Ruiz-Chancho Maria José, López-Sánchez José Fermín, Schmeisser Ernst, Goessler Walter, Francesconi Kevin A, Rubio R
Departament de Química Analítica, Universitat de Barcelona, Martí i Franqués 1-11, 08028 Barcelona, Spain.
Chemosphere. 2008 Apr;71(8):1522-30. doi: 10.1016/j.chemosphere.2007.11.054. Epub 2008 Jan 7.
Concentrations of total arsenic and of arsenic species were determined by ICPMS and HPLC-ICPMS in terrestrial plant samples. The arsenic concentration in plant samples from the contaminated sites ranged from 1.14 to 98.5 mg kg(-1) (dry mass). However, a very high value, exceeding largely this range was found in a moss sample growing in the contaminated area (1750 mg kg(-1)). Plants growing in a non-contaminated area with similar geological characteristics contained 0.06-0.58 mg As kg(-1). Plant samples from different species were selected and extracted with water, water/methanol (9+1, v/v), and water/methanol (1+1, v/v). Water/methanol (9+1, v/v) was selected as extractant for the speciation analysis for all the plant samples. The extraction efficiencies ranged from 3.0% to 41.4%, with good agreement between samples from the same plant species. Arsenite and/or arsenate were found in all the plant samples. Additionally, methylarsonate (MA), dimethylarsinate (DMA), trimethylarsine oxide (TMAO) and tetramethylarsonium ion (TETRA) were also identified in several plants, and in some cases MA and DMA were the main species found. TMAO, which is usually found as a trace constituent in organisms, was also a significant arsenical in one of the studied samples, where it constituted 24% of the extracted arsenic. In the present study, the patterns of arsenic species varied with the plant species and much higher proportion of organoarsenicals was found in plants from the more contaminated sites.
采用电感耦合等离子体质谱仪(ICPMS)和高效液相色谱-电感耦合等离子体质谱仪(HPLC-ICPMS)测定陆生植物样品中总砷及砷形态的浓度。受污染场地植物样品中的砷浓度范围为1.14至98.5毫克/千克(干质量)。然而,在污染区域生长的一份苔藓样品中发现了一个极高的值,大大超出了这个范围(1750毫克/千克)。生长在具有相似地质特征的未受污染区域的植物含砷量为0.06 - 0.58毫克/千克。选取不同物种的植物样品,分别用水、水/甲醇(9 + 1,体积比)和水/甲醇(1 + 1,体积比)进行提取。水/甲醇(9 + 1,体积比)被选为所有植物样品形态分析的提取剂。提取效率在3.0%至41.4%之间,同一植物物种的样品之间具有良好的一致性。在所有植物样品中均发现了亚砷酸盐和/或砷酸盐。此外,在几种植物中还鉴定出了甲基砷酸盐(MA)、二甲基砷酸盐(DMA)、三甲基氧化砷(TMAO)和四甲基砷离子(TETRA),在某些情况下,MA和DMA是主要的砷形态。TMAO通常在生物体中作为痕量成分被发现,但在其中一个研究样品中也是一种重要的砷化合物,占提取砷的24%。在本研究中,砷形态的模式因植物物种而异,在污染程度较高的场地的植物中发现有机砷的比例要高得多。
