Phytoremediation of CdS/Te quantum dots by Ocimum basilicum in the presence of EDTA

IF 3 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL Journal of Environmental Health Science and Engineering Pub Date : 2022-09-14 DOI:10.1007/s40201-022-00822-1
Luis Alamo-Nole, Barbara Estrella-Martinez
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Abstract

Purpose

The use of nanomaterials like quantum dots (QDs) with optical properties has increased in the last decade because of their electronics, medicine, and environmental applications. The lack of recycling and appropriate disposal causes these materials to be considered new emerging contaminants. In this research, the extraction and translocation (phytoextraction) of cadmium as QDs by Ocimum basilicum “basil” in the presence of EDTA (chelating agent) was studied. For edible plants are essential to know where the contaminants are located to minimize human consumption.

Methods

In this work, the phytoextraction, distribution, and translocation of cadmium (under ionic solution-CdIS and CdS/Te QDs) at 25 and 50 mg/kg-soil and in the presence of 1,000 mg/kg-soil EDTA was studied in O. basilicum (a commercialized culinary herb) for three and six weeks. Basil seedlings were grown in an environmentally controlled chamber at 24-28o C and 12/12 hours periods of light and darkness.

Results

The highest cadmium concentration was found in the roots from where it is translocated to stems and leaves. CdS/Te QDs at low concentration (25 mg/kg and 3 weeks of exposure) had the highest translocation factor, indicating that cadmium’s nanocrystal (QDs) forms can affect the phytoextraction mechanism. The highest bioconcentration of cadmium was reached at a high contaminant concentration.

Conclusion

The bioconcentration factors confirm that O. basilicum phytoextracts cadmium from soils contaminated with CdS/Te QDs and CdIS. The bioconcentration factors of cadmium (under both species CdS/Te QDs and CdIS) increase in the presence of EDTA. The bioconcentration and translocation factors suggest that consuming “basil” from contaminated soils with CdS/Te QDs at low concentrations increases the exposition to this metal.

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EDTA存在下罗勒对CdS/Te量子点的植物修复
在过去十年中,由于量子点等具有光学特性的纳米材料在电子、医学和环境方面的应用,它们的使用有所增加。缺乏回收和适当的处理导致这些材料被认为是新出现的污染物。本研究研究了EDTA(螯合剂)存在下罗勒对镉作为量子点的提取和转运(植物萃取)。对于食用植物来说,了解污染物的位置是至关重要的,以尽量减少人类的消费。方法在25、50 mg/kg土壤和1000 mg/kg土壤EDTA存在的条件下,分别用离子溶液- cdis和CdS/Te QDs对芫花中镉的提取、分布和转运进行了3周和6周的研究。罗勒幼苗在环境控制的室内生长,温度为24-28℃,光照和黑暗周期为12/12小时。结果镉在根中含量最高,镉从根中转运到茎和叶中。低浓度(25 mg/kg,暴露3周)cd /Te量子点转运因子最高,表明镉的纳米晶体(QDs)形态可以影响植物的提取机制。当污染物浓度较高时,镉的生物浓度最高。结论从cd /Te QDs和CdIS污染的土壤中提取镉的生物富集因子证实了basilicum的存在。在EDTA的存在下,镉的生物富集因子(cd /Te QDs和CdIS)增加。生物浓度和转运因子表明,食用低浓度cd /Te量子点污染土壤中的罗勒会增加对该金属的暴露。
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来源期刊
Journal of Environmental Health Science and Engineering
Journal of Environmental Health Science and Engineering ENGINEERING, ENVIRONMENTAL-ENVIRONMENTAL SCIENCES
CiteScore
7.50
自引率
2.90%
发文量
81
期刊介绍: Journal of Environmental Health Science & Engineering is a peer-reviewed journal presenting timely research on all aspects of environmental health science, engineering and management. A broad outline of the journal''s scope includes: -Water pollution and treatment -Wastewater treatment and reuse -Air control -Soil remediation -Noise and radiation control -Environmental biotechnology and nanotechnology -Food safety and hygiene
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