β 普通白菜器官中重金属浓度测定的样品来源效应。

Effect of Sample Sources on Heavy Metal Concentration Measured in Beta Vulgaris Organs.

机构信息

Environmental Engineering Program, Engineering School, Universidad El Bosque, CHOC-IZONE Research Group, Bogotá, Colombia.

Chemistry Department, Sciences School, Pontificia Universidad Javeriana, GIFUJ Research Group, Bogotá, Colombia.

出版信息

J Environ Public Health. 2022 Jun 11;2022:4968739. doi: 10.1155/2022/4968739. eCollection 2022.

DOI:10.1155/2022/4968739

PMID:35726323

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9206551/

Abstract

AIM

Heavy metal concentration [mg/dL, MP] in soil and the transfer to vegetable organs may have a sampling effect. We compared the [MP] in soil and organ samples of collected in sites with socioeconomic differences potentially inducing phytotoxicity.

MATERIALS AND METHODS

Samples of Beta vulgaris and soils ( = 4 per sample of soil and plant material) were randomly collected from two distant geographic areas (Mosquera and Sibaté, Cundinamarca, Colombia). We determined the [MP] using acid digestion of HCl : HNO [1 : 1]; the [MP] was obtained by atomic absorption in Varian AA-140 and Shimadzu AA-7000 equipment. A two-way ANOVA estimated the effect (partial 2) of the sampling site and metal type on the [MP] and transfer to the vegetable.

RESULTS

In Sibaté, the means (SD) of As_1.44 (0.18), Co_1.09 (0.51), Cr_6.21 (0.33), Ni_0.22 (0.02), and Pb_4.17 (0.87) were higher than in Mosquera (As_1.06 (0.21), Co_0.81 (0.19), Cr_3.72 (0.51), Ni_0.13 (0.04), and Pb_1.69 (0.40)) ( value <0.05). The effect of the interaction between the metal type and organs on the [MP] (0.801) in Sibaté was more meaningful than in Mosquera (0.430). Additionally, there was a strong correlation (Spearman's > 0.8, value <0.001) between [MP_soil] and [MP_plants] and between the transfer of metals to the plant and to the leaves. . The sampling location has a differential effect on the [MP] in soil and the transfer to . Given the differential effect described, the monitoring and phytoremediation strategies must be adjusted to scenarios with potentially phytotoxic conditions.

摘要

目的

土壤中的重金属浓度（mg/dL，MP）转移到蔬菜器官可能存在采样效应。我们比较了具有潜在植物毒性的社会经济差异引起的不同地点采集的土壤和器官样本中的 MP。

材料和方法

随机采集了来自两个不同地理区域（哥伦比亚昆迪纳马卡省的莫斯克拉和西巴泰）的 Beta vulgaris 和土壤样本（每个土壤和植物材料样本 4 个样本）。我们使用 HCl：HNO [1：1] 的酸消解来确定 MP；使用 Varian AA-140 和 Shimadzu AA-7000 设备通过原子吸收法获得 MP。双向方差分析估计了采样地点和金属类型对 MP 和向蔬菜转移的影响（偏 2）。

结果

在西巴泰，As_1.44（0.18）、Co_1.09（0.51）、Cr_6.21（0.33）、Ni_0.22（0.02）和 Pb_4.17（0.87）的平均值（SD）高于莫斯克拉（As_1.06（0.21）、Co_0.81（0.19）、Cr_3.72（0.51）、Ni_0.13（0.04）和 Pb_1.69（0.40））（值 <0.05）。金属类型与器官之间的相互作用对 Sibaté 中 MP（0.801）的影响比 Mosquera （0.430）更有意义。此外，在 Sibaté 中，土壤中 MP 与植物中 MP 之间以及金属向植物和叶片的转移之间存在很强的相关性（Spearman's >0.8，值 <0.001）。. 采样地点对土壤中的 MP 及其向植物的转移有差异影响。鉴于所描述的差异影响，监测和植物修复策略必须针对具有潜在植物毒性的情况进行调整。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/76b4/9206551/1f73b270ea1e/JEPH2022-4968739.001.jpg

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β 普通白菜器官中重金属浓度测定的样品来源效应。

Effect of Sample Sources on Heavy Metal Concentration Measured in Beta Vulgaris Organs.

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

目的

材料和方法

结果

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