生物炭和腐殖酸施用对稻麦轮作系统CH4和N2O综合温室效应的影响
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S344;S21

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浙江省重点研发计划项目(2019C02008-03);国家自然科学基金项目(31700540)


Effects of biochar and humic acid application on global warming potentials of CH4 and N2O in a rice-wheat rotation system
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    摘要:

    生物炭和腐殖酸对土壤C、N循环和作物产量均具有深刻影响。该试验以稻麦轮作系统为研究对象,探究生物炭和腐殖酸在经过1 a陈化后对土壤肥力、作物产量和温室气体排放的持续影响。设置了6个处理:B0F0(对照,不添加生物炭和腐殖酸);B0F1(不添加生物炭,腐殖酸添加量为0.6 t/hm2);B0F2(不添加生物炭,腐殖酸添加量为1.2 t/hm2);B1F0(生物炭添加量为20 t/hm2,不添加腐殖酸);B1F1(生物炭添加量为20 t/hm2,腐殖酸添加量为0.6 t/hm2);B1F2(生物炭添加量为20 t/hm2,腐殖酸添加量为1.2 t/hm2)。结果表明:1)试验期内,与B0F0相比,生物炭显著增加了稻麦两季土壤有机碳含量;腐殖酸增加了稻季土壤有机碳含量,对麦季土壤有机碳含量无显著影响;单独施用生物炭或腐殖酸对水稻和小麦产量均没有显著影响,生物炭和腐殖酸混施处理显著提高了小麦产量,增幅为1.0%~5.0%,对水稻产量没有显著影响。2)试验期内,与B0F0相比,单独施用生物炭或腐殖酸以及二者混施均降低了土壤CH4累积排放量,降幅分别为11.1%、21.8%~25.8%和24.7%~34.1%;单独施用生物炭或腐殖酸以及二者混施均增加了N2O累积排放量,增幅分别为33.3%、10.0%~30.1%和7.2%~23.7%。3)生物炭和腐殖酸主要通过降低甲烷的排放,显著降低了稻麦轮作系统的综合温室效应和温室气体强度,B1F1处理(生物炭和腐殖酸用量分别为20和0.6 t/hm2)的综合温室效应和温室气体排放强度均为最低水平。这表明在稻麦轮作系统,生物炭和腐殖酸在土壤中经1 a陈化后仍然具有固碳减排能力,是稻麦轮作系统缓解土壤酸化、提高土壤肥力、减少温室气体排放的有效措施。

    Abstract:

    Biochar is one of the most important soil amendment materials. An ever increasingly prominent role can be found in carbon sequestration and greenhouse gas, especially in the methane (CH4) and nitrous oxide (N2O) mitigation potential. Among them, humic acid amendments to the cropland have dominated the C, N cycling and yield. In this study, a systematic investigation was implemented to clarify the influencing mechanisms of the biochar and humic after one year of application on global warming potential (GWP) and greenhouse gas intensity (GHGI) of CH4 and N2O emissions under a rice-wheat rotation system. A field experiment was designed with the double factors randomized block design in an acidic paddy of Hangzhou, Zhejiang Province, China. Six treatments were conducted in 2020 before the rice seedlings were transplanted as control without biochar or humic acid (B0F0), 0.6 t/hm2 humic acid without biochar (B0F1), 1.2 t/hm2 humic acid without biochar (B0F2), 20 t/hm2 biochar without humic acid (B1F0), 0.6 t/hm2 humic acid with 20 t/hm2 biochar (B1F1), and 1.2 t/hm2 humic acid with 20 t/hm2 biochar (B1F2). The CH4 and N2O emissions were then measured in the different treatments one year later in 2021-2022. An evaluation was also performed on the one-year field-aged biochar and humic acid amendment in a typical rice-wheat rotation system. The results showed that after application of one year 1) the biochar increased the soil organic carbon (SOC) content both in rice and wheat season; Humic acid significantly increased the SOC content in the rice season, whereas, there was no significant effect on the SOC in the wheat season. Meanwhile, there was no effect on rice yield in the application of biochar alone, humic acid alone and application of biochar and humic acid together, compared with the B0F0 treatment. The application of biochar and humic acid together significantly increased the wheat yield by 1.0%-5.0%. 2) The application of biochar and humic acid addition reduced the cumulative CH4 emissions by 11.1%, 21.8%-25.8% and 24.7%-34.1%, compared with the B0F0 treatment, but the cumulative N2O emissions were promoted by 33.3%, 10.0%-30.1% and 7.2%-23.7%, respectively. 3) The estimated gross GWP of CH4 plus N2O among the treatments was significantly reduced by the application of biochar and humic acid. The reason was attributed to the reduction of cumulative CH4 emissions. In addition, the biochar and humic acid addition significantly reduced the GHGI during the whole rice and wheat season, in terms of greenhouse gas emissions and yield. The application of biochar and humic acid reduced the GHGI by 10.2%, 17.3%-20.2%, and 27.2%-36.2%, respectively, compared with the B0F0 treatment. The lowest GWP and GHGI were achieved in the B1F1 treatment (biochar and humic acid were added at the rate of 20 and 0.6 t/hm2, respectively) among all the treatments. Consequently, outstanding performance can be expected in biochar and humic acid after the application of one year of the GHGs mitigation and carbon sequestration. A beneficial measure can also be utilized to improve the grain yields with less greenhouse gas emission in the rice-wheat rotation system.

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引用本文

刘志伟,刘娟,吴家森,李永夫,姜培坤.生物炭和腐殖酸施用对稻麦轮作系统CH4和N2O综合温室效应的影响[J].农业工程学报,2023,39(11):220-229. DOI:10.11975/j. issn.1002-6819.202302028

LIU Zhiwei, LIU Juan, WU Jiasen, LI Yongfu, JIANG Peikun. Effects of biochar and humic acid application on global warming potentials of CH4 and N2O in a rice-wheat rotation system[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2023,39(11):220-229. DOI:10.11975/j. issn.1002-6819.202302028

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  • 收稿日期:2023-02-28
  • 最后修改日期:2023-06-04
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  • 在线发布日期: 2023-06-30
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