Macronutrients dynamics in copper-contaminated soils: Implications for hemp growth and its phytoremediation potential

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY Journal of Agriculture and Food Research Pub Date : 2024-07-14 DOI:10.1016/j.jafr.2024.101299
Xia Cheng , Lihong Guo , Chen Liu , Minghua Dong , Yan Luo , Shirui Tan , Qamar uz Zaman , Zafar Hayat , Khaled El-Kahtany , Shah Fahad , Gang Deng
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Abstract

Fibrous plants with higher biomass, particularly industrial hemp, have ability to withstand and accumulate significant quantities of heavy metals from contaminated environments. The present study aimed to evaluate the dynamics of different levels (ratios) of macronutrients nitrogen, phosphorus and potassium (NPK) viz., NPK1NPK (1:1:1); NPK2NPK (2:1:1); NPK3NPK (3:1:2); NPK4NPK (4:1:2) on hemp growth and Cu contents under various levels of Cu stress (100, 400 and 800 mg kg−1 on dry soil basis using CuSO4·5H2O). Results revealed that by increasing the Cu stress, growth and biomass decreased linearly and lipid per oxidation and enzymatic antioxidants increased. Balanced application of NPK improved the biomass and decreased the membrane damage by the modulation of malonaldehyde contents. Maximum concentration of Cu in roots (377.47 ± 4.90 mg kg−1), shoots (137.45 ± 5.60 mg kg−1) and (150.07 ± 3.57 mg kg−1) was recorded at Cu3NPK2 treatment as compared to control. Maximum translocation factor (TF) and bioaccumulation coefficients (BAC) in the shoots and leaves of hemp plant were noticed where Cu stress was applied at the rate of 100 mg kg−1. However, BAC and TF were below 1. The NPK2 treatment enhanced biomass and increase Cu content both in leaves and stems, rather than the roots. Our study suggests that balanced application of NPK is a practicable approach to alleviate Cu stress and improve biomass production of industrial hemp plant. These findings indicate that optimum nutrient supply, under Cu stress, can maximize the growth potential and overall health of industrial hemp, making it a viable option for phytoremediation and sustainable agriculture on contaminated soils.

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铜污染土壤中的宏量营养元素动态:对大麻生长及其植物修复潜力的影响
生物量较高的纤维植物,尤其是工业大麻,有能力抵御和积累污染环境中的大量重金属。本研究旨在评估不同水平(比例)的氮、磷、钾(NPK),即 NPK1NPK(1:1:1);NPK2NPK(2:1:1);NPK3NPK(3:1:2);NPK4NPK(4:1:2),在不同水平的铜胁迫(使用 CuSO4-5H2O 以干土为基准,分别为 100、400 和 800 毫克/千克)下,对大麻生长和铜含量的影响。结果表明,随着铜胁迫的增加,大麻的生长和生物量呈线性下降趋势,而脂质氧化物和酶抗氧化剂则有所增加。平衡施用氮磷钾可提高生物量,并通过调节丙二醛含量减少膜损伤。与对照相比,在 Cu3NPK2 处理中,根(377.47 ± 4.90 mg kg-1)、芽(137.45 ± 5.60 mg kg-1)和(150.07 ± 3.57 mg kg-1)中的铜浓度最高。在施加 100 毫克/千克的铜胁迫时,大麻植物嫩芽和叶片中的转移因子(TF)和生物累积系数(BAC)最大。NPK2 处理提高了生物量,增加了叶片和茎中的铜含量,而不是根部。我们的研究表明,均衡施用氮磷钾是缓解铜胁迫和提高工业大麻植物生物量的可行方法。这些研究结果表明,在铜胁迫条件下,最佳的养分供应可以最大限度地发挥工业大麻的生长潜力和整体健康水平,使其成为在受污染土壤上进行植物修复和可持续农业的可行选择。
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来源期刊
CiteScore
5.40
自引率
2.60%
发文量
193
审稿时长
69 days
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