Abstract
BackgroundAbandoned coal piles after the closure of mines have a potential negative influence on the environment, such as soil acidification and heavy metal contamination. Therefore, revegetation by efficient species is required. For this, we wanted to identify the role of Silene acaulis in the succession of coal piles as a pioneer and a nurse plant. S. acaulis is a well-studied cushion plant living in the Arctic and alpine environments in the northern hemisphere. It has a highly compact cushion-like form and hosts more plant species under its canopy by ameliorating stressful microhabitats. In this research, we surveyed vegetation cover on open plots and co-occurring species within S. acaulis cushions in coal piles with different slope aspects and a control site where no coal was found. The plant cover and the similarity of communities among sites were compared. Also, the interaction effects of S. acaulis were assessed by rarefaction curves.ResultsS. acaulis was a dominant species with the highest cover (6.7%) on the coal piles and occurred with other well-known pioneer species. Plant communities on the coal piles were significantly different from the control site. We found that the pioneer species S. acaulis showed facilitation, neutral, and competition effect in the north-east facing slope, the south-east facing slope, and the flat ground, respectively. This result was consistent with the stress gradient hypothesis because the facilitation only occurred on the north-east facing slope, which was the most stressed condition, although all the interactions observed were not statistically significant.ConclusionsS. acaulis was a dominant pioneer plant in the succession of coal piles. The interaction effect of S. acaulis on other species depended on the slope and its direction on the coal piles. Overall, it plays an important role in the succession of coal piles in the High Arctic, Svalbard.
Highlights
Coal mining has been dramatically reduced worldwide, and many coal piles have been abandoned after the closure of mines
Plant communities on the coal piles and the control site S. acaulis had the highest cover on the open plots of coal piles, followed by S. oppositifolia, Luzula confusa, and others (S. acaulis 6.7 ± 5.9%, S. oppositifolia 3.5 ± 3.0%, L. confusa 3.0 ± 4.6%, Bistorta vivipara 1.8 ± 2.2%, Oxyria digyna 1.2 ± 2.9%, Salix polaris 0.7 ± 1.5%, Poa alpina 0.3 ± 1.6%, Equisetum scirpoides 0.2 ± 1.4%, S. cespitosa 0.1 ± 0.3%, the others: below 0.1%, all values are mean ± s.d.) (Fig. 3)
We found that the plant community of control site was significantly different from that of the coal piles (Fig. 4)
Summary
Coal mining has been dramatically reduced worldwide, and many coal piles have been abandoned after the closure of mines If it is not appropriately reclaimed, dissolved pollutants are carried in runoffs and flows into streams (Carter and Ungar 2002), and soils are acidified and contaminated by heavy metals (Hollesen et al 2009). For these reasons, there were many attempts to restore the abandoned coal piles by replanting trees or. S. acaulis is a well-studied cushion plant living in the Arctic and alpine environments in the northern hemisphere. The interaction effects of S. acaulis were assessed by rarefaction curves
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