Phytoextraction of lead and arsenic from agricultural soils by different intercropping density of Boehmeria nivea (L.) and Pteris vittata (L.)

This study aimed to analyze the heavy metal absorption characteristics of different plant species and planting patterns on lead (Pb) and arsenic (As) levels in soil. Two ramie [Boehmeria nivea (L.) Guad.] varieties (Zhongzhu‐1 and Xiangzhu‐3), and Pteris vittata L. were cultivated in monoculture and...

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Published in	Agronomy journal Vol. 113; no. 2; pp. 923 - 931
Main Authors	Wang, Dong, Zhu, ShouJing, Lu, YanWei, Zeng, Rui, Hu, ZhiXin, Li, Xiang, Jie, YuCheng
Format	Journal Article
Language	English
Published	01.03.2021
Subjects	absorption agronomy arsenic biomass Boehmeria nivea financial economics heavy metals lead phytoaccumulation Pteris vittata ramie soil pollution
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Abstract	This study aimed to analyze the heavy metal absorption characteristics of different plant species and planting patterns on lead (Pb) and arsenic (As) levels in soil. Two ramie [Boehmeria nivea (L.) Guad.] varieties (Zhongzhu‐1 and Xiangzhu‐3), and Pteris vittata L. were cultivated in monoculture and intercropping patterns in soil polluted with heavy metals (Pb and As). The plant traits and biomasses of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at a high density were not significantly different compared to their individual monoculture treatments. Meanwhile, the biomass of P. vittata intercropped with ramie was significantly reduced. In addition, the Pb content and Pb accumulation in shoots of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at high density significantly increased compared with the Pb content and Pb accumulation from monoculture shoots. The Xiangzhu‐3/P. vittata high density intercropping system had the highest Pb extraction at 232.14 g hm−2 and a Pb extraction efficiency of 0.0222%. The P. vittata monoculture system had the highest As extraction with 225.87 g hm−2 and an As extraction efficiency of 0.2765%. Moreover, ramie and P. vittata intercropping at high density was the most efficacious planting method for minimizing Pb–As pollution in soil with higher and effective remediation efficiency and economic benefit than monoculture planting system.
AbstractList	This study aimed to analyze the heavy metal absorption characteristics of different plant species and planting patterns on lead (Pb) and arsenic (As) levels in soil. Two ramie [Boehmeria nivea (L.) Guad.] varieties (Zhongzhu‐1 and Xiangzhu‐3), and Pteris vittata L. were cultivated in monoculture and intercropping patterns in soil polluted with heavy metals (Pb and As). The plant traits and biomasses of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at a high density were not significantly different compared to their individual monoculture treatments. Meanwhile, the biomass of P. vittata intercropped with ramie was significantly reduced. In addition, the Pb content and Pb accumulation in shoots of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at high density significantly increased compared with the Pb content and Pb accumulation from monoculture shoots. The Xiangzhu‐3/P. vittata high density intercropping system had the highest Pb extraction at 232.14 g hm−2 and a Pb extraction efficiency of 0.0222%. The P. vittata monoculture system had the highest As extraction with 225.87 g hm−2 and an As extraction efficiency of 0.2765%. Moreover, ramie and P. vittata intercropping at high density was the most efficacious planting method for minimizing Pb–As pollution in soil with higher and effective remediation efficiency and economic benefit than monoculture planting system. This study aimed to analyze the heavy metal absorption characteristics of different plant species and planting patterns on lead (Pb) and arsenic (As) levels in soil. Two ramie [Boehmeria nivea (L.) Guad.] varieties (Zhongzhu‐1 and Xiangzhu‐3), and Pteris vittata L. were cultivated in monoculture and intercropping patterns in soil polluted with heavy metals (Pb and As). The plant traits and biomasses of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at a high density were not significantly different compared to their individual monoculture treatments. Meanwhile, the biomass of P. vittata intercropped with ramie was significantly reduced. In addition, the Pb content and Pb accumulation in shoots of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at high density significantly increased compared with the Pb content and Pb accumulation from monoculture shoots. The Xiangzhu‐3/P. vittata high density intercropping system had the highest Pb extraction at 232.14 g hm⁻² and a Pb extraction efficiency of 0.0222%. The P. vittata monoculture system had the highest As extraction with 225.87 g hm⁻² and an As extraction efficiency of 0.2765%. Moreover, ramie and P. vittata intercropping at high density was the most efficacious planting method for minimizing Pb–As pollution in soil with higher and effective remediation efficiency and economic benefit than monoculture planting system. This study aimed to analyze the heavy metal absorption characteristics of different plant species and planting patterns on lead (Pb) and arsenic (As) levels in soil. Two ramie [ Boehmeria nivea (L.) Guad.] varieties (Zhongzhu‐1 and Xiangzhu‐3), and Pteris vittata L. were cultivated in monoculture and intercropping patterns in soil polluted with heavy metals (Pb and As). The plant traits and biomasses of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at a high density were not significantly different compared to their individual monoculture treatments. Meanwhile, the biomass of P. vittata intercropped with ramie was significantly reduced. In addition, the Pb content and Pb accumulation in shoots of Zhongzhu‐1 and Xiangzhu‐3 intercropped with P. vittata at high density significantly increased compared with the Pb content and Pb accumulation from monoculture shoots. The Xiangzhu‐3/ P. vittata high density intercropping system had the highest Pb extraction at 232.14 g hm −2 and a Pb extraction efficiency of 0.0222%. The P. vittata monoculture system had the highest As extraction with 225.87 g hm −2 and an As extraction efficiency of 0.2765%. Moreover, ramie and P. vittata intercropping at high density was the most efficacious planting method for minimizing Pb–As pollution in soil with higher and effective remediation efficiency and economic benefit than monoculture planting system. Intercropped with P. vittata at a high density did not significantly affect the biomass of ramie. The Xiangzhu‐3/ P. vittata high density intercropping system had the highest Pb extraction. Pteris vittata monoculture system had the highest As extraction. Ramie and P. vittata intercropping was effective planting method for minimizing Pb–As soil pollution.
Author	Wang, Dong Zhu, ShouJing Lu, YanWei Li, Xiang Hu, ZhiXin Zeng, Rui Jie, YuCheng
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Cites_doi	10.1007/BF02491567 10.1007/s11270-008-9858-x 10.1016/j.jhazmat.2009.02.048 10.1016/j.chemosphere.2006.12.064 10.1021/es0714080 10.1016/j.chemosphere.2005.09.061 10.1023/A:1004248123948 10.1016/j.plantsci.2010.08.016 10.1038/35054664 10.1007/s13562-013-0250-6 10.1016/j.chemosphere.2005.02.028
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SubjectTerms	absorption agronomy arsenic biomass Boehmeria nivea financial economics heavy metals lead phytoaccumulation Pteris vittata ramie soil pollution
Title	Phytoextraction of lead and arsenic from agricultural soils by different intercropping density of Boehmeria nivea (L.) and Pteris vittata (L.)
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