尼日利亚东南部和中北部栽培黄瓜和埃塞俄比亚茄果实样品中植物化学和选定重金属含量的比较评价

C. C. Aniobi, O. Okeke, E. Ezeh, H. Okeke, K. Nwanya
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The range of mean \nvalues of flavonoids, terpenoids, saponins and glycosides in the S. aethiopicum L. fruit samples from the \ntwo studied regions were 0.50 - 0.57, 0.53 - 1.26, 0.44 - 0.78, 1.12 - 1.93 and \n0.40 - 0.50 mg/g respectively. The range of mean values of flavonoids, alkaloids, \nterpenoids, saponins and glycosides in the C. \nsativus L. fruit samples from the \ntwo studied regions of Nigeria were 1.27 - 1.69, 0.53 - 0.55, 0.96 - 1.51, 0.41 \n- 0.83 and 0.90 - 1.74 mg/g respectively. The range of mean vales of Pb, Cd, \nand Cu in the S. aethiopicum L. fruit \nsamples from the two studied regions were 0.15 - 0.24, 0 - 0.01, 0.78 - 1.12 \nμg/g respectively. 0.31 - 0.40, 0.02 - 0.05 and 0.62 - 0.96 μg/g were the range of mean values of Pb, Cd \nand Cu respectively in the C. sativus L. fruit samples from the two studied regions of Nigeria. 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引用次数: 0

摘要

采用标准分析程序和仪器,对尼日利亚东南部和中北部地区种植的埃塞俄比亚茄(Solanum aethiopicum L.)和黄瓜(Cucumis sativus L.)果实样品中的植物化学和重金属含量进行了比较评估。采用原子吸收分光光度计对水果样品进行湿消化后的重金属(Pb、Cd和Cu)测定。检测到的五种植物化学物质(类黄酮、生物碱、萜类、皂苷和糖苷)在尼日利亚东南部和中北部地区所调查的水果样品中以不同数量存在。2个研究区青松果实中总黄酮、萜类、皂苷和苷类的平均值分别为0.50 ~ 0.57、0.53 ~ 1.26、0.44 ~ 0.78、1.12 ~ 1.93和0.40 ~ 0.50 mg/g。尼日利亚2个研究地区的sativus L.果实中总黄酮、生物碱、萜类、皂苷和糖苷的平均值分别为1.27 ~ 1.69、0.53 ~ 0.55、0.96 ~ 1.51、0.41 ~ 0.83和0.90 ~ 1.74 mg/g。2个研究区青松果实样品中Pb、Cd、Cu的平均值分别为0.15 ~ 0.24、0 ~ 0.01、0.78 ~ 1.12 μg/g。尼日利亚两个研究地区的sativus L.果实样品中Pb、Cd和Cu的平均值分别为0.31 ~ 0.40、0.02 ~ 0.05和0.62 ~ 0.96 μg/g。在调查的三种重金属中,只有Cd在尼日利亚东南部和中北部地区的C. sativus L.水果样品中达到有毒水平。因此,这是水果消费者的健康问题,包括这些水果在他们习惯的日常水果饮食。尽管本研究中所调查的水果样本显示,食用水果可获得治疗和药物方面的益处,但因此可能存在过度暴露于重金属等环境污染物的风险,特别是在由不健康的人为做法造成的污染土壤中种植这些水果。为了使水果消费者从食用这些水果中获得最大的健康益处,重金属等污染物必须处于无毒水平,而这只能通过确保这些水果样本在较少人为活动的环境中种植和收获来实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Assessment of the Phytochemical and Selected Heavy Metal Levels in Cucumis sativus L. and Solanum aethiopicum L. Fruit Sample Grown in South Eastern and North Central Regions of Nigeria Respectively
Studies were carried out to comparatively assess the phytochemical and heavy metal levels in Solanum aethiopicum L. and Cucumis sativus L. fruit samples grown in the South Eastern and North Central regions of Nigeria respectively using standard analytical procedures and instrumentation. The fruit samples were assayed for selected heavy metals (Pb, Cd and Cu) using atomic absorption spectrophotometer after wet digestion of the samples. The five detected phytochemicals (flavonoids, alkaloids, terpenoids, saponins and glycosides) were present at varying amounts in the investigated fruit samples from the South Eastern and North Central regions of Nigeria. The range of mean values of flavonoids, terpenoids, saponins and glycosides in the S. aethiopicum L. fruit samples from the two studied regions were 0.50 - 0.57, 0.53 - 1.26, 0.44 - 0.78, 1.12 - 1.93 and 0.40 - 0.50 mg/g respectively. The range of mean values of flavonoids, alkaloids, terpenoids, saponins and glycosides in the C. sativus L. fruit samples from the two studied regions of Nigeria were 1.27 - 1.69, 0.53 - 0.55, 0.96 - 1.51, 0.41 - 0.83 and 0.90 - 1.74 mg/g respectively. The range of mean vales of Pb, Cd, and Cu in the S. aethiopicum L. fruit samples from the two studied regions were 0.15 - 0.24, 0 - 0.01, 0.78 - 1.12 μg/g respectively. 0.31 - 0.40, 0.02 - 0.05 and 0.62 - 0.96 μg/g were the range of mean values of Pb, Cd and Cu respectively in the C. sativus L. fruit samples from the two studied regions of Nigeria. Of the three investigated heavy metals, only Cd was at toxic levels in the C. sativus L. fruit samples from the South Eastern and North Central regions of Nigeria. This is therefore a health concern to the fruit consumers that includes these fruits in their habitual daily fruit diets. Although the therapeutic and pharmaceutical benefits that would be derived from consuming, the investigated fruit samples has been shown in this study, there is therefore a possible risk of undue exposure to environmental pollutants such as heavy metal, especially through growing these fruits in polluted soils resulting from unwholesome anthropogenic practices. For fruit consumers to derive maximum health benefits from consuming these fruits, pollutants like heavy metals must be at non-toxic levels and this can only be achieved by ensuring that these fruits samples are grown and harvested in environments with less anthropogenic activities.
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