Assessing the Long-Term Ecosystem Productivity Benefits and Potential Impacts of Forests Re-Established on a Mine Tailings Site

Metsaranta, Juha M.; Beauchemin, Suzanne; Langley, Sean; Tisch, Bryan; Dale, Phyllis L.

doi:10.3390/f9110707

Cited by 11 publications

(8 citation statements)

References 61 publications

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“…To reduce damage caused by nickel mining, land rehabilitation activities are required. Rehabilitation land after mining activity to a previous forested land condition can guarantee the services of these areas for economic and ecosystem purposes [3]. Land should become a productive forested area for the sustainability of social authorization [4]; however, this is not easy.…”

Section: Introductionmentioning

confidence: 99%

The Impact of Nickel Mining on Soil Properties and Growth of Two Fast-Growing Tropical Trees Species

Prematuri

Turjaman

Sato

et al. 2020

International Journal of Forestry Research

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Opencast nickel mining is common in natural forests of Indonesia. However, rehabilitation of postmining degraded land is difficult. We investigated the effect of opencast nickel mining on soil chemical properties and the growth of two fast-growing tropical tree species, Falcataria moluccana and Albizia saman. Soil was collected from post-nickel mining land and a nearby natural forest. Soil pH, available phosphorus (P) concentration, total carbon (TC) and total nitrogen (TN) concentration, C/N ratio, cation exchange capacity (CEC), and exchangeable K, Na, Mg, Ca, Fe, and Ni concentrations were determined. Falcataria moluccana and A. saman were then grown in the collected soils for 15 weeks in a greenhouse. Shoot height and shoot and root dry weights of the seedlings were measured. The post--nickel mining soils TN, TC, available P, CEC, and exchangeable Ca and Na concentrations decreased by 98%, 93%, 11%, 62%, 85%, and 74%, respectively, in comparison with the natural forest soils. The pH of postmining soil was higher than natural forest soil. Shoot dry weight of F. moluccana seedlings grown in postmining soil was significantly ( P < 0.05 ) lower than that of seedlings grown in natural forest soil. However, there was no difference in shoot dry weight between A. saman seedlings grown in natural forest soil and postmining soil, as well as root dry weights of both species. The results indicate that opencast nickel mining decreased soil fertility, which subsequently inhibited the growth of F. moluccana and A. saman seedlings.

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Section: Introductionmentioning

confidence: 99%

The Impact of Nickel Mining on Soil Properties and Growth of Two Fast-Growing Tropical Trees Species

Prematuri

Turjaman

Sato

et al. 2020

International Journal of Forestry Research

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“…Ideal target species for plantation in mine tailings must not only be metal-tolerant but also expose a low aboveground metal(oid) bioaccumulation that minimizes metal transfer to the food chain [1,11,29]. In our plantation, the bioaccumulation was quite variable among species though most of them had contents above the normal levels for most metal(oid)s excepting Cu [44][45][46][47].…”

Section: Discussionmentioning

confidence: 99%

“…Mining is one of the most environmentally damaging activities, with long-term negative effects on ecosystems due to soil denudation and pollution, as well as exhaustion of soil fertility and productivity [1]. In Europe, mining industry is responsible for 60% of contaminated lands, and only in 5% of all cases restoration or rehabilitation programs have been carried out [2].…”

Section: Introductionmentioning

confidence: 99%

“…Forest restoration programs in reclaimed metal mine soils have been described in North America and Central-Europe [1,[6][7][8][9]. These works from humid and cold climates show that tree plantations on mine tailings can achieve growths similar to adjacent mineunaffected areas in the mid-to long-term, with positive effects on different goods and services, including erosion control, carbon sequestration in soils and biomass or wood production.…”

Section: Introductionmentioning

confidence: 99%

“…These works from humid and cold climates show that tree plantations on mine tailings can achieve growths similar to adjacent mineunaffected areas in the mid-to long-term, with positive effects on different goods and services, including erosion control, carbon sequestration in soils and biomass or wood production. Nevertheless, metal concentration in the soil profiles of revegetated tailings suggests potential metal transfer to the food chain that could have toxic effects on different trophic levels [1]. In arid and semiarid areas, available examples of rehabilitation programs that included revegetation actions in mine soils are based mainly on the seeding or planting of species with short life forms such as herbs, grasses and shrubs [10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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Natural Seed Limitation and Effectiveness of Forest Plantations to Restore Semiarid Abandoned Metal Mining Areas in SE Spain

Oná

Goberna

Navarro‐Cano

2021

Forests

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The natural regeneration of forests in mining areas is typically hampered by edaphic stress. Semiarid conditions add a climatic stress that challenges the restoration of these harsh ecosystems. This is the case of Tetraclinisarticulata (Vahl) Masters mixed forests in the Western Mediterranean region colonizing mining structures abandoned three decades ago. We studied the factors controlling the natural establishment of nine shrub and tree species key in these forests in eight metal mine tailings in SE Spain. In addition, we assessed the success of reintroducing 1480 individuals of the nine species 15 months after planting in one of the tailings. Specifically, we analyzed the effect of (i) species identity in terms of sapling survival, growth, nutritional status and metal bioaccumulation, and (ii) adding organic amendments into the planting holes on the same parameters. Our results indicated that natural colonization is a recent process, with seedling cohorts that vary up to two orders of magnitude among species and a practical absence of adult plants in most species excepting T. articulata. We identified seed limitation as a key factor controlling seedling density, which was significantly explained by the distance from the border of the tailing to the closest adult out of the tailing. Soil metal concentration did not have any explanatory power on the density of naturally-established seedlings, whereas soil fertility was relevant only for Rhamnus lycioides L. Overall survival of planted individuals was over 80%, survival and growth remarkably differing among species. Organic amendments had neutral or negative effects on plant survival, but significantly increased the growth of survivors despite their modest effects on leaf nutrient contents. Most species showed high metal bioaccumulation, which was exacerbated by organic amendments. We discuss how biodiversity conservation programs can benefit from the affordable and successful plantation of stress-tolerant local species, but come at the expense of potential metal transfer through trophic webs.

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Mineral-Solubilizing Microbial Inoculums Promote Robinia Pseudoacacia L. Growth By Optimizing Rhizospheric Soil Microbial Community Structure

Jia,

Li,

et al. 2024

J Soil Sci Plant Nutr

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Assessing the Long-Term Ecosystem Productivity Benefits and Potential Impacts of Forests Re-Established on a Mine Tailings Site

Cited by 11 publications

References 61 publications

The Impact of Nickel Mining on Soil Properties and Growth of Two Fast-Growing Tropical Trees Species

The Impact of Nickel Mining on Soil Properties and Growth of Two Fast-Growing Tropical Trees Species

Natural Seed Limitation and Effectiveness of Forest Plantations to Restore Semiarid Abandoned Metal Mining Areas in SE Spain

Mineral-Solubilizing Microbial Inoculums Promote Robinia Pseudoacacia L. Growth By Optimizing Rhizospheric Soil Microbial Community Structure

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