Distribution and fractionation of cadmium in soil aggregates affected by earthworms (Eisenia fetida) and manure compost

Purpose The objectives of this study were (1) to investigate the effects of manure compost and earthworms on Cd mobility in Cd-contaminated soil, (2) to test whether the bioturbation of earthworms reduces the immobilization effect of the manure compost when they are combined, and (3) to explore the...

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Published in:Journal of soils and sediments 2016-09, Vol.16 (9), p.2286-2295
Main Authors: Wu, Jingtao, Li, Hanqing, Li, Feng, Zhang, Yanju, Lu, Huanping, Zhuang, Ping, Mo, Qifeng, Li, Zhian
Format: Article
Language:English
Subjects:
Aggregates
Bioturbation
Cadmium
Calcium chloride
Composting
Composts
Earth and Environmental Science
Eisenia fetida
Environment
Environmental Physics
Fractionation
Leaching
Manures
Metal concentrations
Mobility
Nitrogen
Organic carbon
Organic matter
Organic phosphorus
Sec 5 • Soil and Landscape Ecology • Research Article
Soil aggregates
Soil contamination
Soil pH
Soil Science & Conservation
Soil sciences
Soils
Worms
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Summary:Purpose The objectives of this study were (1) to investigate the effects of manure compost and earthworms on Cd mobility in Cd-contaminated soil, (2) to test whether the bioturbation of earthworms reduces the immobilization effect of the manure compost when they are combined, and (3) to explore the distribution of Cd in aggregates formed by earthworms with corresponding fractionation analysis. Materials and methods A laboratory experiment was conducted to evaluate the effect of either or both application of manure compost and the earthworms Eisenia fetida into cadmium historically contaminated soil on cadmium mobility. Soil characteristics and metal concentrations in earthworms and soil were measured, and soil aggregates in the mesocosms were separated for Cd fraction analysis based on four steps sequential extraction. Results and discussion Manure compost reduced mobile Cd based on CaCl 2 extraction and Toxicity Characteristic Leaching Procedure (TCLP) test by 60–95 and 25–30 %, respectively. However, earthworm application alone increased Cd mobility by 9–15 %. Besides, in the presence of manure compost, earthworms further immobilized cadmium to a slight extent. The interaction effect of manure compost and earthworms combined on Cd immobilization suggested that earthworms promoted the formation of large macroaggregates (>2 mm) and the redistribution of Cd concentration in soil aggregates. Additionally, earthworms reduced carbonate fraction of Cd from 42.3–49.6 to 6.3–19.5 % in different aggregates, respectively. And, residual fraction of Cd increased from 33.9–42.2 to 63.9–77.5 % simultaneously. The results may be due to the thorough mixture of phosphates and organic matter with cadmium during bioturbation on account of the available form of phosphorus, nitrogen, and cadmium changing to the more recalcitrant form. Conclusions Manure compost addition increased the soil pH, phosphorus, nitrogen, and organic carbon content, and decreased Cd mobility. The application of earthworms and manure compost combined exhibited higher efficiency for cadmium immobilization, which can be used for Cd remediation due to the redistribution of Cd concentration in soil aggregates and the transformation of soluble Cd to the residual precipitate fraction.
ISSN:1439-0108
1614-7480
DOI:10.1007/s11368-016-1433-2