耕作措施与有机肥施用对旱地麦田土壤重金属污染特征的影响

Effects of tillage measures and organic manure on soil heavy metal pollution in dryland wheat fields

  • 摘要: 农田土壤重金属污染是当前突出的环境污染问题之一。为揭示不同耕作措施与长期施用有机肥对土壤重金属积累的影响及其生态效应, 本研究以始于2007年的旱地小麦长期定位耕作与施肥试验为基础, 分析了深翻+化肥(T)、深翻+鸡粪+化肥(TM)、免耕+化肥(NT)、免耕+鸡粪+化肥(NTM) 4种处理对旱地小麦0~20 cm土壤pH、电导率(EC)、有机质和全氮含量以及Pb、Cd、As、Hg、Cr、Cu、Zn和Ni等重金属含量的影响, 并通过地累积指数法和潜在生态风险指数法对土壤重金属污染状况及生态风险进行评价。结果表明: 与T处理相比, TM、NT和NTM处理土壤pH显著降低1.10%~2.56%, 电导率提高6.19%~57.08%; NTM处理下土壤有机质含量较T处理显著提高33.22%。施鸡粪显著影响土壤重金属含量, 其中TM和NTM处理土壤总Hg含量较T处理分别显著提高123.60%和150.56%, 有效态Cu、Zn和Cd含量分别显著增加16.89%~23.48%、219.04%~520.99%和2.90%~20.29%。耕作方式同样显著影响各土壤重金属含量, NTM处理下总Hg、总Zn、有效Cu、有效Zn、有效Cd含量较TM处理分别显著提高12.06%、8.11%、5.64%、94.65%和16.90%, 总Pb、有效Pb和总Cr含量分别显著降低63.74%、70.00%和3.14%。4个处理Hg的潜在生态风险指数最高, 表现为T(32.36)<NT(41.45)<TM(72.36)<NTM(81.09), 其他重金属为轻微级别; 综合潜在生态风险污染指数表现为T(79.05)<NT(82.33)<TM(115.27)<NTM(120.00), 为轻度风险级别。综上, 长期免耕和鸡粪施用能够显著降低土壤pH, 增加电导率及全氮和有机质含量, 并提高Cu、Zn和Cd的有效性; 其中, 鸡粪处理中Hg的潜在生态风险指数为中等-强级别, 其他重金属为轻微级别, 综合潜在生态风险污染指数为轻度风险级别, 因此在农业生产过程中应加强有机肥的安全施用技术。

     

    Abstract: Heavy metal pollution in agricultural soils is a crucial environmental problem. In this study, we investigated the effects of different tillage measures and organic fertilizers on the accumulation of heavy metals in dryland wheat fields and their ecological efficiency based on a long-term tillage and fertilizer experiment (since 2007) with wheat cultivation. Four treatments were applied: deep tillage + chemical fertilizer (T), deep tillage + chicken manure + chemical fertilizer (TM), no tillage + chemical fertilizer (NT), and no tillage + chicken manure + chemical fertilizer (NTM). The effects of these treatments on the physicochemical properties of soil at 0–20 cm depth (pH, electric conductivity, organic matter content, and total nitrogen content) and heavy metals (Pb, Cd, As, Hg, Cr, Cu, Zn, and Ni) contents were investigated. The heavy metal geoaccumulation index and potential ecological risk indice were used to evaluate heavy metal pollution and ecological risk. The results showed that TM, NT, and NTM treatments significantly decreased soil pH by 1.10% to 2.56% and increased soil electric conductivity by 6.19% to 57.08% compared to T. Soil organic matter content increased by 33.22% in NTM treatment compared to that in T treatment. The application of chicken manure significantly affected soil heavy metals contents. The total Hg content of soil was significantly increased by 123.60% and 150.56% in TM and NTM treatments compared with that in T treatment, and the available Cu, Zn, and Cd contents increased significantly by 16.89% to 23.48%, 219.04% to 520.99%, and 2.90% to 20.29%, respectively. The tillage measure also had a significant effect on soil heavy metals contents. Compared to those under TM treatment, the contents of total Hg, total Zn, available Cu, available Zn, and available Cd showed significant increases of 12.06%, 8.11%, 5.64%, 94.65%, and 16.90% under NTM treatment, respectively; whereas the contents of total Pb, available Pb, and total Cr contents significantly reduced by 63.74%, 70.00%, and 3.14%, respectively. The Hg content showed the highest potential ecological risk index of all treatments, expressed as T (32.36) < NT (41.45) < TM (72.36) < NTM (81.09). Other heavy metals were at a low level, with the comprehensive potential ecological risk pollution index expressed as T (79.05) < NT (82.33) < TM (115.27) < NTM (120.00). In summary, long-term no-tillage and chicken manure application significantly decreased pH; increased electric conductivity, contents of organic matter and total nitrogen; and increased Cu, Zn, and Cd availability. The individual and potential ecological risk indices for Hg pollution were at the moderate to strong level when treated with chicken manure, whereas the other heavy metals were at a light level. Moreover, the composite and potential ecological risk indices differed slightly, indicating the requirement to strengthen the safe application of organic fertilizers.

     

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