Abstract
Abstract. In order to test whether invasive exotic species, predominantly used for restoring post-mining areas in north-eastern Vietnam, may be replaced by ecologically superior native pioneer species, we conducted a drought stress experiment in a greenhouse. We hypothesized that juvenile individuals of four native pioneer tree and two native pioneer grass species have a drought resistance comparable to two exotic reference species. Our results confirm this hypothesis: even under drought, native trees had a higher biomass and root : shoot ratio than exotic trees, although their maximum relative elongation rate and biomass were reduced more strongly than for exotic trees with respect to well-watered conditions. Native grasses had a higher root length density and a similar drought-induced reduction of stomatal conductance compared to exotic trees. In spite of a higher biomass reduction, native grasses produced more biomass under drought in absolute terms. Notwithstanding that further investigations of other adverse environmental factors need to be performed, our results indicate with respect to drought resistance that native pioneer species are a potential alternative to exotic species for the ecological restoration of subtropical post-mining areas, which may accelerate secondary succession.
Highlights
Open-cast coal mining is associated with the removal of soil and vegetation of vast areas
Native trees displayed a significantly lower specific root length (SRL) than exotic trees, whereas SRL of native grasses was similar to SRL of exotic trees
Overall, regarding drought resistance, the results of the comparison of functional traits and their response to drought indicate that the studied native trees and native grasses are a suitable alternative to the currently planted drought-resistant exotic tree species
Summary
Open-cast coal mining is associated with the removal of soil and vegetation of vast areas. The current economic growth in Asian countries results in the expansion of mining sites (US Energy Information Administration, 2011). The remaining post-mining areas are devastated areas of waste rock dumps which need to be replanted to reduce erosion risks and to restore viable ecosystems. Beside the deficiency of nutrients, waste rock dumps are often characterized by coarsegrained substrates with a low water storage capacity and high surface run-off on steep slopes. In subtropical areas, especially during the dry season, plants may suffer from drought. Species’ drought resistance is highly relevant for the successful restoration of subtropical postmining areas
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