重金属污染土壤中鼠尾草挥发油重金属积累及化学成分研究

V. Angelova, Mendeleev street Plovdiv Bulgaria Agricultural University-Plovdiv
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The essential oil of the Salvia officinalis L. was obtained by steam distillation in laboratory conditions which was analyzed for heavy metals and its chemical composition was determined. Salvia officinalis L. is a plant which is tolerant to heavy metals and can be grown on contaminated soils. Favorable is also the fact that heavy metals do not influence the development of the Salvia officinalis L. as well as on the quality and quantity of the essential oil. Twenty-nine components were identified in the oil. The main compounds of essential oi were as follows: α-thujone (15.927-18.912), camphor (16.839-17.826), trans-thujone (5.379-11.575), 1,8-cineole (6.891-7.625), camphene (6.024-6.514), α-humulene (5.395-6.098), borneol (4.591-5.394), (e)-β-caryophyllene (3.868-4.576), limonene (3.458-4.612), bornyl acetate (1.621-3.194), viridiflorene (2.449-5.633), β-pinene (2.174-2.223), allo-aromadendrene (2.034-4.777). 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引用次数: 0

摘要

通过对比研究,我们可以确定鼠尾草油中重金属的含量和化学成分,并确定鼠尾草在重金属污染土壤上生长的可能性。试验田分别位于距离污染源保加利亚普罗夫迪夫附近的有色金属厂0.5公里和15公里的不同距离。在开花阶段采集鼠尾草植株。采用电感耦合等离子体分光光度法(ICP)测定了丹参根、茎、叶和花序中重金属的含量。在实验室条件下,采用水蒸气蒸馏法提取丹参精油,并对其进行重金属含量分析和化学成分测定。鼠尾草(Salvia officinalis L.)是一种耐重金属的植物,可在污染土壤上生长。有利的是,重金属不影响鼠尾草的生长,也不影响鼠尾草精油的质量和数量。在油中鉴定出29种成分。挥发油的主要化合物有:α-图琼(15.927-18.912)、樟脑(16.839-17.826)、反式图琼(5.379-11.575)、1,8-桉树脑(6.891-7.625)、樟烯(6.024-6.514)、α-葎草烯(5.395-6.098)、冰片(4.591-5.394)、(e)-β-石竹烯(3.868-4.576)、柠檬烯(3.458-4.612)、龙脑酯(1.621-3.194)、绿芴(2.449-5.633)、β-蒎烯(2.174-2.223)、异芳香腺烯(2.034-4.777)。受重金属污染影响,精油中柠檬烯、醋酸龙脑酯和邻芳香腺烯含量下降,α-图琼、反式图琼、樟脑和绿二芴含量显著增加。在重金属污染土壤上生长的鼠尾草叶片中α-图琼、反式图琼和樟脑含量增加,表明其精油品质有所改善。鼠尾草精油对污染地区的农民来说是一种有价值的产品。
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HEAVY METAL ACCUMULATION AND CHEMICAL COMPOSITION OF ESSENTIAL OILS OF SALVIA OFFICINALIS CULTIVATED ON HEAVY METAL CONTAMINATED SOILS
Comparative research has been conducted to allow us to determine the content of heavy metals and chemical composition of Salvia officinalis L oils, as well as to identify the possibility of Salvia officinalis L. growth on soils contaminated by heavy metals. The experimental plots were situated at different distances of 0.5 km and 15 km, respectively, from the source of pollution the Non-Ferrous-Metal Works (MFMW) near Plovdiv, Bulgaria. On reaching flowering stage the Salvia officinalis L plants were gathered. The content of heavy metals in different parts of Salvia officinalis L. (roots, stems, leaves and inflorescences) was determined by ICP. The essential oil of the Salvia officinalis L. was obtained by steam distillation in laboratory conditions which was analyzed for heavy metals and its chemical composition was determined. Salvia officinalis L. is a plant which is tolerant to heavy metals and can be grown on contaminated soils. Favorable is also the fact that heavy metals do not influence the development of the Salvia officinalis L. as well as on the quality and quantity of the essential oil. Twenty-nine components were identified in the oil. The main compounds of essential oi were as follows: α-thujone (15.927-18.912), camphor (16.839-17.826), trans-thujone (5.379-11.575), 1,8-cineole (6.891-7.625), camphene (6.024-6.514), α-humulene (5.395-6.098), borneol (4.591-5.394), (e)-β-caryophyllene (3.868-4.576), limonene (3.458-4.612), bornyl acetate (1.621-3.194), viridiflorene (2.449-5.633), β-pinene (2.174-2.223), allo-aromadendrene (2.034-4.777). The compounds in the essential oil that decreased as a result of heavy metals pollution are limonene, bornyl acetate and allo-aromadendrene, while the α-thujone, trans-thujone, camphor and viridiflorene significantly increased. Observed increase of the levels of α-thujone, trans-thujone, and camphor level in the leaves of sage grown on heavy metals polluted soil indicated an improvement of the essential oil quality. The essential oil of Salvia officinalis L. can be a valuable product for the farmers from the polluted regions.
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