低地泥炭中腐植酸对小麦植株重金属污染修复性能的影响

T. A. Kirdey
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引用次数: 0

摘要

植物修复是一种很有前途的去除土壤和水中重金属的技术。尽管在天然络合剂(如腐植酸)的影响下,栽培植物的重金属积累明显增加,但对其植物修复效率的研究却很少。在这方面,本工作的目的是阐明泥炭腐植酸配方对小麦(Triticum aestivum L.)对重金属污染的修复潜力的影响。通过模拟植被试验,研究了多金属污染对小麦修复性能的影响。植物在霍格兰营养液中生长。采用10 pmol/L的CdSO4、25和50 pmol/L的CuSO4、500和1000 pmol/L的Pb(NO3)2以不同的组合,添加或不添加泥炭腐植酸配方(0.005%),模拟了重金属的复杂暴露。腐植酸配方的植物修复效率是通过对小麦抽穗期重金属的去除来确定的。研究结果表明,腐植酸配方的植物修复效率是通过增加对重金属的吸收和减少其对植物的毒性作用来定义的。在高毒性重金属混合污染的情况下,腐植酸样品显示小麦植株对铜和镉的积累增加了1.2-2.5倍。这些数据证明了在植物修复技术中使用泥炭腐植酸制剂作为重金属植物提取的效应剂的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of humic acids in lowland peat on the remediation properties of wheat plants against heavy metal contamination
Phytoremediation is a promising technology for removing heavy metals from soil and water. Despite the pronounced increase in heavy metal accumulation by cultivated plants under the influence of naturally occurring complexing agents, such as humic acids, their efficiency in phytoremediation has been poorly studied. In this regard, the aim of this work is to elucidate the effect of peat humic acid formulations on the remediation potential of wheat plants (Triticum aestivum L.) against heavy metal contamination. The influence of polymetallic pollution on the remediation properties of wheat was studied in model vegetation experiments using a culture solution. Plants were grown in a Hoagland nutrient solution. A complex exposure to heavy metals was simulated using 10 pmol/L CdSO4, 25 and 50 pmol/L CuSO4, 500 and 1000 pmol/L Pb(NO3)2 in various combinations with or without the addition of a peat humic acid formulation (0.005%).The phytoremediation efficiency of the humic acid formulation was determined by the removal of heavy metals during the heading stage of wheat growth. The research results showed that the phytoremediation efficiency of the humic acid formulation is defined by both an increase in the absorption of heavy metals and a decrease in their toxic action on the plants. In the case of mixed contamination of the solution with highly toxic heavy metals, the samples with humic acids showed a 1.2-2.5-fold increase in the accumulation of copper and cadmium by wheat plants. The data demonstrates the possibility of using the formulation of peat humic acids in phytoremediation technologies as an effector of heavy metal phytoextraction.
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