施用粉煤灰和油棕空果串后矿区再生土壤性质、植物生长和植物体内金属积累的变化

Q3 Social Sciences

Journal of Degraded and Mining Lands Management Pub Date : 2024-04-01 DOI:10.15243/jdmlm.2024.113.5767

A. R. Saidy, B. J. Priatmadi, M. Septiana, Ratna Ratna, Ismet Fachruzi, Hairil Ifansyah, A. Hayati, Muhammad Mahbub, Abdul Haris

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引用次数: 0

摘要

再生采矿土壤（RMS）的特点是肥力低、pH 值偏酸、重金属含量高。因此，添加改良剂对植物生长至关重要。因此，本研究测量了在同时施用粉煤灰（CFA）和油棕空果穗（EFBOP）的情况下，RMS 特性、植物生长和植物体内金属积累的变化。在第一项实验中，在 RMS 中添加不同水平的 CFA（0、75 和 150 毫克/公顷-1）和 EFBOP（0、25 和 50 毫克/公顷-1），然后在持水率为 70% 的条件下培养 45 天，以确定它们对土壤性质变化的影响。在第二项实验中，在温室中测试了四种处理：对照、CFA、EFBOP 和 CFA+EFBOP ，以量化它们对植物生长和金属积累的影响。研究结果表明，同时施用 CFA 和 EFBOP 会显著影响 RMS 的容重、pH 值、矿质氮（NH4+ 和 NO3-）、可利用磷以及可交换钙和镁。施用 CFA 会使可交换铝增加 82-160%，而 EFBOP 则会使可交换铝减少 24-119%。施用 CFA 会降低 CEC，而使用 EFBOP 则会提高 CEC。同时施用 CFA 和 EFBOP 后，植物生长速度加快。向土壤中添加 CFA 会增加植物组织中的金属含量，但 EFBOP 的存在会降低植物组织中的金属浓度。这些结果凸显了 CFA 和 EFBOP 作为有价值的土壤改良剂的潜力。

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Changes in properties of reclaimed-mine soil, plant growth, and metal accumulation in plants with application of coal fly ash and empty fruit bunches of oil palm

Reclaimed-mining soil (RMS) is characterized by low fertility, acidic pH, and high heavy metal contents. As a result, adding amendments becomes essential to support plant growth. Therefore, this research measured alterations in the characteristics of RMS, plant growth, and metal accumulation in plants with the co-application of coal fly ash (CFA) and empty fruit bunches of oil palm (EFBOP). In the first experiment, various levels of CFA (0, 75, and 150 Mg ha-1) and EFBOP (0, 25, and 50 Mg ha-1) were added to the RMS and then incubated at 70% water holding capacity for 45 days to determine their effect on changes in soil properties. In the second experiment, four treatments: control, CFA, EFBOP, and CFA+EFBOP were tested in the greenhouse to quantify their effects on the growth and metal accumulation of plants. Results of the study showed that the co-application of CFA and EFBOP significantly affected bulk density, pH, mineral nitrogen (NH4+ and NO3-), available phosphorus, and exchangeable Ca and Mg in RMS. CFA application increased exchangeable Al by 82-160%, while EFBOP resulted in a decrease of 24-119%. CEC decreased with CFA application and increased with the use of EFBOP. Plant growth increased with the co-application of CFA and EFBOP. The addition of CFA to soils results in increasing metal contents in plant tissue; however, the presence of EFBOP reduced the concentrations of metal in plant tissue. These results highlight the potential of CFA and EFBOP, which are industrial and agricultural wastes, as valuable soil amendments.

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来源期刊

Journal of Degraded and Mining Lands Management Environmental Science-Nature and Landscape Conservation

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

4 weeks