期刊
SOIL BIOLOGY & BIOCHEMISTRY
卷 42, 期 9, 页码 1581-1587出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.soilbio.2010.05.036
关键词
Denitrification; Zinc; Adaptation; nosZ; qPCR; DGGE
类别
资金
- Institute for the Promotion of Innovation through Science and Technology in Flanders (IWT-Vlaanderen)
- Fund for Scientific Research-Flanders (F.W.O.-Vlaanderen)
Laboratory studies show that the nitrous oxide (N(2)O) reduction rate in soil is strongly inhibited by trace metal contamination: however, this effect appears transient. Here we assess if this recovery is due to microbial adaptation associated with shifts in community composition. Soils were spiked with zinc chloride (0-5000 mg Zn kg(-1)) in a factorial design with 3 application rates of organic matter (OM), i.e. 0, 2 and 4 g milled hay kg(-1), to accelerate growth and, potentially, adaptation rate. The soil treatments were incubated outdoors with free drainage during 1 year and periodically sampled. The potential N(2)O reduction rate, measured in an anaerobic laboratory assay, was inhibited by Zn during the first 2 months after spiking with 50% inhibition at 500-1000 mg Zn kg(-1). After 6 months exposure, the N(2)O reduction rate recovered to at least 80% of the rate in the control treatment in the series receiving OM up to the largest Zn dose, but strong inhibition remained in the series which did not receive OM. In this series recovery was only observed after 12 months exposure. Soil pore water Zn concentrations did not explain the recovery of the N(2)O reduction rate in the control series suggesting that recovery is due to adaptation and not to reduced Zn bioavailability. The faster recovery in the series receiving OM was partially, but not fully related to the effects of OM on Zn bioavailability. The recovery at all Zn and OM treatments co-varied with a recovery of nosZ gene abundance from about 1 x 10(7) copies g(-1) soil in the soil treatments with decreased activity to 5 x 10(8) copies g(-1) soil in the other soil treatments. The nosZ gene DGGE profile of the soil microbial communities revealed minor changes in the nosZ containing community. This study strongly suggests that the transient effects of trace metal inhibition of N(2)O reduction is due to the development of a Zn tolerant denitrifying community. (C) 2010 Elsevier Ltd. All rights reserved.
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