VEGETATIVE COVER OF A MINE TAILINGS WITH BERMUDA GRASS (Cynodon dactylon L.) TO MITIGATE POLLUTION

Agrociencia Pub Date : 2024-07-03 DOI:10.47163/agrociencia.v58i5.3140

Elizabeth Hernández-Acosta, Emma Ángela Acevedo-Girón, Edmundo Robledo-Santoyo, Jorge Luis Castrellón-Montelongo

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Abstract

The vegetative cover of mine tailings with grasses has environmental benefits and positive impacts on public health by improving air and water quality, as well as the overall well-being of surrounding communities. This study evaluated the ability of Cynodon dactylon L. grass in the cover of a mine tailing using three doses of vermicompost (Vlow [60 Mg ha-1], Vmedium [80 Mg ha-1], and Vhigh [100 Mg ha-1]) to improve the conditions of the site, which was physically and chemically characterized. The concentrations of lead (Pb), cadmium (Cd), nickel (Ni), and zinc (Zn) were determined before and during the experiment. Ninety-six and 202 days after planting (dap), grass was harvested to determine the concentrations of the potentially toxic elements (PTE) in the root and aerial sections. The production of dry matter and the growth of the grass were evaluated. Results showed that, before the experiment was established, the tailing had a low concentration of organic matter. After incorporating the vermicompost, an increase was observed in the concentrations of phosphorous (P), potassium (K), calcium (Ca), and magnesium (Mg). Ninety-six days after planting, in the treatment with the low dose of vermicompost, C. dactylon absorbed 202.13 mg Pb kg-1, 37.26 mg Ni kg-1, and 164.82 mg Zn kg-1 in its roots. Also at 96 dap, the highest PTE concentrations were found in the treatments with the highest dose of vermicompost. The greatest production of dry matter (231.55 kg ha-1 at 96 dap) and growth of the grass (9.7 cm, 73 dap) occurred in the treatment with the high dose of vermicompost, which highlights its efficiency in favoring its development and improving the conditions of the tailing. The absorption of the PTE by the grass highlights its contribution towards the reduction of dispersion and runoff of particles from tailings.

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用贝母草（Cynodon dactylon L.）对矿井尾部进行植物覆盖以缓解污染

用草对矿山尾矿进行植被覆盖具有环境效益，并可通过改善空气和水质以及周围社区的整体福祉对公众健康产生积极影响。本研究评估了 Cynodon dactylon L. 草对矿山尾矿的覆盖能力，使用了三种剂量的蛭石堆肥（Vlow [60 Mg ha-1]、Vmedium [80 Mg ha-1] 和 Vhigh [100 Mg ha-1]），以改善矿山尾矿的物理和化学特征。在实验前和实验过程中测定了铅（Pb）、镉（Cd）、镍（Ni）和锌（Zn）的浓度。在播种后 96 天和 202 天（dap），收割了草，以测定根部和气生部分的潜在有毒元素（PTE）浓度。还对草的干物质产量和生长情况进行了评估。结果表明，在实验开始前，尾矿中的有机物浓度较低。加入蛭石堆肥后，磷（P）、钾（K）、钙（Ca）和镁（Mg）的浓度都有所增加。种植 96 天后，在施用低剂量蛭石堆肥的处理中，麦冬根系吸收了 202.13 毫克铅（Pb）/千克-1、37.26 毫克镍（Ni）/千克-1 和 164.82 毫克锌（Zn）/千克-1。同样在 96 dap 时，蛭石堆肥剂量最高的处理中 PTE 浓度最高。在施用高剂量蛭石堆肥的处理中，草的干物质产量（96 dap 时为 231.55 kg ha-1）和生长速度（73 dap 时为 9.7 cm）最高，这表明蛭石堆肥在促进草的生长和改善尾矿条件方面非常有效。草对 PTE 的吸收突出表明，它有助于减少尾矿颗粒的分散和径流。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Agrociencia

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