Microbiologically modified bioorganic fertilizer and metal-tolerant Bacillus sp. MN54 regulate the nutrient homeostasis and boost phytoextraction efficiency of mustard (Brassica juncea L.) in nickel-contaminated soil

IF 5.2 2区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY
Muhammad Naveed, Iqra Abid, Farhat Mustafa, Hamaad Raza Ahmad, Saud Alamri, Manzer H. Siddiqui, Alanoud T. Alfagham, Adnan Mustafa
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引用次数: 0

Abstract

Nickel (Ni) pollution in soil is a major environmental challenge to global food security necessitating its effective remediation. In this regard using plant growth promoting rhizobacteria (PGPR) and bioorganic fertilizers (BOF) to increase the effectiveness of Ni phytoextraction together with hyper-accumulator plants is an effective strategy. Thus, the aim of this study was to assess how BOF, alone or in combination with Bacillus sp. MN54 (herein after referred to as BS), promotes the growth and detoxifies Ni in Brassica juncea L. under both non-contaminated and Ni-contaminated soil conditions. The experimental design included both non-spiked and Ni-spiked soils (with two Ni concentrations: 50 and 100 mg kg−1), with the addition of BS and BOF at two different application rates (1% and 2%). Results showed that Ni negatively affected the growth attributes and yield of Brassica juncea but the integrated incorporation of BOF and BS significantly improved plant growth and physiological attributes. However, Ni stress increased antioxidant enzyme activities and triggered the production of reactive oxygen species in the plants. Likewise, the highest increases in Ni bioconcentration factor (19.9%, 72.83%, and 74.2%), Ni bioaccumulation concentration (30.6%, 327.4%, and 366.8%), and Ni translocation factor (22.2%, 82%, and 69%) were observed in soils supplemented with 2% BOF and BS under non-contaminated, 50 mg kg−1, and 100 mg kg−1 Ni-stressed conditions, respectively. The enhanced plant growth with BS and BOF under Ni stress suggested that both could efficiently promote Ni phytoextraction and simultaneously improve soil health in Ni-contaminated soil. This highlighted their potential as sustainable soil amendments for remediating Ni-contaminated soils, promoting resilient plant growth and supporting long-term ecosystem recovery.

微生物改性生物有机肥和耐金属芽孢杆菌MN54调节镍污染土壤中芥菜(Brassica juncea L.)的养分平衡并提高其植物提取效率
土壤中的镍(Ni)污染是全球粮食安全面临的一项重大环境挑战,因此必须对其进行有效修复。在这方面,使用植物生长促进根瘤菌(PGPR)和生物有机肥(BOF)来提高镍的植物萃取效果,并与高积累植物一起使用是一种有效的策略。因此,本研究的目的是评估生物有机肥料(BOF)单独或与芽孢杆菌 MN54(以下简称 BS)结合使用时,如何在非污染和镍污染土壤条件下促进甘蓝型大白菜(Brassica juncea L.)的生长并对镍进行解毒。实验设计包括无加镍土壤和加镍土壤(两种镍浓度:50 和 100 mg kg-1),以两种不同的施用率(1% 和 2%)添加 BS 和 BOF。结果表明,镍对甘蓝的生长特性和产量有负面影响,但综合添加生物碱和生物硫化物则能显著改善植物的生长和生理特性。然而,镍胁迫增加了植物体内的抗氧化酶活性,并引发活性氧的产生。同样,在无污染、50 毫克/千克和 100 毫克/千克镍胁迫条件下,添加了 2% BOF 和 BS 的土壤中镍的生物富集因子(19.9%、72.83% 和 74.2%)、镍的生物累积浓度(30.6%、327.4% 和 366.8%)和镍的易位因子(22.2%、82% 和 69%)的增幅分别最高。在镍胁迫条件下,BS 和 BOF 可促进植物生长,这表明这两种肥料可有效促进镍的植物萃取,同时改善镍污染土壤的健康状况。这凸显了它们作为可持续土壤改良剂的潜力,可用于修复镍污染土壤,促进植物恢复性生长,支持生态系统的长期恢复。
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来源期刊
Chemical and Biological Technologies in Agriculture
Chemical and Biological Technologies in Agriculture Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
6.80
自引率
3.00%
发文量
83
审稿时长
15 weeks
期刊介绍: Chemical and Biological Technologies in Agriculture is an international, interdisciplinary, peer-reviewed forum for the advancement and application to all fields of agriculture of modern chemical, biochemical and molecular technologies. The scope of this journal includes chemical and biochemical processes aimed to increase sustainable agricultural and food production, the evaluation of quality and origin of raw primary products and their transformation into foods and chemicals, as well as environmental monitoring and remediation. Of special interest are the effects of chemical and biochemical technologies, also at the nano and supramolecular scale, on the relationships between soil, plants, microorganisms and their environment, with the help of modern bioinformatics. Another special focus is the use of modern bioorganic and biological chemistry to develop new technologies for plant nutrition and bio-stimulation, advancement of biorefineries from biomasses, safe and traceable food products, carbon storage in soil and plants and restoration of contaminated soils to agriculture. This journal presents the first opportunity to bring together researchers from a wide number of disciplines within the agricultural chemical and biological sciences, from both industry and academia. The principle aim of Chemical and Biological Technologies in Agriculture is to allow the exchange of the most advanced chemical and biochemical knowledge to develop technologies which address one of the most pressing challenges of our times - sustaining a growing world population. Chemical and Biological Technologies in Agriculture publishes original research articles, short letters and invited reviews. Articles from scientists in industry, academia as well as private research institutes, non-governmental and environmental organizations are encouraged.
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