不同秸秆还田年限对稻麦轮作系统温室气体排放的影响

Effects of years of straw return to soil on greenhouse gas emission in rice/wheat rotation systems

  • 摘要: 为揭示稻麦轮作系统不同秸秆还田年限下温室气体排放特征及减排调控机制, 本研究采用大田小区试验, 考察了稻麦轮作不同秸秆还田年限空白对照(CK)、常规处理秸秆不还田(NT)、1年秸秆还田(SR1)和5年秸秆还田(SR5)对CH4、CO2和N2O 3种温室气体排放规律的影响, 同时测定了土壤固碳量, 估算了秸秆焚烧产生的温室气体排放量, 综合计算了4种处理对全球变暖的贡献。试验结果表明, SR1和SR5均显著提升CH4和CO2的排放通量, 分别高出NT、CK处理73.52%、309.49%和13.29%、13.06%; 同时显著降低N2O排放通量, 较NT降低29.68%和42.55%; 但SR1和SR5之间温室气体排放通量差异不显著; 与NT相比, SR1和SR5可以显著提高土壤固碳量517.9%和709.03%, SR5土壤固碳量高出SR1达30.93%; NT秸秆焚烧产生的全球气温变暖贡献为9 698.49 kg(CO2-eqv)·hm-2, 比CK高126.98%。综合分析温室气体排放、土壤固碳以及秸秆焚烧3个因素, SR1全球升温贡献最低, 显著低于NT 4.72%。短期全量秸秆还田有助于降低总体温室气体排放, 长期进行秸秆还田后降低幅度会逐步减小。

     

    Abstract: Crop straw is the largest renewable resource on earth but it is often burned after crop harvest, resulting in loss of nutrients and environmental pollution. With current advocate for ecological agriculture, straw return to soil is the most important mode of reutilization of agricultural by-products. This mode is vigorously applied and promoted in rice/wheat rotation system. Research has shown that straw return to soil as a key mode of ecological agriculture affects many aspects of agricultural systems, including soil physical and chemical properties, carbon sequestration in soils, greenhouse gas emissions, etc. Despite this, less research has focused on the effects of different years of straw return to soil on the contributions of agricultural systems to global warming. In this study, field experiment was conducted to determine the effects of different years of straw return to soil (with CK as no straw return without fertilizer; and NT, SR1 and SR5 as 0, 1 and 5 years of straw return with normal fertilization) on greenhouse gases (CH4, CO2 and N2O) emissions and soil carbon sequestration in rice/wheat rotation system. Combined with the effects of straw burning on greenhouse gas emissions, the contributions of the four treatments to global warming were comprehensively estimated. Greenhouse gases (CH4, CO2 and N2O) emission fluxes from the rice/wheat rotation systems were analyzed using the static chamber gas chromatography method. Greenhouse gases emission fluxes from straw burning were estimated based on published lists of greenhouse gases by IPCC 2006. The results of the study showed that straw return to soil (SR1 and SR5) significantly increased CH4 and CO2 emission fluxes, which were higher than those of NT by 73.52% and 13.29%, than those of CK by 309.49% and 13.06%, respectively. Straw return to soil also decreased N2O emission flux, which was lower than those of NT (29.68%) and CK (42.55%). However, no significant difference was noted between greenhouse gases emissions under SR1 and SR5. Compared with NT, SR1 and SR5 increased one year soil carbon sequestrations respectively by 517.90% and 709.03%. Also soil carbon sequestration under SR5 was higher than that under SR1 by 30.93%. The contribution of straw burning to soil carbon sequestration under NT was 9 698.49 kg(CO2-eqv)·hm-2, which was higher than that of CK by 126.98%. The combined effects of the three factors (greenhouse gas emission, carbon sequestration and straw burning), the contribution to global warming of SR1 was lowest, significantly lower than that of NT by 4.72%. While full short-term straw return to soil was useful in reducing overall greenhouse gas emission, the range of reduction would decrease with time of full application of long-term straw return to soil.

     

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