褐煤有机肥与脱硫石膏联合施用对盐碱土改良和向日葵产量的影响

    Impacts of combined application of lignite bioorganic fertilizer and flue gas desulfurization gypsum on saline-sodic soil amendment and sunflower yield

    • 摘要: 土壤盐碱化是中国西北干旱灌区农业可持续发展的关键制约因素之一。为探讨联合施用褐煤有机肥与脱硫石膏对盐碱土改良的效果,该研究在内蒙古河套灌区开展了连续2 a的田间试验,分析了褐煤有机肥与脱硫石膏联合施用对种植向日葵的盐碱农田土壤理化性质和水肥利用效率的影响。试验设置了6个处理:只施用化肥的对照处理(CK)、只施用2 t/hm2褐煤有机肥的处理(LBF),以及4个褐煤有机肥与脱硫石膏联合施用的处理,即在施用2 t/hm2褐煤有机肥基础之上再分别施用5(LBF+F5)、10(LBF+F10)、15(LBF+F15)、20(LBF+F20)t/hm2脱硫石膏。结果表明:在0~40 cm土层,褐煤有机肥和脱硫石膏联合施用显著改变了土壤盐分组成,增加了土壤中可溶性Ca2+、SO42−和Mg2+的含量,降低了可溶性Na+、CO32−和HCO3的含量。与对照处理相比,褐煤有机肥和脱硫石膏联合施用处理使0~20 cm土层土壤pH值和碱化度分别降低了0.29~0.88和18.34%~43.42%,有机质含量增加了39.89%~131.65%。此外,褐煤有机肥与脱硫石膏联合施用显著降低了土壤容重,提高了土壤团聚体稳定性,但过高的脱硫石膏施用量(≥15 t/hm2)会显著增加土壤盐分含量。总体而言,2 t/hm2褐煤有机肥与10 t/hm2脱硫石膏联合施用时对改善盐碱土壤理化性质的效果最显著,并可获得最高产量和水氮利用效率。与对照处理相比,其向日葵产量、水分利用效率和氮肥偏生产力分别提高44.45%、44.62%和80.46%。研究结果为河套灌区盐碱农田土壤改良与产能提升提供科学依据和参考。

       

      Abstract: Soil salinization is one of the major limiting factors for the sustainable development of agriculture in the arid northwest China. Among them, flue gas desulfurization (FGD) gypsum from the coal-fired power plant can be widely used to improve the saline-sodic soil. At the same time, the lignite bioorganic fertilizer (LBF) has also been expected as an effective amendment for the better saline-sodic soil in recent years. However, little is known about the combined application of LBF and FGD gypsum on the physical and chemical properties of saline-sodic soil and sunflower growth. In this study, a two-year field experiment was conducted in 2021-2022, in order to investigate the effect of combining both LBF and FGD gypsum on the saline-sodic soil quality, crop yield, water use efficiency (WUE), and partial-factor productivity of N (PFPn) in the sunflower farmland at the Hetao Experimental Station of China Agricultural University, located in the Bayannur City, Inner Mongolia Autonomous Region, China. Soil samples of 0-40 cm soil layer were collected at the sunflower maturity stage. The sunflower yield, WUE, and PFPn were measured at the same time. Six treatments were considered, i.e., a chemical fertilizer treatment (CK), and 2 t/hm2 LBF combined with 0 (LBF), 5 (LBF+F5), 10 (LBF+F10), 15 (LBF+F15), and 20 (LBF+F20) t/hm2 FGD gypsum application treatments. The results showed that the LBF treatment decreased the average content of Na+ by 23.33% in the 0-40 cm soil layer in 2022, compared with the CK treatment, but there was no effect on the other water-soluble ions. The LBF+F20 treatment increased the average contents of Ca2+, SO42− and Mg2+ by 450.71%, 123.41%, and 391.90%, respectively, compared with the CK, whereas, there was the a decrease in the average contents of CO32−+HCO3 by 48.29% in 0-40 soil layer. The LBF combined with the FGD gypsum treatments significantly decreased the average soil pH by 0.29-0.88 in the 0-20 cm soil layer. The soil organic matter content in the 0-20 cm soil layer was higher than that in the 20-40 cm soil layer. The LBF treatment significantly increased the soil organic matter content by 39.89%-131.65% in the 0-20 soil layer in 2021-2022. In addition, the LBF combined with FGD gypsum treatments decreased the soil ESP and soil bulk density by 18.34%-43.42%, and 5.91%-11.06% in the 0-40 cm soil layer, respectively, compared with the CK. The LBF+F10, LBF+F15, and LBF+F20 treatments increased the soil aggregate mean weight diameter by 102.00%, 127.78%, and 91.95%, respectively, but there was no effect on the soil percentage aggregate destruction. Although the application of FGD gypsum decreased the soil pH and ESP, however, the excessive application of FGD gypsum would increase the soil salt content, which may inhibit the sunflower growth and yield improvement. The LBF+F10 treatment increased the sunflower yield, WUE, and PFPn by 44.45%, 44.62%, and 80.46%, respectively, compared with the CK. In general, the combination of 2 t/hm2 LBF and 10 t/hm2FGD gypsum shared the greatest effect on the physical and chemical properties of saline-sodic soil, indicating the largest sunflower yield, WUE, and PFPn. The finding can provide the scientific implication for the saline-sodic soil remediation and crop productivity improvement of salinized farmland in HID.

       

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