斯洛文尼亚几个地区河岸土壤中的微量元素Trace elements in riparian soils in several localities in Slovenia |
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课程网址: | http://videolectures.net/ipssc2017_markovic_trace_elements/ |
主讲教师: | Milica Marković |
开课单位: | 贝尔格莱德大学 |
开课时间: | 2017-05-23 |
课程语种: | 英语 |
中文简介: | 河岸土壤和植被承受着来自各种人为来源的巨大压力,重金属污染严重导致多种胁迫条件。为了确定萨瓦河河岸带的污染程度,测定了土壤中重金属的生物有效性和白柳对重金属的吸收。研究区域覆盖了萨瓦河流经斯洛文尼亚的约200 km河段,包括5个采样点(Mojstrana、Radovljica、Litija、Vrhovo和Čatež)。 为了估算河岸土壤的重金属含量和潜在生态风险,分析了镉(Cd)、铬(Cr)、铜(Cu)、镍(Ni)和锌(Zn)的总浓度和生物有效浓度,并计算了风险评估代码(RAC)。RAC显示,在所有采样点,铬、铜和镍属于无风险类别(<1%),锌属于低风险类别(<10%)。根据RAC,Cd的生物可利用浓度表明Mojstrana和Radovljica场地的环境风险较高(30-50%),而Litija、Vrhovo和Čatež场地的环境风险中等(小于30%)。 为了评估白柳是否适合修复受污染的河岸土壤,根据生物浓度因子(BCF)和迁移因子(TF)评估了重金属从土壤到根和叶的浓度、迁移和积累。研究表明,柳树积累的铬和镍大部分保留在根部(TF<1),而镉、铜和锌则在叶片中积累,因为在大多数采样点,TF值大于1。我们的BCFs和TFs结果表明,白柳树限制了铬和镍的迁移,因为TF小于1,这使得该物种可能适合铬和镍的植物稳定。镉、铜和锌的BCF和TF表明柳树具有植物提取这些微量元素的潜力。 |
课程简介: | Riparian soils and vegetation are under intense pressure from various anthropogenic sources and heavy metal pollution seriously contributing to multiple stress conditions. In order to determinate the extent of pollution in the riparian zone of the Sava River, bioavailability of heavy metals in soils and metal uptake by Salix alba L. were measured. The study area covered about 200 km of the Sava River stretch, through Slovenia, and included 5 sampling sites (Mojstrana, Radovljica, Litija, Vrhovo and Čatež). To estimate heavy metal content and potential ecological risk on riparian soil, total and bioavailable concentrations of cadmium (Cd), chromium (Cr), copper (Cu), nickel (Ni), and zinc (Zn) were analysed and the Risk Assessment Code (RAC) was calculated. RAC revealed that Cr, Cu, and Ni come under the no risk category (<1%) and Zn comes under the low risk category (<10%) for the environment at all the sampling sites. According to RAC, bioavailable concentrations of Cd indicated high risk (30-50%) for the environment in Mojstrana and Radovljica sites, and medium risk (<30%) for the environment in Litija, Vrhovo, and Čatež sites. In order to assess whether Salix alba is suitable for remediation of polluted riparian soil, concentration, transfer, and accumulation of heavy metals from soil to roots and leaves in terms of the Biological Concentration Factor (BCF) and the Translocation Factor (TF) were evaluated. The study indicates that Cr and Ni accumulated by the willow trees were largely retained in roots (TF<1), whereas Cd, Cu, and Zn were accumulated in leaves, as the TF value was found to be >1 at the most sampling sites. Our results of BCFs and TFs showed that Salix alba trees limit mobility of Cr and Ni since TF is <1, which makes this species potentially suitable for phytostabilisation of chromium and nickel. BCF and TF for cadmium, copper, and zinc indicates willows potential for phytoextraction of these trace elements. |
关 键 词: | 重金属污染; 土壤中重金属; 微量元素 |
课程来源: | 视频讲座网 |
数据采集: | 2021-11-12:zkj |
最后编审: | 2021-11-12:zkj |
阅读次数: | 48 |