碳酸钙和壳聚糖联用对高pH值石灰性土壤砷污染的钝化

    Passivation effects of calcium carbonate and chitosan on arsenic pollution in high pH calcareous soil

    • 摘要: 为明确碳酸钙-壳聚糖联用对高pH值石灰性土壤砷污染的钝化效果,该研究采用田间As污染模拟试验,设置对照(CK)、砷污染(As)、砷污染+碳酸钙(As+Ca)、砷污染+碳酸钙+壳聚糖(As+Ca+C)4个处理。研究了碳酸钙和壳聚糖添加对As污染石灰性土壤酶活性影响,污染土壤中As的形态变化,以及As在供试作物玉米体内的迁移特征。结果表明:As污染石灰性土壤上添加碳酸钙(Ca)有利于提高土壤酶活性,碳酸钙和壳聚糖(Ca+C)联用后,土壤脲酶、纤维素酶和过氧化氢酶活性分别显著提高了52.35%、74.92%、8.72%(P<0.05)。高pH值石灰性土壤外源As的主要存在形态为残渣态,且残渣态占总砷含量的60%以上。与As处理相比,As+Ca和As+Ca+C处理的水溶态砷分别显著降低17.15%和27.03%(P<0.05);As+Ca+C处理的钙-砷、铁-砷和铝-砷分别显著升高了13.97%、14.24%、13.85%(P<0.05)。As+Ca和As+Ca+C钝化处理对As钝化率分别达9.78%和18.37%。As污染土壤上种植玉米会导致各部位As积累的增加,但Ca+C联用使玉米籽粒、根、茎、叶的As含量显著降低50%、13.98%、16.51%、14.94%(P<0.05)。可见,Ca+C钝化剂联用方法可应用于高pH值石灰性土壤As污染修复。

       

      Abstract: Abstract: Arsenic (As) is highly toxic in its inorganic form, being one of five major pollution elements released by the Ministry of Ecological Environment in China. National survey of soil pollution in 2014 showed that the soil in China was high 2.7% over the standard rate of arsenic. Arsenic in the polluted soil was easily absorbed by crops and accumulated in the edible parts. This pollution can lead to the decline of crop production, even threaten to human health via the food chain. In order to eliminate toxic effects of arsenic pollution in soil, passivators are often used to reduce arsenic bioavailability. In heavy metal pollution of acid soil, calcium carbonate is normally selected for the passivation and remediation. However, it is lacking research on whether the addition of calcium carbonate to high pH calcareous soil can passivate arsenic pollution, especially on the combination of calcium carbonate and chitosan. Therefore, it is necessary to solve the problem of arsenic pollution in calcareous soil with high pH value, particularly the passivation effect of calcium carbonate combined with chitosan. In this study, a field experiment of arsenic pollution was conducted for the treatment and remediation of arsenic pollution in calcareous soil with high pH value. Four treatments were, control (CK: no exogenous arsenic and passivator), arsenic pollution (As: only exogenous arsenic), arsenic pollution + calcium carbonate (As + Ca: exogenous arsenic and calcium carbonate), arsenic pollution + calcium carbonate + chitosan (As + Ca + C: exogenous arsenic and calcium carbonate and chitosan). An attempt was made to investigate the effects of calcium carbonate and chitosan addition on the enzyme activity of arsenic -polluted calcareous soil, the fractions changes of arsenic in soil and the migration characteristics of arsenic in corn. The results showed that the activities of soil urease, cellulase and catalase significantly increased by 52.35%、74.92% and 8.72%, respectively, after the combined use of calcium carbonate and chitosan (P<0.05), compared with arsenic treatment. Exogenous arsenic mainly distributed in soil in the residual fraction, more than 60% of the total arsenic. Compared with arsenic treatment, the addition of calcium carbonate only, or together with chitosan, can significantly reduce the water-soluble arsenic by 17.15% and 27.03% (P<0.05), respectively. As+Ca+C treatment remarkably increased calcium arsenic, iron arsenic and aluminum arsenic by 13.97%、14.24% and 13.85% (P<0.05), respectively, where the passivation rates of adding Ca and Ca+C to arsenic contamination of calcareous soil were 9.78% and 18.37% (P<0.05), respectively. The accumulation of arsenic in crops parts increased, after maize was planted on arsenic polluted soil. Compared with arsenic treatment, calcium carbonate and chitosan were used together significantly reduce the arsenic content in corn seed, root, stem and leaf by 50%、13.98%、16.51% and 14.94% (P<0.05). It can be concluded that the combination of calcium carbonate and chitosan can play a better role in the passivation of arsenic pollution in calcareous soil with high pH value than the single use of calcium carbonate. Therefore, maize planting combined with the application of the proposed passivator can realize the safe production in high pH calcareous soil polluted by arsenic.

       

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