Response of soil carbon dioxide fluxes, soil organic carbon and microbial biomass carbon to biochar amendment: a meta-analysis

生物炭 修正案 环境科学 斜线和字符 土壤碳 固碳 肥料 土壤有机质 生物量(生态学) 具有碳捕获和储存功能的生物能源 碳纤维 二氧化碳 土壤改良剂 土壤呼吸 温室气体 废物管理 环境化学 化学 土壤质量 土壤肥力 总有机碳 碳循环 农学 土壤水分 土壤科学 热解 材料科学 生物 有机化学 复合材料 法学 复合数 政治学 工程类
作者
Shuwei Liu,Yaojun Zhang,Yajie Zong,Zhiqiang Hu,Shuang Wu,Jie Zhou,Yecheng Jin
出处
期刊:Gcb Bioenergy [Wiley]
卷期号:8 (2): 392-406 被引量:249
标识
DOI:10.1111/gcbb.12265
摘要

Biochar as a carbon-rich coproduct of pyrolyzing biomass, its amendment has been advocated as a potential strategy to soil carbon (C) sequestration. Updated data derived from 50 papers with 395 paired observations were reviewed using meta-analysis procedures to examine responses of soil carbon dioxide (CO2) fluxes, soil organic C (SOC), and soil microbial biomass C (MBC) contents to biochar amendment. When averaged across all studies, biochar amendment had no significant effect on soil CO2 fluxes, but it significantly enhanced SOC content by 40% and MBC content by 18%. A positive response of soil CO2 fluxes to biochar amendment was found in rice paddies, laboratory incubation studies, soils without vegetation, and unfertilized soils. Biochar amendment significantly increased soil MBC content in field studies, N-fertilized soils, and soils with vegetation. Enhancement of SOC content following biochar amendment was the greatest in rice paddies among different land-use types. Responses of soil CO2 fluxes and MBC to biochar amendment varied with soil texture and pH. The use of biochar in combination with synthetic N fertilizer and waste compost fertilizer led to the greatest increases in soil CO2 fluxes and MBC content, respectively. Both soil CO2 fluxes and MBC responses to biochar amendment decreased with biochar application rate, pyrolysis temperature, or C/N ratio of biochar, while each increased SOC content enhancement. Among different biochar feedstock sources, positive responses of soil CO2 fluxes and MBC were the highest for manure and crop residue feedstock sources, respectively. Soil CO2 flux responses to biochar amendment decreased with pH of biochar, while biochars with pH of 8.1–9.0 had the greatest enhancement of SOC and MBC contents. Therefore, soil properties, land-use type, agricultural practice, and biochar characteristics should be taken into account to assess the practical potential of biochar for mitigating climate change.

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