Abstract
Mining activities generate residues during the ore concentration process. These wastes are placed into large tailing storage facilities, and upon mine closure, these tailings must be reclaimed. This study aimed to determine how different reclamation methods, involving combinations of planted boreal woody species and organic amendments application (paper mill sludge biosolids, chicken manure, and topsoil) affected plant community diversity at two tailing storage facilities in Québec, Canada. We recorded the composition of the plant communities using the percent cover of plant species within 1 m × 1 m quadrats. At the Niobec mine site, paper mill sludge mixed with topsoil enhanced total plant cover was compared with the use of topsoil only; the former amendment, however, reduced evenness (J′) and diversity (1−D) due to the increased growth of grasses and invasive forbs. At the Mont-Wright site, plots having received paper mill sludge mixed with a “Norco” treatment (a mixture of chicken manure, hay, and grass seeds) produced the highest total plant cover. The Norco treatment mixed with topsoil and the single application of topsoil and biosolids produced the highest evenness (J′) and diversity (1−D). Overall, organic amendment applications promoted vegetation cover on tailings and contributed to the colonization of diverse plant communities.
Highlights
We identified ten grasses, nine moss, and three woody species that differed from those normally used in the plantations
Our study showed that the application of an organic amendment had a significant influence on plant community response at both mine tailing sites (Niobec and Mont-Wright mines, Québec), whereas plantations did not produce any community response at the Niobec site
At the Mont-Wright site, the early response of vegetation showed that the combination of the Norco treatment with topsoil and the application of topsoil only or biosolids only resulted in the highest values of evenness (J0 ) and diversity (1−D)
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Mining activities produce mining rock wastes (tailings) that can cover vast areas. In Québec (Canada), these tailing storage facilities cover over 13,000 ha [1]. Tailing impoundments are among the most damaging and longest-lasting environmental liabilities of the mining industry [2]. Their creation converts productive ecosystems into degraded landscapes, representing a loss of ecological services, such as wildlife habitat, nutrient cycling, and carbon sequestration [3,4,5,6]
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