马齿苋对添加土壤铅的响应：它是否适合作为潜在的植物修复物种？

The Response of Purslane () to Soil-Added Pb: Is It Suitable as a Potential Phytoremediation Species?

作者信息

Thalassinos Georgios, Petropoulos Spyridon A, Antoniadis Vasileios

机构信息

Department of Agriculture Crop Production and Rural Environment, School of Agricultural Sciences, University of Thessaly, Fytokou Street, 384 46 Volos, Greece.

出版信息

Toxics. 2023 Feb 6;11(2):153. doi: 10.3390/toxics11020153.

DOI:10.3390/toxics11020153

PMID:36851028

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9965759/

Abstract

Soils with high lead (Pb) levels can be decontaminated with the use of tolerant plants. Their effectiveness may be increased with added soil N due to boosted plant vigor, but such an agronomic practice has not been widely reported so far. In this work, purslane () was tested in a pot experiment as a potential phytoremediation species using soil spiked with Pb at doses of 0, 150, 300, 600, and 900 mg kg (referred to as Pb(0), Pb(150), Pb(300), Pb(600), and Pb(900), respectively) with added N (referred to as N(1); at 300 kg N ha) and without added N (N(0)). We found that added Pb did not cause any adverse effects on plant growth (height, and aerial and root dry biomass) and physiological parameters, which were boosted with added N. Lead plant concentration and uptake significantly increased with added N, a finding that confirms our hypothesis. The number of necessary harvests of purslane in order to reduce soil Pb to half its initial concentration was also calculated and found to decrease with added N, being 131 at Pb(900)N(1). Although results indicate the potential of purslane as a phytoremediation species, further research is needed under real field conditions.

摘要

铅（Pb）含量高的土壤可以通过种植耐性植物来进行净化。由于植物活力增强，添加土壤氮可能会提高其有效性，但到目前为止，这种农艺做法尚未得到广泛报道。在这项工作中，马齿苋（）在盆栽试验中作为一种潜在的植物修复物种进行了测试，使用添加了氮（称为N(1)；300千克氮/公顷）和未添加氮（N(0)）的土壤，分别添加了剂量为0、150、300、600和900毫克/千克的铅（分别称为Pb(0)、Pb(150)、Pb(300)、Pb(600)和Pb(900)）。我们发现，添加铅对植物生长（高度、地上部和根部干生物量）和生理参数没有造成任何不利影响，而添加氮则促进了这些参数。随着氮的添加，植物体内铅的浓度和吸收量显著增加，这一发现证实了我们的假设。还计算了将土壤铅含量降低到其初始浓度一半所需的马齿苋收获次数，发现随着氮的添加次数减少，在Pb(900)N(1)时为131次。尽管结果表明马齿苋作为植物修复物种具有潜力，但在实际田间条件下还需要进一步研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e49/9965759/d2fb14842629/toxics-11-00153-g001.jpg

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马齿苋对添加土壤铅的响应：它是否适合作为潜在的植物修复物种？

The Response of Purslane () to Soil-Added Pb: Is It Suitable as a Potential Phytoremediation Species?

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