Effect of municipal solid waste compost on mine soils as evaluated by chemical, biological and biochemical properties of soil

Composts are increasingly used in land rehabilitation because they can improve soil quality and reduce the need for inorganic fertilizers. Their use contributes to an integrated approach to waste management by promoting recycling of nutrients and minimizing final disposal of organic residues that, d...

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Bibliographic Details
Published in:Compost science & utilization 2010-03, Vol.18 (2), p.89-96
Main Authors: Cunha-Queda, C, Alvarenga, P, Nobre, A, Varennes, A. de
Format: Article
Language:English
Subjects:
acid soils
Bacteria
Biological
Biological assays
Biomass
Composting
Copper
Daphnia magna
dehydrogenases
enzyme activity
Heavy metal content
lead
Lead (metal)
Lolium perenne
mine spoil
Mining
MSW composts
phytotoxicity
Plant growth
pollution control
pyrites
reclaimed soils
soil amendments
soil bacteria
soil chemical properties
soil fungi
Soil microorganisms
soil pH
soil pollution
Soils
Solid wastes
Trace elements
waste utilization
zinc
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Summary:Composts are increasingly used in land rehabilitation because they can improve soil quality and reduce the need for inorganic fertilizers. Their use contributes to an integrated approach to waste management by promoting recycling of nutrients and minimizing final disposal of organic residues that, due to their composition, can pose problems to agricultural soils. We investigated whether compost from mixed municipal solid waste (MSW) could be used to remediate two soils from a mine contaminated with trace elements. One of the soils was less acidic and had a greater content of Cu and Zn while the other had more Pb and a lower pH. The effect of MSW was evaluated by plant growth, trace element leachability, ecotoxicity of soil leachates, and biological and biochemical properties of soils. Growth of perennial ryegrass (Lolium perenne L. cv. Victorian) was stimulated in the MSW compost-amended soils compared with respective controls or with acidic soil when limed. After ryegrass had been growing for 119 days, the amount of water-extractable Zn was lower in MSW compost-amended soils, while the opposite was true for water-extractable Cu. Water-extractable Pb increased following MSW compost application to one soil and decreased in the other. The greatest dehydrogenase activity was obtained in amended limed soil, while the number of culturable bacteria and fungi and the activities of cellulase and β-glucosidase were similar in soil that was limed or following MSW compost application. In contrast, urease activity was repressed in limed or MSW compost-amended soils. Leachates from unamended soils were toxic towards Daphnia magna. Liming the very acidic soil led to a decrease in the toxicity of the leachate, but it was only in MSW compost-amended soils that ecotoxicity was no longer detected.
ISSN:1065-657X
2326-2397
DOI:10.1080/1065657X.2010.10736940