Organic amendments potentially stabilize metals in smelter contaminated Arctic soils: An incubation study

The long-term emission impacts of the nickel processing industry in the Kola Peninsula, the largest source of sulfur dioxide and heavy metals emissions in Northern Europe, have created vast technogenic barrens near the mineral industry complexes. The pace of rehabilitation using the improved remedia...

Full description

Bibliographic Details
Published in:Heliyon
Main Authors: Polina Tregubova, Galina Koptsik, Andrey Stepanov, Sergey Koptsik, Graeme Spiers
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2021
Subjects:
Soil remediation
Heavy metals
Carbon stock regulation
Science (General)
Q1-390
Social sciences (General)
H1-99
Arctic
Kola Peninsula
kola peninsula
Online Access:https://doi.org/10.1016/j.heliyon.2021.e06022
https://doaj.org/article/cec9979318eb4c219d919a5af2c9adf0
Description
Summary:The long-term emission impacts of the nickel processing industry in the Kola Peninsula, the largest source of sulfur dioxide and heavy metals emissions in Northern Europe, have created vast technogenic barrens near the mineral industry complexes. The pace of rehabilitation using the improved remediation technologies to enhance sustainable environmental management and regional economic development is of crucial social and economic importance. In a 120-day incubation experiment, we evaluated the prospects for the restoration of two soils at different degradation stages via carbon pool regulation comparing to mineral ameliorants – NPK fertilizer, and liming agent. Organic additives used included a humic preparation based on an alkaline brown coal extract, wood-derived biochar, and peat-derived gel, supplied by mycorrhizae fungi. The results demonstrate that the selected organic amendments are suitable for restoration of acidic metal contaminated soils. Specifically, the treatments provided a measurable increase in soil carbon content, a marked decrease in acidity, a decrease in extractable metal contents, together with an enhanced nutrient uptake and vegetative growth. A stabilization effect increased from biochar to peat-gel, liming agent and humic preparation, with an accompanying increase in soil pH. Although biochar showed a reduced ability to metal stabilization, the associated treatments were the most productive. The most effective amendments in multi-metallic contaminated soils need to be able to stabilize bioavailability of metals, adjust pH to the optimum for plant growth, and regulate nutrient consumption.

Similar Items