TY - JOUR
T1 - Cadmium mobility in three contaminated soils amended with different additives as evaluated by dynamic flow-through experiments
AU - Hamid, Yasir
AU - Tang, Lin
AU - Hussain, Bilal
AU - Usman, Muhammad
AU - Liu, Lei
AU - Cao, Xuerui
AU - Ulhassan, Zaid
AU - Bilal Khan, Muhammad
AU - Yang, Xiaoe
N1 - Funding Information:
This research was funded by Ministry of Science and Technology of China (# 2016YFD0800805 ), Zhejiang Science and Technology Bureau (# 2018C02029 ), National Natural Science Foundation of China (# 41721001 ; # 31872956 ), and the Fundamental Research Funds for the Central Universities .
Funding Information:
Present study revealed that application of single and composite treatments (T2, T5 and T10) reduced Cd contents in leachate of three soil types with diverse contamination levels. Structural differences through SEM and FTIR showed the potential of T2, T5 and T10 to remediate metal contamination which also supported the results of leachate and available metal contents in soils. Chemical fractionation of Cd was useful in observing the changes in metals mobility and availability in all soil types where highest Cd was found available in S2 soil and was reduced to more stable fractions with applied amendments. In fact, our experiments showed the Cd stability with treatments in three soil types but following points should be considered for further investigations which include (a) long term stability of amendments under leaching conditions, (b) understanding the metals mobility in soil profile with various innovative techniques and (c) the leaching and extraction of Cd in columns experiments by growing low accumulator cultivars (d) their durability and stability also require regular monitoring in wide range of environmental conditions.This research was funded by Ministry of Science and Technology of China (#2016YFD0800805), Zhejiang Science and Technology Bureau (#2018C02029), National Natural Science Foundation of China (#41721001; #31872956), and the Fundamental Research Funds for the Central Universities.
Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2020/12
Y1 - 2020/12
N2 - As arable land has become an important sink for cadmium (Cd), soil is being recognized as a major source of metals to the food chain. It becomes, therefore, essential to investigate metal mobility in contaminated soils and to identify suitable remediation strategies. For this, immobilization of Cd was evaluated in contaminated stagnic anthrosol: S1, gleysol: S2 and fluvisol: S3 under flow through conditions. Ten treatments including control were tested alone or in composite form firstly at natural Cd contents (0.58–0.69 mg kg−1). Here, T2 (lime), T5 (biochar) and T10 (composite amendment) were found better in reducing the Cd concentration in the soils’ leachates, so, their efficacy was further investigated in the same soils of higher Cd contents (1 and 2 mg kg−1 imposed by soil spiking). Amendments significantly reduced the leachate metal contents especially in 1 mg kg−1 spiked soils. Characterization of T2, T5 and T10 revealed their structural transformations in all the studied soil types, while active functional groups e.g. C–O, C[dbnd]O, O–H, Si–O–Si, ester and alcoholic groups were notably involved in Cd precipitation or adsorption on amendments surface. Variations in Cd speciation in these soils exhibited the exchange of Cd to more stable fractions with tested amendments. These continuous-flow experiments confirmed the strong efficiency of T2, T5 and T10 in reducing the Cd concentration in the leachate of three soils. This study has strong implications in understanding the role of different amendments in controlling the fate, leaching behavior and immobilization of Cd in diverse soil types.
AB - As arable land has become an important sink for cadmium (Cd), soil is being recognized as a major source of metals to the food chain. It becomes, therefore, essential to investigate metal mobility in contaminated soils and to identify suitable remediation strategies. For this, immobilization of Cd was evaluated in contaminated stagnic anthrosol: S1, gleysol: S2 and fluvisol: S3 under flow through conditions. Ten treatments including control were tested alone or in composite form firstly at natural Cd contents (0.58–0.69 mg kg−1). Here, T2 (lime), T5 (biochar) and T10 (composite amendment) were found better in reducing the Cd concentration in the soils’ leachates, so, their efficacy was further investigated in the same soils of higher Cd contents (1 and 2 mg kg−1 imposed by soil spiking). Amendments significantly reduced the leachate metal contents especially in 1 mg kg−1 spiked soils. Characterization of T2, T5 and T10 revealed their structural transformations in all the studied soil types, while active functional groups e.g. C–O, C[dbnd]O, O–H, Si–O–Si, ester and alcoholic groups were notably involved in Cd precipitation or adsorption on amendments surface. Variations in Cd speciation in these soils exhibited the exchange of Cd to more stable fractions with tested amendments. These continuous-flow experiments confirmed the strong efficiency of T2, T5 and T10 in reducing the Cd concentration in the leachate of three soils. This study has strong implications in understanding the role of different amendments in controlling the fate, leaching behavior and immobilization of Cd in diverse soil types.
KW - Chemical speciation
KW - Column experiments
KW - Leaching
KW - Metal fractionation
KW - Metal immobilization
KW - Soil amendments
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U2 - 10.1016/j.chemosphere.2020.127763
DO - 10.1016/j.chemosphere.2020.127763
M3 - Article
C2 - 32721697
AN - SCOPUS:85088367944
SN - 0045-6535
VL - 261
JO - Chemosphere
JF - Chemosphere
M1 - 127763
ER -