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Open Access

Experimental simulation and dynamic model analysis of Cadmium (Cd) release in soil affected by rainfall leaching in a coal-mining area

Hao ZHOU1,2Yong WU1,2( )Feng HUANG1,2Xue-fang TANG1,2
College of Environment and Civil Engineering, Chengdu University of Technology, Chengdu 610059, China
State Key Laboratory of Geohazard Prevention and Geoenvironment Protection, Chengdu 610059, China
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Abstract

In order to explore the influence of rainfall on the release of heavy metal Cadmium (Cd) in soil in a coal-mining area,soil column leaching experiments were carried out by simulating 3 types of rainfall (acid rain,normal rainfall,and actual rainfall) with 5 different pH values (4,5,6,6.7,7),and 65 groups of data about leachate pH value and Cd concentration were obtained respectively. The results indicate the general change rule of Cd concentration in leachate: (1) the easiness of Cd release is negatively correlated to the pH value of leaching solution and positively correlated the leaching amount; (2) leaching solution with lower pH values shows more obvious release stages. Leached by solution with different pH values,the release of Cd in soil ranks as follows: Acid rain group > normal rainfall group > actual rainfall group. In the first stage,the acidity of rainfall has a significant impact on the release of Cd in soil,but in the second stage,the release of Cd is alleviated due to the soil buffering. Among the four dynamic equations to simulate the release of Cd in soil,the modified Elovich equation can describe the process most accurately,with the highest coefficient of determination R2 of 0.997 5. These results can serve as a reference for further study on the migration,transformation and enrichment of Cd in soil.

Keywords

pH valueSoilRainfallCdDynamic equation

References

 

CAO Yan-ling, SONG Liang, LIU Lian, et al. 2020. Preliminary study on strontium-rich characteristics of shallow groundwater in Dingtao Area, China. Journal of Groundwater Science and Engineering, 8(03): 244-258.
Google Scholar
 

Doabi SA, Karami M, Afyuni M, et al. 2018. Pollution and health risk assessment of heavy metals in agricultural soil, atmospheric dust and major food crops in Kermanshah province, Iran. Ecotoxicology and Environ-mental Safety, 163: 153-164.
Crossref Google Scholar
 
HUANG Yi. 2007. Study on cadmium release and solid-liquid equilibrium in soil under acid rain conditions in Chengdu City. Ph. D. thesis, Chengdu: Chengdu University of Technology. (in Chinese)
 

HUANG Yi, Ni Shi-jun, Zeng Ying, et al. 2007. Effects of acid rain leaching on release of cad-mium in surface soil in Chengdu City. Journal of Chengdu University of Technology (Natural Science Edition), (05): 596-598. (in Chinese).
Google Scholar
 

Joseph P, James R, Sarah M, et al. 2019. Arsenic variability and groundwater age in three water supply wells in southeast New Hampshire. Geoscience Frontiers, 10(05): 1669-1683.
Crossref Google Scholar
 

LEI Liang-qi. 2019. Study on release mechanism of heavy metals in carbonate tailings during buffer period-column leaching experiment. Journal of Petrology and Mineralogy, 38(01): 131-142. (in Chinese)
Google Scholar
 
LI Hong-ling. 2006. Effects of acid rain on activa-tion of Cd, Hg, Pb and their vegetation effects in purple soil. M. _S. thesis, Chongqing: South-west University. (in Chinese)
 

LIU Chun-yang, ZHANG Yu-feng, TENG Jie. 2006. Research progress of heavy metal pollution in soil. Pollution Control Technology, 14(4): 42-45. (in Chinese)
Google Scholar
 

LIU Jia-li, WANG Zu-wei, ZHANG Hui. 2010. Effects of simulated rainfall on leaching and transformation of cadmium in alkaline salinized soil. Journal of Ecology and Environ-ment, 19(08): 1974-1978. (in Chinese)
Google Scholar
 

LIU Jian-gen. 2019. Current situation and control strategy of soil heavy metal pollution in China. Resources Conservation and Environ-mental Protection, (04): 145. (in Chinese)
Google Scholar
 
LUO Ying. 2016. Dynamic simulation of effects of acid rain on characteristics of Cr (Ⅵ), Cu and Cd release in soil. M. _S. thesis, Wuhan: Wuhan Textile University. (in Chinese).
 

Papale M, Conte A, Del Core M, et al. 2018. Heavy-metal resistant microorganisms in sediments from submarine canyons and the adjacent continental slope in the northeastern Ligurian margin (Western Mediterranean Sea). Progress in Oceanography, 168: 155-168.
Crossref Google Scholar
 

RAN Jian-ping. 2013. Analysis on the current situation, hazards and treatments of soil pollution in China. China Agricultural Infor-mation, 15: 180. (in Chinese)
Google Scholar
 

Saleem M, Iqbal J, Akhter G, et al. 2018. Fractiona-tion, bioavailability, contamination and environ-mental risk of heavy metals in the sediments from a freshwater reservoir, Pakistan. Journal of Geochemical Exploration, 184: 199-208.
Crossref Google Scholar
 

SU Guang-ming, HU Gong-ren, MAO Ping-ping, et al. 2013. Accumulative release character-istics of heavy metals from surface soil in Quanzhou traffic area under simulated acid rain conditions. Earth and Environment, 41(05): 512-517. (in Chinese)
Google Scholar
 

WANG Xing-wen. 1993. Study on the factors affecting precipitation acidity in China. China Environmental Science, 13(6): 401-407. (in Chinese)
Google Scholar
 

YANG Ben-hong. 2000. Hazards and prevention measures of acid rain in China. Journal of Hefei Union University, 10(2): 102-106. (in Chinese).
Google Scholar
 

ZHANG Ji-zhou, WANG Hong-tao, NI Hong-wei, et al. 2012. Current situation, causes and diagnostic methods of heavy metal pollution in farmland soil in China. Soil and Crops, 1(04): 212-218. (in Chinese)
Google Scholar
 

ZHANG Li-hua, ZHU Zhi-liang, ZHENG Cheng-song, et al. 2008. Leaching process of simulated acid rain on heavy metal con-taminated soil in Sanming area. Journal of Agro-Environment Science, (01): 151-155. (in Chinese)
Google Scholar
 
ZHENG Tian. 2012. Analysis of influencing factors and control measures of acid rain in Leshan city. M. _S. thesis, Chengdu: Southwest Jiaotong University. (in Chinese)
 

ZHOU Jian-jun, ZHOU Ju, FENG Ren-guo. 2014. Current situation and control strategy of soil heavy metal pollution in China. Bulletin of the Chinese Academy of Sciences, 29(03): 315-320, 350, 272. (in Chinese)
Google Scholar
 

ZHOU Yong-zhang, Song Shu-qiao. 2005. Environ-mental geochemical response of soil along river to upstream mines and mining. Geological Bulletin of China, 24(10): 945-951. (in Chinese)
Google Scholar
Journal of Groundwater Science and Engineering
Volume 9 Issue 1,
March 2021
Pages 65-72
DOI: 10.19637/j.cnki.2305-7068.2021.01.006
Cite this article:
ZHOU H, WU Y, HUANG F, et al. Experimental simulation and dynamic model analysis of Cadmium (Cd) release in soil affected by rainfall leaching in a coal-mining area. Journal of Groundwater Science and Engineering, 2021, 9(1): 65-72. https://doi.org/10.19637/j.cnki.2305-7068.2021.01.006

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Received: 27 September 2020
Accepted: 23 November 2020
Published: 28 March 2021
© 2021 Journal of Groundwater Science and Engineering Editorial Office
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