An investigation into the phytotoxicity of zinc, copper and nickel using sewage sludge of controlled metal content

Environmental Pollution Series B, Chemical and Physical Pub Date : 1984-01-01 DOI:10.1016/0143-148X(84)90016-8

R.D. Davis, C.H. Carlton-Smith

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引用次数: 60

Abstract

A replicated factorial pot trial with perennial ryegrass and a sandy loam soil (pH 7·0) investigated the relative phytotoxicities of Zn, Cu and Ni, and the nature of their interaction. Sewage sludge of controlled metal content made from enriched sewage was used for the soil treatment so that each pot received the same amount of sludge dry solids whilst quantities of metals added were adjustable as required. Upper critical concentrations (total) of the three elements in soil were found to be 319 mg Znkg⁻¹, 105 mg Cukg⁻¹ and 221 mg Nikg⁻¹. The relative toxicities of Zn/Cu/Ni were 1·0/2·6/1·0 on a loading rate basis. The comparatively low toxicity of Ni was attributed to the pH value (7·0) of the soil used. At subcritical levels in the soil phytotoxic effects of mixtures of the three elements were independent but some additivity was seen when one or more element was already at a hypercritical level. At subcritical levels the element present in highest concentration relative to its critical concentration determined the phytotoxic effect on ryegrass yield of mixtures of Zn, Cu and Ni in soil. But where two or more elements exceeded their critical soil concentrations their combined phytotoxic effect could be taken as being additive. It was concluded that the three elements could be dealth with separately in guidelines for sludge utilisation on agricultural land.

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控制金属含量的污水污泥对锌、铜、镍的植物毒性研究

以多年生黑麦草和pH为7.0的沙质壤土为试验材料，研究Zn、Cu和Ni的相对植物毒性及其相互作用的性质。土壤处理采用由浓缩污水制成的金属含量可控的污水污泥，使每罐污泥的干固体量相同，而金属的添加量可根据需要调整。三种元素在土壤中的最高临界浓度(总浓度)分别为319 mg Znkg - 1、105 mg Cukg - 1和221 mg Nikg - 1。Zn/Cu/Ni的相对毒性为1·0/2·6/1·0。镍的毒性较低，主要是由于土壤pH值为7.0。在亚临界水平下，三种元素的混合物的植物毒性作用是独立的，但当一种或多种元素已经处于超临界水平时，可以看到一些加和性。在亚临界水平上，锌、铜、镍混合施用对黑麦草产量的毒害作用由相对于其临界浓度的最高浓度决定。但当两种或两种以上的元素超过其临界土壤浓度时，它们的联合植物毒性作用可以被视为加性的。结果表明，在农业用地污泥利用指南中，这三个要素可以单独处理。

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