A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils

Department of Plant and Environmental Sciences

A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils. / Rasmussen, Signe Bonde; Jensen, Julie Katrine; Borggaard, Ole K.

In: Journal of Environmental Chemical Engineering, Vol. 3, No. 4, Part B, 2015, p. 3020-3023.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Rasmussen, SB, Jensen, JK & Borggaard, OK 2015, 'A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils', Journal of Environmental Chemical Engineering, vol. 3, no. 4, Part B, pp. 3020-3023. https://doi.org/10.1016/j.jece.2015.04.029

APA

Rasmussen, S. B., Jensen, J. K., & Borggaard, O. K. (2015). A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils. Journal of Environmental Chemical Engineering, 3(4, Part B), 3020-3023. https://doi.org/10.1016/j.jece.2015.04.029

Vancouver

Rasmussen SB, Jensen JK, Borggaard OK. A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils. Journal of Environmental Chemical Engineering. 2015;3(4, Part B):3020-3023. https://doi.org/10.1016/j.jece.2015.04.029

Author

Rasmussen, Signe Bonde ; Jensen, Julie Katrine ; Borggaard, Ole K. / A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils. In: Journal of Environmental Chemical Engineering. 2015 ; Vol. 3, No. 4, Part B. pp. 3020-3023.

Bibtex

@article{cd8c1937b4284bb5b47c6a69242d71c7,

title = "A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils",

abstract = "Soils contaminated by arsenic (As) and copper (Cu) must be remediated because As and Cu are non-degradable and toxic. On moderately contaminated soils, As and Cu may be removed by in-situ plant uptake (phytoremediation), whereas strongly contaminated soils must be removed and cleaned by soil washing at a soil disposal site (ex-situ). Strong bonding of As and Cu to soil solids requires the use of strong complexants to release the elements. Often synthetic chemicals such as EDTA and NTA are used. Since such chemicals are environmentally problematic, their replacement with natural organic matter (NOM) such as humic substances (HS) and citrate might be attractive. To test this possibility, a moderately contaminated calcareous urban soil from a soil depot (called the CRC soil) and a soil from a wood impregnation site (called the CCA soil) highly contaminated with As and Cu were extracted with citrate, HS and NTA at different concentration and pH, and the results compared. Extracted As and Cu were found to increase at increasing extractant concentration but to decrease at increasing pH. The efficiency of the three extractants generally decreased in the order: NTA. >. ≈citrate. >. HS but at pH 4, HS extracted the same amounts of Cu as citrate and NTA, and substantial amounts of As. Instead of replacing one contaminant, As/Cu, with another contaminant, synthetic NTA, it is therefore recommended to use HS at pH 4 or citrate for removing As and Cu from strongly contaminated soils and to use HS at neutral pH to enhance in-situ phytoremediation of moderately contaminated soils. Citrate (and NTA) cannot be suggested for enhancement of on-site phytoremediation because of high mobilization rates caused by these extractants, which through leaching and runoff may lead to contamination of recipient waters with As and Cu.",

keywords = "Citrate, Enhanced phytoremediation, Heavy metals, Humic substances, NTA, Soil washing",

author = "Rasmussen, {Signe Bonde} and Jensen, {Julie Katrine} and Borggaard, {Ole K.}",

year = "2015",

doi = "10.1016/j.jece.2015.04.029",

language = "English",

volume = "3",

pages = "3020--3023",

journal = "Journal of Environmental Chemical Engineering",

issn = "2213-3437",

publisher = "Elsevier",

number = "4, Part B",

}

RIS

TY - JOUR

T1 - A laboratory test of NOM-assisted remediation of arsenic and copper contaminated soils

AU - Rasmussen, Signe Bonde

AU - Jensen, Julie Katrine

AU - Borggaard, Ole K.

PY - 2015

Y1 - 2015

N2 - Soils contaminated by arsenic (As) and copper (Cu) must be remediated because As and Cu are non-degradable and toxic. On moderately contaminated soils, As and Cu may be removed by in-situ plant uptake (phytoremediation), whereas strongly contaminated soils must be removed and cleaned by soil washing at a soil disposal site (ex-situ). Strong bonding of As and Cu to soil solids requires the use of strong complexants to release the elements. Often synthetic chemicals such as EDTA and NTA are used. Since such chemicals are environmentally problematic, their replacement with natural organic matter (NOM) such as humic substances (HS) and citrate might be attractive. To test this possibility, a moderately contaminated calcareous urban soil from a soil depot (called the CRC soil) and a soil from a wood impregnation site (called the CCA soil) highly contaminated with As and Cu were extracted with citrate, HS and NTA at different concentration and pH, and the results compared. Extracted As and Cu were found to increase at increasing extractant concentration but to decrease at increasing pH. The efficiency of the three extractants generally decreased in the order: NTA. >. ≈citrate. >. HS but at pH 4, HS extracted the same amounts of Cu as citrate and NTA, and substantial amounts of As. Instead of replacing one contaminant, As/Cu, with another contaminant, synthetic NTA, it is therefore recommended to use HS at pH 4 or citrate for removing As and Cu from strongly contaminated soils and to use HS at neutral pH to enhance in-situ phytoremediation of moderately contaminated soils. Citrate (and NTA) cannot be suggested for enhancement of on-site phytoremediation because of high mobilization rates caused by these extractants, which through leaching and runoff may lead to contamination of recipient waters with As and Cu.

AB - Soils contaminated by arsenic (As) and copper (Cu) must be remediated because As and Cu are non-degradable and toxic. On moderately contaminated soils, As and Cu may be removed by in-situ plant uptake (phytoremediation), whereas strongly contaminated soils must be removed and cleaned by soil washing at a soil disposal site (ex-situ). Strong bonding of As and Cu to soil solids requires the use of strong complexants to release the elements. Often synthetic chemicals such as EDTA and NTA are used. Since such chemicals are environmentally problematic, their replacement with natural organic matter (NOM) such as humic substances (HS) and citrate might be attractive. To test this possibility, a moderately contaminated calcareous urban soil from a soil depot (called the CRC soil) and a soil from a wood impregnation site (called the CCA soil) highly contaminated with As and Cu were extracted with citrate, HS and NTA at different concentration and pH, and the results compared. Extracted As and Cu were found to increase at increasing extractant concentration but to decrease at increasing pH. The efficiency of the three extractants generally decreased in the order: NTA. >. ≈citrate. >. HS but at pH 4, HS extracted the same amounts of Cu as citrate and NTA, and substantial amounts of As. Instead of replacing one contaminant, As/Cu, with another contaminant, synthetic NTA, it is therefore recommended to use HS at pH 4 or citrate for removing As and Cu from strongly contaminated soils and to use HS at neutral pH to enhance in-situ phytoremediation of moderately contaminated soils. Citrate (and NTA) cannot be suggested for enhancement of on-site phytoremediation because of high mobilization rates caused by these extractants, which through leaching and runoff may lead to contamination of recipient waters with As and Cu.

KW - Citrate

KW - Enhanced phytoremediation

KW - Heavy metals

KW - Humic substances

KW - NTA

KW - Soil washing

U2 - 10.1016/j.jece.2015.04.029

DO - 10.1016/j.jece.2015.04.029

M3 - Journal article

AN - SCOPUS:84945570160

VL - 3

SP - 3020

EP - 3023

JO - Journal of Environmental Chemical Engineering

JF - Journal of Environmental Chemical Engineering

SN - 2213-3437

IS - 4, Part B

ER -

ID: 155551095