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有机肥与化肥配施对耕作层土壤化学性质及铜锌质量分数的影响

Effects of combined application of organic and chemical fertilizers on soil chemical properties and mass fractions of copper and zinc in tillage layer

  • 摘要:
    目的 化肥过量施用威胁土壤健康。有机肥与化肥配施是实现农业可持续发展的关键途径。本研究以内蒙古托克托县黄河中游黄灌区耕地为研究对象,探究该区域有机肥与化肥配施下的土壤质量变化规律。
    方法 采集研究区域内化肥与2~5 a有机肥配施的土壤,分析土壤化学性质及铜锌质量分数变化,比较不同年限有机肥与化肥配施下土壤化学性质及铜锌质量分数的差异。
    结果 与单施化肥的土壤相比,化肥与2~5 a有机肥配施使研究区耕作层土壤的pH显著降低9.33%~16.88%(P < 0.05)、电导率显著降低35.81%~20.30%(P < 0.05)、水溶性盐显著降低62.12%~55.55%(P < 0.05),同时使土壤阳离子交换量显著增加109.38%~90.61%(P < 0.05),土壤有机质、全氮、总磷和有效磷分别显著升高266.36%~491.91%、140.79%~207.61%、27.70%~62.94%和561.01%~1123.26%(P < 0.05),土壤肥力增加的同时,施用2~5 a有机肥使土壤中重金属铜和锌的质量分数分别显著增加376.32%~727.96%和74.50%~166.86%(P < 0.05)。
    结论 有机肥与化肥配施降低土壤pH、电导率和水溶性盐分,提高养分含量,但增加铜锌积累。因此,需结合区域土壤环境容量与铜锌输入通量,制定科学合理的施肥方案,实现土壤肥力提升与土壤环境保护的协同发展。

     

    Abstract:
    Objective Excessive application of chemical fertilizers threatens soil health, and the combined use of organic and chemical fertilizers is a key pathway to achieving sustainable agricultural development. This study investigates the patterns of soil quality changes under the combined application of organic and chemical fertilizers in the cultivated land of the Yellow River irrigation area in the middle reaches of the Yellow River in Tuoketuo county, Inner Mongolia.
    Methods Soil samples were collected from the study area where chemical fertilizers were applied in combination with organic fertilizers for 2−5 years. The chemical properties of the soil and changes in copper and zinc mass fractions were analyzed. Differences in soil chemical properties and copper and zinc mass fractions were compared between different application years of organic fertilizers combined with chemical fertilizers.
    Results Compared to soils treated with chemical fertilizers alone, the combined application of chemical fertilizers with organic fertilizers for 2−5 years significantly reduced the pH value of the tillage layer in the study area by 9.33%−16.88% (P < 0.05), decreased electrical conductivity by 35.81%−20.30% (P < 0.05), and significantly reduced water-soluble salts by 62.12%−55.5% (P < 0.05), while soil cation exchange capacity increased significantly by 109.38%−90.61% (P < 0.05). Soil organic matter, total nitrogen, total phosphorus, and available phosphorus increased significantly by 266.36%−491.91%, 140.79%−207.61%, 27.70%−62.94%, and 561.01%−1 123.26% (P < 0.05), respectively. With the improvement of soil fertility, the combined application of organic fertilizer for 2−5 years significantly increased the mass fractions of heavy metals—copper and zinc—in the soil by 376.32%−727.96% and 74.50%−166.86%, respectively (P < 0.05).
    Conclusions The combined application of organic and chemical fertilizers reduces soil pH, electrical conductivity, and water-soluble salts, and increases nutrient content, but also enhances copper and zinc accumulation. Therefore, a scientifically sound fertilization plan should be formulated based on regional soil environmental capacity and copper-zinc input flux to achieve the synergistic development of enhanced soil fertility and soil environment protection.

     

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