application. More research studies are needed to identify the exact mechanisms involved following biochar amendment to soil.
Biochar, a solid porous material obtained from the carbonization of biomass under low or no n class="Chemical">oxygen conditions, has been proposed as a climate change mitigation tool because it is expected to sequester carbon (C) for centuries and to reduce greenhouse gas (GHG) emissions from soils. This review aimed to identify key biochar properties and production parameters that have an effect on these specific applications of the biochar. Moreover, mechanisms involved in interactions between biochar and soils were highlighted. Following a compilation and comparison of the characteristics of 76 biochars from 40 research studies, biochars with a lower N content, and consequently a higher C/N ratio (>30), were found to be more suitable for mitigation of N2O emissions from soils. Moreover, biochars produced at a higher pyrolysis temperature, and with O/C ratio <0.2, H/Corg ratio <0.4 and volatile matter below 80% may have high C sequestration potential. Based on these observations, biochar production and application to the field can be used as a tool to mitigate climate change. However, it is important to determine the pyrolysis conditions and feedstock needed to produce a biochar with the desired properties for a specific application. More research studies are needed to identify the exact mechanisms involved following biochar amendment to soil.
Authors: Jihai Gu; Jun Yao; Gyozo Jordan; Beenish Roha; Ning Min; Hao Li; Chao Lu Journal: Environ Sci Pollut Res Int Date: 2018-08-18 Impact factor: 4.223
Authors: Vimala D Nair; P K Ramachandran Nair; Biswanath Dari; Andressa M Freitas; Nilovna Chatterjee; Felipe M Pinheiro Journal: Front Plant Sci Date: 2017-12-11 Impact factor: 5.753