Biochar contribution in greenhouse gas mitigation and crop yield considering pyrolysis conditions, utilization strategies and plant type ‐ A meta-analysis
Elnaz Amirahmadi, Mohammad Ghorbani, Fabrizio Adani
Abstract
Fertilizers have the potential to release greenhouse gases (GHGs) and applying biochar, could drastically change fertilizers' scenario in the environment. However, the efficiency of biochar regarding its operation and interaction with organic and chemical fertilizers on GHG emission, and crop productivity has received many contradictory reports. This study aims to conduct a comprehensive meta-analysis to evaluate the effects of biochar utilization strategies and key variables on GHG emissions and crop productivity. A meta-analysis was performed using six groups of effective variables including different biochar utilization strategies (sole (B), combined with chemical fertilizers (BCF), combined with organic fertilizers (BOF)), type of feedstock, pyrolysis temperature, application rate, soil texture, and plant types. Also, various GHG emission factors and crop yield were considered as the affected factors. The results showed that the B strategy reduced N 2 O and CH 4 emissions by 16.3 % and 10.1 %. Also, BCF and BOF showed a positive effect size in terms of N 2 O with 62.9 % and 11.3 % increases. The highest CO 2 emission was related to manure-based biochars with a 12.1 % positive effect size. Moderate pyrolysis temperature (400–550 °C) showed the best efficiency in reducing overall carbon intensity per crop yield (GHGI) with a 14.9 % decrease. Also, the highest global warming potential (GWP) was obtained from the > 20 t ha −1 biochar application rate. Applying biochar in sandy soil causes a notable increase in CO 2 emission with a 22.1 % positive effect size. The highest GWP was related to the application of biochar in vegetable cultivation with a 20.8 % increase. Soil texture and pyrolysis processing significantly impact soil GHG emissions when biochar is applied with fertilizers. Expanding our understanding of the relationships among soil GHG emissions, organic fertilizers, and biochar could assist in increasing plant yield and net zero amending approaches. • The highest GWP was observed from BCF strategy with 35 % positive effect size. • N 2 O emission was decreased by unstable (44 %) and resistant (10 %) feedstocks. • In clay soil treated with biochar GWP and GHGI decreased by 3.9 % and 28.9 %. • The highest crop yield obtained from application of wood-based biochar. • High biochar rates (>20 t ha −1 ) gave the lowest crop yield vs. lower rates.