评估香根草在越南边和空军基地二恶英植物修复中的生物累积和转移潜力

Thi Thuy Huong Ngo, Thi Thanh Thao Nguyen
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引用次数: 0

摘要

二恶英(多氯二苯并对二恶英和多氯二苯并呋喃)是众所周知的有毒有机污染物,会在环境和食物链中累积,对人类健康和生态系统造成危害。由于美越战争期间使用了受二恶英污染的除草剂,越南有几个热点地区的二恶英含量非常高。近几十年来,植物修复因其低成本和环境友好方面的优势而得到越来越多的发展。香根草是一种既能修复有机物又能修复无机物的植物。本研究在越南边和空军基地进行了一项田间试验,调查了香根草(Chrysopogon zizanioides)从受二恶英污染的土壤中吸收和转移二恶英的情况。实验区被划分为六个小区,其中三个种植香根草,三个作为对照小区,二恶英的初始浓度如下:FC2>FC3>FC1>FT2>FT3>FT1。香根草在二恶英污染的土壤上生长良好,生物量高,香根草根部的二恶英含量与 FT3 在整个实验期间以及 FT1 和 FT2 在第一年的二恶英含量呈正相关(r2 = 0.67;p1)。二恶英从根部向嫩芽的转移明显低于 BAF,且小于 1 (TF<1),与其他时间相比,第一次和第二次采样时间的二恶英转移值最高。二恶英的浓度并不能作为衡量其生物利用率的可靠指标,土壤和微生物的物理化学特性等其他因素也会影响二恶英的生物利用率。我们的研究旨在帮助人们深入了解香根草积累和转移二恶英的能力,从而为二恶英的修复提供帮助。此外,考虑到优化种植技术、生长条件和长期可持续性,我们设想将我们的研究成果转化为其他领域的实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing the bioaccumulation and translocation potential of vetiver grass for dioxins phytoremediation in Bien Hoa airbase, Viet Nam
Dioxins (PCDD/Fs) are well-known toxic organic pollutants that accumulate in the environment and the food chain, imposing a risk to human health and the ecosystem. Due to the use of dioxin-contaminated herbicides during the US-Vietnam War, there are several hotspots in Vietnam with very high levels of dioxins. Phytoremediation has been increasingly developed in recent decades because of its low cost and environmental-friendly aspect. Vetiver grass is a plant that can remediate both organic and inorganic agents. In this study, the uptake and translocation of dioxins in Vetiver grass (Chrysopogon zizanioides) from the dioxin-contaminated soil was investigated in a field experiment on the Bien Hoa airbase, Vietnam. An experimental area was divided into six plots, of which three were planted with Vetiver grass and three served as control plots, with the initial dioxin concentrations as following: FC2>FC3>FC1>FT2>FT3>FT1. Vetiver grass had grown well on the dioxin-contaminated soils, yielding high biomass and the level of dioxins in the roots of vetiver grass was positively correlated (r2 = 0.67; p<0.01) with its growth rate. During the first year of cultivation, Vetiver grass had the greatest capacity to efficiently accumulate dioxin. Accumulation occurs in the roots, with BAF>1 throughout the entire experiment period for FT3, and in the first year for FT1 and FT2. The dioxin translocation from the roots to the shoots was significantly lower than the BAF and less than one (TF<1), with the first and second sampling times having the highest values compared to the others. Dioxin concentrations do not provide a reliable indicator of its bioavailability but numerous other factors, such as physicochemical properties of the soil and microbes. Our study aims to contribute significant insights to capability of Vetiver grass to accumulate and translocate dioxins, hence the arsenal of dioxin remediation. Furthermore, we envisage translating our findings into practical applications in other areas, considering optimized planting techniques, growth conditions, and long-term sustainability.
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