The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China

The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China

The water-soluble heavy metal ions in contaminated soil may enter aquatic ecosystem through runoff, thus causing negative impact on the water environment. In this study, a two-year in situ experiment was carried out to explore an effective way to reduce the runoff erosion and water-soluble copper (C...

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Main Authors: Lei Xu, Xiangyu Xing, Hongbiao Cui, Jing Zhou, Jun Zhou, Jianbiao Peng, Jingfeng Bai, Xuebo Zheng, Mingfei Ji
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-07-01
Series:Frontiers in Environmental Science
Subjects:
soil contamination
lime
phytoremediation
soil erosion
runoff
Online Access:https://www.frontiersin.org/articles/10.3389/fenvs.2021.638324/full
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spelling doaj-f25823a7df0a4bb7b2fd9a744b44e9532021-07-07T06:38:06ZengFrontiers Media S.A.Frontiers in Environmental Science2296-665X2021-07-01910.3389/fenvs.2021.638324638324The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of ChinaLei Xu0Lei Xu1Xiangyu Xing2Hongbiao Cui3Jing Zhou4Jun Zhou5Jianbiao Peng6Jingfeng Bai7Xuebo Zheng8Mingfei Ji9College of Environmental Science and Tourism, Nanyang Normal University, Nanyang, ChinaHenan Key Laboratory of Ecological Security for Water Source Region of Mid-Line of South-to-North Diversion Project, Nanyang, ChinaCollege of Non-Major Foreign Language Teaching, Nanyang Normal University, Nanyang, ChinaSchool of Earth and Environment, Anhui University of Science and Technology, Huainan, ChinaKey Laboratory of Soil Environment and Pollution Remediation, Chinese Academy of Science, Institute of Soil Science, Nanjing, ChinaKey Laboratory of Soil Environment and Pollution Remediation, Chinese Academy of Science, Institute of Soil Science, Nanjing, ChinaSchool of Environment, Henan Normal University, Xinxiang, ChinaCollege of Environmental Science and Tourism, Nanyang Normal University, Nanyang, ChinaThe Key Laboratory of Tobacco Biology and Processing, Ministry of Agriculture and Rural Affairs, Tobacco Research Institute of Chinese Academy of Agricultural Sciences, Qingdao, ChinaHenan Key Laboratory of Ecological Security for Water Source Region of Mid-Line of South-to-North Diversion Project, Nanyang, ChinaThe water-soluble heavy metal ions in contaminated soil may enter aquatic ecosystem through runoff, thus causing negative impact on the water environment. In this study, a two-year in situ experiment was carried out to explore an effective way to reduce the runoff erosion and water-soluble copper (Cu) and cadmium (Cd) in a contaminated soil (Cu: 1,148 mg kg−1, Cd: 1.31 mg kg−1) near a large Cu smelter. We evaluated the ability to influence soil properties by four Cu-tolerance plant species (Pennisetum sp., Elsholtzia splendens, Vetiveria zizanioides, Setaria pumila) grown in a contaminated acidic soil amended with lime. The results show that the addition of lime can significantly reduce the exchangeable fraction (EXC) of Cu and Cd in soil (81.1–85.6% and 46.3–55.9%, respectively). Plant species cannot change the fraction distributions of Cu and Cd in the lime-amended soils, but they can reduce the runoff generation by 8.39–77.0%. Although water-soluble Cu concentrations in the runoff were not significantly differed and water-soluble Cd cannot be detected among the four plant species, the combined remediation can significantly reduce 35.9–63.4% of Cu erosion to aquatic ecosystem, following the order: Pennisetum sp. > Elsholtzia splendens > Vetiveria zizanioides > Setaria pumila. The implication of this study would provide valuable insights for contaminated soil management and risk reduction in the Cu and Cd contaminated regions.https://www.frontiersin.org/articles/10.3389/fenvs.2021.638324/fullsoil contaminationlimephytoremediationsoil erosionrunoff
collection DOAJ
language English
format Article
sources DOAJ
author Lei Xu
Lei Xu
Xiangyu Xing
Hongbiao Cui
Jing Zhou
Jun Zhou
Jianbiao Peng
Jingfeng Bai
Xuebo Zheng
Mingfei Ji
spellingShingle Lei Xu
Lei Xu
Xiangyu Xing
Hongbiao Cui
Jing Zhou
Jun Zhou
Jianbiao Peng
Jingfeng Bai
Xuebo Zheng
Mingfei Ji
The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
Frontiers in Environmental Science
soil contamination
lime
phytoremediation
soil erosion
runoff
author_facet Lei Xu
Lei Xu
Xiangyu Xing
Hongbiao Cui
Jing Zhou
Jun Zhou
Jianbiao Peng
Jingfeng Bai
Xuebo Zheng
Mingfei Ji
author_sort Lei Xu
title The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
title_short The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
title_full The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
title_fullStr The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
title_full_unstemmed The Combination of Lime and Plant Species Effects on Trace Metals (Copper and Cadmium) in Soil Exchangeable Fractions and Runoff in the Red Soil Region of China
title_sort combination of lime and plant species effects on trace metals (copper and cadmium) in soil exchangeable fractions and runoff in the red soil region of china
publisher Frontiers Media S.A.
series Frontiers in Environmental Science
issn 2296-665X
publishDate 2021-07-01
description The water-soluble heavy metal ions in contaminated soil may enter aquatic ecosystem through runoff, thus causing negative impact on the water environment. In this study, a two-year in situ experiment was carried out to explore an effective way to reduce the runoff erosion and water-soluble copper (Cu) and cadmium (Cd) in a contaminated soil (Cu: 1,148 mg kg−1, Cd: 1.31 mg kg−1) near a large Cu smelter. We evaluated the ability to influence soil properties by four Cu-tolerance plant species (Pennisetum sp., Elsholtzia splendens, Vetiveria zizanioides, Setaria pumila) grown in a contaminated acidic soil amended with lime. The results show that the addition of lime can significantly reduce the exchangeable fraction (EXC) of Cu and Cd in soil (81.1–85.6% and 46.3–55.9%, respectively). Plant species cannot change the fraction distributions of Cu and Cd in the lime-amended soils, but they can reduce the runoff generation by 8.39–77.0%. Although water-soluble Cu concentrations in the runoff were not significantly differed and water-soluble Cd cannot be detected among the four plant species, the combined remediation can significantly reduce 35.9–63.4% of Cu erosion to aquatic ecosystem, following the order: Pennisetum sp. > Elsholtzia splendens > Vetiveria zizanioides > Setaria pumila. The implication of this study would provide valuable insights for contaminated soil management and risk reduction in the Cu and Cd contaminated regions.
topic soil contamination
lime
phytoremediation
soil erosion
runoff
url https://www.frontiersin.org/articles/10.3389/fenvs.2021.638324/full
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