Effects of heavy-metal additions on ammonification and nitrification in soils contaminated with cadmium,lead and zinc |
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Authors: | J. A. Rother J. W. Millbank I. Thornton |
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Affiliation: | (1) Applied Geochemistry Research Group, Dept. of Geology, Imperical College, SW7 2AZ London, U.K.;(2) Present address: River Laboratory, Freshwater Biological Association, East Stoke, BH20 6BB Wareham, Dorset, U.K.;(3) Present address: Department of Pure and Applied Biology, Imperial College, London |
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Abstract: | Summary The sensitivity of the mineralization of nitrogen by a range of soils contaminated with heavy metals (up to 340 μg Cd g−1, 7500 μg Pb g−1 and 34000 μg Zn g−1) to the addition of heavy metals in solution were studied using pot incubations (ammonification) and a soil perfusion technique (nitrification). The ammonification of peptone showed little correlation between treatments with Cd, Zn (1000 and 5000 μg g−1) and Pb (10000 and 20000 μg g−1) and origin of the soil. Nitrification was considerably more sensitive to heavy metals than ammonification. All the soils had active, often large, populations of ammonifying and nitrifying organisms which showed substantial similarities between the soils. The rate of nitrifying activity (NO3−N production) was logrithmic in most cases. The presence of tolerant populations of nitrifying organisms in the contaminated soils was demonstrated. Tolerance was also eventually acquired after a longer lag phase, by the non-contaminated soil populations although the rate of activity was often reduced. Metals added in solution were adsorbed by the soil within 4 hours. Differences in toxicity between metal salts (chlorides, sulphates and acetate) were attributed to the amount left in solution. However, in many instances, acetate was found to stimulate all the stages in the mineralisation of nitrogen. |
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Keywords: | Ammonification Cadmium Heavy metals Kinetics Lead Nitrification Perfusion incubations Polluted soils Selection Toxicity Zinc |
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