A continuous-flow method for measuring effects of chemicals on soil nitrification.

Environmental Toxicology & Water Quality Pub Date : 1990-02-01 DOI:10.1002/TOX.2540050107

A. N. Rhodes, C. W. Hendricks

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引用次数: 27

Abstract

Because the productivity of terrestrial ecosystems is directly related to microbial nutrient cycling, understanding the effects of chemical contaminants on soil microbial processes is important. This study examined the effects of two model chemicals—Roundup (glyphosate) and N-Serve (nitrapyrin)—on nitrifying organisms in static, perfusion, and continuous-flow culture systems. Experimental concentrations were approximately 1, 10, and 100 × the spot application rate. Both N-Serve and Roundup were shown to inhibit nitrification in the treated soils. Roundup significantly reduced nitrification at 6.8 and 68 mg g−1 dry soil. N-Serve (nitrapyrin) completely inhibited nitrification at levels greater than 42 μ g−1 dry soil in all cultural methods. In comparative studies with static batch and perfusion culture techniques, the continuous-flow system proved to be both reliable and useful in the culture of nitrifying bacteria. This method provides an alternative to traditional culture techniques in measuring chemical effects on microbial geochemical cycles and provides a new method for use in toxicity testing.

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测定化学药品对土壤硝化作用的连续流法。

由于陆地生态系统的生产力与微生物养分循环直接相关，因此了解化学污染物对土壤微生物过程的影响非常重要。本研究考察了两种模式化学物质——农达(草甘膦)和N-Serve(硝基吡啶)在静态、灌注和连续流培养系统中对硝化生物的影响。实验浓度分别为现场施药率的1倍、10倍和100倍。N-Serve和农达对处理过的土壤的硝化作用均有抑制作用。草甘膦显著降低了6.8 mg g - 1和68 mg g - 1干燥土壤的硝化作用。在所有培养方法中，N-Serve (nitrapyrin)在高于42 μ g−1的干土水平下完全抑制硝化作用。通过与静态间歇培养和灌注培养技术的对比研究，证明了连续流系统在硝化细菌的培养中是可靠的和有用的。该方法为测定微生物地球化学循环的化学效应提供了一种替代传统培养技术的方法，并为毒性检测提供了一种新的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environmental Toxicology & Water Quality

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