Abstract
In soil ecotoxicological studies, a toxic metal is usually added in the form of either an inorganic or organic salt with relatively high solubility. Nitrate, chloride, acetate, or sulfate are commonly considered as valid options for that aim. However, recent studies have shown that different salts of the same metal at the same cationic concentration may exhibit different toxicities to plants and soil organisms. This information should be considered when selecting data to use for developing toxicological criteria for soil environment. A comparative study was carried out to evaluate the toxicity of five nickel (Ni) salts: NiCl2, NiSO4, Ni(II)-citrate, Ni(CH3COO)2, and Ni(II)-EDTA (ethylenediaminetetraacetate), on maize seedlings. The plant metrics used were plant height, shoot and root biomass, leaf soluble sugars and starch, and the Ni contents of the shoots and roots. The results indicated that when Ni was added to the soil, toxicity varied with the selected anionic partner with the following toxicity ranking NiSO4 < Ni(CH3COO)2 < Ni(II)-citrate < NiCl2 < Ni(II)-EDTA. Taking the plant-height metric as an example, the effective concentrations for 50% inhibition (EC50) were 3148 mg·kg−1 for NiSO4, 1315 mg·kg−1 for NiCl2, and 89 mg·kg−1 for Ni(II)-EDTA. Compared with the Ni in the other salts, that in Ni(II)-EDTA was taken up the most efficiently by the maize roots and, thus, resulted in the greatest toxic effects on the plants. Nickel generally reduced leaf soluble sugars, which indicated an effect on plant carbohydrate metabolism. The outcome of the study demonstrates that different salts of the same metal have quite different ecotoxicities. Therefore, the anionic counterpart of a potentially toxic metal cation must be taken into account in the development of ecotoxicological criteria for evaluating the soil environment, and a preferred approach of leaching soil to reduce the anionic partner should also be considered.
Highlights
Nickel (Ni) is used in the production of many modern technologies, including stainless steel, electroplating, and batteries
Regardless of the chemical forms of the Ni salts, maize seedling mortality was only observed at high Ni concentrations, such as 3160 mgkg1 (NiCl2 ) and 1000 mgkg1 (Ni(II)-EDTA)
At 560 mgkg1, there was no significant difference between NiSO4, Ni(II)-citrate, Ni(CH3COO)2, and NiCl 2 in relation to plant height or plant biomass, whereas Ni(II)-EDTA
Summary
Pot experiments were carried out in a soil research greenhouse at the Chinese Research Academy of Environmental Sciences, Beijing, China. Fluvo-aquic soil was collected from the upper soil layers (0–20 cm) from a nearby orchard. The air-dried soil was ground and screened using a 2-mm sieve. The soil had the following characteristics: pH 7.39 and cation exchange capacity 7.20 cmolkg ; and showed the following particle-size distribution: 73.25% sand, 15.12% silt, and 11.63% clay. The soil’s baseline concentrations of As, Hg, Cu, Cd, Cr, Zn, Ni, and Pb were 7.3, 0.1, 19.0, 0.3, 56.5, 78.5, 23.1, and 26.0 mgkg , respectively [22]
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