十二种野生植物对污染土壤中有毒元素的植物修复潜力。

Phytoremediation potential of twelve wild plant species for toxic elements in a contaminated soil.

机构信息

Department of Agriculture Crop Production and Rural Environment, University of Thessaly, Greece.

University of Wuppertal, School of Architecture and Civil Engineering, Institute of Foundation Engineering, Water- and Waste Management, Laboratory of Soil- and Groundwater-Management, Pauluskirchstraße 7, 42285 Wuppertal, Germany; King Abdulaziz University, Faculty of Meteorology, Environment, and Arid Land Agriculture, Department of Arid Land Agriculture, Jeddah 21589, Saudi Arabia; University of Kafrelsheikh, Faculty of Agriculture, Department of Soil and Water Sciences, 33 516 Kafr El-Sheikh, Egypt.

出版信息

Environ Int. 2021 Jan;146:106233. doi: 10.1016/j.envint.2020.106233. Epub 2020 Nov 12.

DOI:10.1016/j.envint.2020.106233

PMID:33189990

Abstract

Green remediation of soils highly contaminated with potentially toxic elements (PTEs) can be achieved using suitable plants. Such phytoremediation procedure often takes into consideration PTE concentrations in plants only, but not produced biomass. Phytoremediation potential of certain species of wild plants for PTEs in contaminated floodplain soils has not been assessed yet. Therefore, in this work 12 native species were tested, 3 of which (Poa angustifolia, Galium mollugo, and Stellaria holostea) to our knowledge have never been used before, in a two-year pot experiment and assessed their potential as phytoremediation species. The results showed that plant PTE concentrations were dramatically elevated for Cd and Zn in Alopecurus pratensis, Arrhenatherum elatius, Bromus inermis, Artemisia vulgaris, Achillea millefolium, Galium mollugo, Stellaria holostea, and Silene vulgaris. A. vulgaris was by far the most highly PTE absorbing plant among the 12 tested in this work, especially concerning Zn, Cd, and to a lesser degree Cu and Ni. Also, among species non-studied-before, G. mollugo and S. holostea were characterized by high Zn and Cd uptake, while P. angustifolia did not. Assessing the number of harvests necessary to decrease soil PTE to half of the initial concentrations, it was found that for Cd plants would achieve site phytoremediation within 8 (A. vulgaris) to 28 (S. holostea) and 51 (G. mollugo) harvests, while for Zn, harvests ranged from 104 (A. vulgaris) to 209 (S. holostea), and 251 (A. millefolium). A clear grouping of the tested species according to their functional type was evident. Herbaceous species were collectively more efficient than grasses in PTE uptake combined by high biomass accumulation; thus, they may act as key-species in a phytoremediation-related concept. Our approach puts phytoremediation into a practical perspective as to whether the process can be achieved within a measureable amount of time. In conclusion, A. vulgaris behaved as a hyperaccumulator plant species in our heavily contaminated soil, while never-studied-before G. mollugo and S. holostea also had a hyperaccumulator behavior, especially for Cd and Zn. Although more research is necessary for conclusive results, our study is pivotal in that it would help in assessing plant species as potential phytoremediation species in heavily contaminated soils.

摘要

利用合适的植物可以实现对受潜在有毒元素（PTE）高度污染的土壤的绿色修复。这种植物修复过程通常只考虑植物中的 PTE 浓度，而不考虑产生的生物量。尚未评估某些野生植物物种对受污染洪泛区土壤中 PTE 的植物修复潜力。因此，在这项工作中，我们测试了 12 种本地物种，其中 3 种（Poa angustifolia、Galium mollugo 和 Stellaria holostea）据我们所知以前从未使用过，进行了为期两年的盆栽实验，并评估了它们作为植物修复物种的潜力。结果表明，在 Alopecurus pratensis、Arrhenatherum elatius、Bromus inermis、Artemisia vulgaris、Achillea millefolium、Galium mollugo、Stellaria holostea 和 Silene vulgaris 中，Cd 和 Zn 的植物 PTE 浓度显著升高。A. vulgaris 是迄今为止在这项工作中测试的 12 种植物中最具 PTE 吸收能力的植物，尤其是 Zn、Cd，以及在较小程度上 Cu 和 Ni。此外，在以前未研究过的物种中，G. mollugo 和 S. holostea 的 Zn 和 Cd 吸收量较高，而 P. angustifolia 则没有。评估减少土壤 PTE 至初始浓度一半所需的收获次数，结果发现，对于 Cd，植物将在 8（A. vulgaris）至 28（S. holostea）和 51（G. mollugo）次收获内实现现场植物修复，而对于 Zn，收获次数范围从 104（A. vulgaris）到 209（S. holostea）和 251（A. millefolium）。根据它们的功能类型，对测试物种进行了明显的分组。草本植物的 PTE 吸收效率普遍高于禾本科植物，结合高生物量积累；因此，它们可能在与植物修复相关的概念中充当关键物种。我们的方法将植物修复置于一个可衡量的时间内是否可以实现的实际视角。总之，A. vulgaris 在我们受严重污染的土壤中表现为超积累植物物种，而以前从未研究过的 G. mollugo 和 S. holostea 也具有超积累行为，尤其是 Cd 和 Zn。尽管还需要更多的研究来得出结论，但我们的研究具有重要意义，因为它将有助于评估植物物种作为受严重污染土壤的潜在植物修复物种。

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十二种野生植物对污染土壤中有毒元素的植物修复潜力。

Phytoremediation potential of twelve wild plant species for toxic elements in a contaminated soil.

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