作 者:王江,等
影响因子:3.534
刊物名称:PLOS ONE
出版年卷:2014, 9(4): e93733
文章摘要:Background: Phytoextraction is an environmentally acceptable and inexpensive technique for mine tailing rehabilitation
that uses metallophyte plants. These plants reduce the soil trace metal contents to environmentally acceptable levels by
accumulating trace metals. Recently, whether more trace metals can be removed by species-rich communities of these
plants received great attention, as species richness has been reported having positive effects on ecosystem functions.
However, how the species richness affects trace metals removal of plant communities of mine tailing is rarely known.
Methodology/Principal Findings: We examined the effects of species richness on soil trace metal removal in both natural
and experimental plant communities. The root lengths and stem heights of each plant species were measured in order to
calculate the functional diversity indices. Our results showed that trace metal (Cu, Cd, Pb and Zn) concentrations in mine
tailing soil declined as species richness increased in both the natural and experimental plant communities. Species richness,
rather than functional diversity, positively affected the mineralomass of the experimental plant communities. The intensity
of plant-plant facilitation increased with the species richness of experimental communities. Due to the incremental role of
plant-plant facilitation, most of the species had higher biomasses, higher trace metal concentrations in their plant tissues
and lower malondialdehyde concentrations in their leaves. Consequently, the positive effects of species richness on
mineralomass were mostly attributable to facilitation among plants.
Conclusions/Significance: Our results provide clear evidence that, due to plant-plant facilitation, species richness positively
affects the removal of trace metals from mine tailing soil through phytoextraction and provides further information on
diversity conservation and environmental remediation in a mine tailing environment.
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