不同比例化肥减量配施有机肥对植烟土壤有机碳固存的影响

Effects of different proportions of chemical fertilizer reduction combined with organic fertilizer supplements on organic carbon sequestration in Tobacco-planting soil

  • 摘要: 为探究不同比例化肥减量配施有机肥影响植烟土壤有机碳固存的长期效应, 基于连续9年的田间定位试验, 设置不施肥(CK)、100%化肥(CF-1, 当地常规推荐施肥)、80%化肥(CF-2)、80%化肥配施有机肥(OF-1)、60%化肥配施有机肥(OF-2)、70%化肥配施有机肥+生物有机肥(BOF)处理, 对植烟土壤有机碳储量盈亏、固碳速率、有机碳组分含量、有机碳敏感指数、土壤碳库活度和土壤碳库管理指数进行对比, 探讨不同比例化肥减量配施有机肥对植烟土壤有机碳固存的长期效应。与CF-1处理相比, 连续不施肥(CK)处理植烟土壤有机碳组分、储量和土壤碳固存速率显著下降。不同比例化肥减量配施有机肥的 OF-1、OF-2和BOF处理, 植烟土壤有机碳含量分别增加9.6%、20.9%和13.9%, 土壤活性有机碳含量分别增加43.4%、68.0%和41.7%, 土壤可溶性有机碳含量分别增加14.8%、19.1%和25.4%, 土壤微生物量碳含量分别增加22.8%、37.2%和36.4%, 土壤有机碳储量分别增加15.3%、30.2%和31.2%, 年平均固碳速率分别提高191.3%、382.6%和391.3%, 碳库管理指数分别提高100.8%、159.8%和79.6%。不同比例化肥减量配施有机肥显著提升土壤活性有机碳敏感指数。与CF-1相比, OF-1、OF-2和BOF处理的烟叶产量分别提高10.3%、33.5%和35.3%, 中上等烟叶比例分别提高14.6%、22.0%和18.0%。连续9年化肥减量配施有机肥显著提高植烟土壤有机碳组分含量和土壤有机碳固存速率, 促进烟叶产质量提升, 是烟叶绿色优质生产、农田土壤固碳增效的有效途径, 以OF-2和BOF效应更好。

     

    Abstract: The long-term effects of different proportions of fertilizer reduction combined with organic fertilizer on organic carbon sequestration in tobacco-planted soil were explored. Based on nine consecutive years of field positioning experiments, treatments of no fertilizer (CK), 100% fertilizer (CF-1, local conventional recommended fertilizer), 80% fertilizer (CF-2), 80% fertilizer with organic fertilizer (OF-1), 60% fertilizer with organic fertilizer (OF-2), 70% fertilizer with organic fertilizer + bioorganic fertilizer (BOF) were applied to compare organic carbon storage profit and loss, carbon sequestration rate, organic carbon component content, organic carbon sensitivity index, soil carbon pool activity and soil carbon pool management index of tobacco-planting soil, and to explore the long-term effects of different proportions of fertilizer reduction combined with organic fertilizer supplements on organic carbon sequestration in tobacco-planting soil. The organic carbon composition, storage, and soil carbon sequestration rate of tobacco-planted soil under the continuous no-fertilization (CK) treatment were significantly lower than those of CF-1. Compared with CF-1, the organic carbon content of tobacco-planting soil increased by 9.6%, 20.9% and 13.9%, the labile organic carbon content of soil increased by 43.4%, 68.0% and 41.7%, soil dissolved organic carbon content increased by 14.8%, 19.1% and 25.4%, soil microbial biomass carbon content increased by 22.8%, 37.2% and 36.4% and soil organic carbon storage increased by 15.3%, 30.2% and 31.2%, respectively, in the OF-1, OF-2 and BOF treatments. Compared with CF-1, the average annual carbon sequestration rate was increased by 191.3%, 382.6% and 391.3%, the carbon pool management index was increased by 100.8%, 159.8% and 79.6%, respectively, among OF-1, OF-2 and BOF treatments. Continuous fertilizer reduction at different proportions combined with organic fertilizer significantly increased the sensitivity index of soil active organic carbon. Compared with CF-1, the yield of tobacco leaves increased by 10.3%, 33.5%, and 35.3%, and the proportion of medium- and high-grade tobacco leaves increased by 14.6%, 22.0%, and 18.0%, respectively, in the OF-1, OF-2, and BOF treatments. After nine consecutive years of fertilizer reduction and supplementation with organic fertilizer, the organic carbon content and soil organic carbon sequestration rate of tobacco-planted soil significantly increased, and the quality of tobacco production was promoted. This approach is an effective way to produce green and high-quality tobacco leaves and to increase the efficiency of soil carbon sequestration. Treatment OF-2 or BOF resulted in much better results.

     

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